Chair assemblies, table assemblies, modular components for use within chair assemblies and table assemblies, and parts for use within the modular components

TECHNICAL FIELD

The present disclosure generally relates to chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, recliner chairs, support surfaces, tables, trays, a sub-combination thereof, or a combination thereof) and table assemblies. More particularly, the present disclosure relates to chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, recliner chairs, support surfaces, tables, trays, a sub-combination thereof, or a combination thereof) and table assemblies, modular components for use within the chair assemblies, support surface assemblies, table assemblies, tray assemblies, parts for use within the modular components and related manufacturing and installation methods.

BACKGROUND

Chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, recliner chairs, tables and trays, a sub-combination thereof, or a combination thereof) and/or table assemblies are often installed in dine-in theaters, gymnasiums, auditoriums, stadiums, theaters, arenas, conference centers, cinemas, home theaters, places of worship (e.g., a church), education facilities, classrooms, performance halls and the like.

Powered recliner chair assemblies and chair assemblies with pivoting seats may reduce space requirements when compared to chair assemblies that do not include pivoting seats. For example, when a chair assembly with a pivoting seat is unoccupied, the seat may automatically pivot upward such that the seat does not extend as far into a related row compared to when the seat is occupied. Similarly, when a powered recliner chair assembly is unoccupied, the chair assembly may automatically reorient to an upright (retracted) orientation. Thereby, more powered recliner chair assemblies and/or chair assemblies with pivoting seats may be installed within a given venue space compared to chair assemblies without pivoting seats. Space usage/constraints may also apply to installations that include tables/trays (i.e., the tables and/or trays may be configured to automatically reorient from an in-use orientation to a stowed orientation).

Chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, tables and trays, a sub-combination thereof, or a combination thereof) typically include a plethora of individual parts. Many of the corresponding components, assembled from the individual parts, are complex. Manufacturing of the parts and assembly of the components is time consuming and expensive. Installation of a plurality of chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, tables and trays, a sub-combination thereof, or a combination thereof), starting with the individual parts on site, requires a protracted amount of time and resources and involves a wide variety of likelihood for error and lost parts.

Related venues are incorporating dine-in options, in-house brewery facilities, venue cleaning systems, venue emergency systems, venue ticketing systems, patron interaction systems, etc. Electrical systems are needed that accommodate related venue operations.

Chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, tables and trays, a sub-combination thereof, or a combination thereof) are needed that minimize part manufacturing time, maximize material usage and reduce component assembly time and chair installation time. Chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, tables and trays, a sub-combination thereof, or a combination thereof) are also needed that minimize associated row widths while satisfying venue ingress/egress building code requirements. Furthermore, chair assemblies (e.g., powered recliner chairs, rocker style chairs, fixed position chairs, chairs with pivoting seats, tables and trays, a sub-combination thereof, or a combination thereof) are needed that minimize the need for skilled labor during installation.

SUMMARY

In another embodiment, a seating assembly may include at least one chair and at least one tray. The at least one tray may be reorientable with respect to the at least one chair. The at least one tray may be biased in at least one of; an in-use orientation or an open orientation via a tray biasing mechanism. The seating assembly may also include at least one electrical component attached to the tray. The seating assembly may further include at least one electrical conductor extending from the chair to the at least one electrical component. The at least one electrical component is relocated from a first location to a second location when the at least one tray is reoriented with respect to the at least one chair.

In another embodiment, an apparatus may include at least one actuator having an actuator drive motor. The apparatus may also include a controller configured to control reorientation of a portion of the apparatus from a first orientation to a second orientation based on at least one of: a first number of electrical pulses associated with the actuator drive motor, a first width of electrical pulses associated with the actuator drive motor, a first frequency of electrical pulses associated with the actuator drive motor, a first actuator drive motor activation time, or first power pulses associated with the actuator drive motor. The controller may be further configured to control reorientation of the portion of the apparatus from the first orientation to a third orientation based on at least one of: a second number of electrical pulses associated with the actuator drive motor, a second width of electrical pulses associated with the actuator drive motor, a second frequency of electrical pulses associated with the actuator drive motor, a second actuator drive motor activation time, or second power pulses associated with the actuator drive motor.

In a further embodiment, a powered recliner chair may include at least one actuator having an actuator drive motor. The powered recliner chair may also include a controller configured to control movement of the at least one actuator from a first orientation to a second orientation based on at least one of: a number of electrical pulses associated with an actuator drive motor, a width of electrical pulses associated with an actuator drive motor, a frequency of electrical pulses associated with an actuator drive motor, an actuator activation time, or power pulses associated with an actuator drive motor. The powered recliner chair may further include a recliner mechanism system including at least one mechanism selected from a group: a cable between an ottoman and an actuator, an actuator extend hard stop, an actuator rotation hard stop, or a gas-charged piston and an actuator, to control movement of a chair back relative to movement of a chair ottoman.

A venue having a plurality of chair assemblies and a plurality of table assemblies may include a first chair and table assembly located on a first venue floor section. The venue may also include a second chair assembly located on a second venue floor section. An elevation of the second venue floor section may be below an elevation of the first venue floor section. The second venue floor elevation may include a walkway in front of the first chair and table assembly and behind the second chair assembly.

In another embodiment, a venue having a plurality of chair assemblies and a plurality of table assemblies may include a first chair and table assembly located on a first venue floor section. The venue may also include a second chair assembly located on a second venue floor section. An elevation of the second venue floor section may be below an elevation of the first venue floor section. The first venue floor elevation may include a walkway in front of the first chair and table assembly and behind the second chair assembly.

A movable table assembly may include a concessions button fixed to the movable table assembly.

In another embodiment, a movable table assembly may include an illumination source fixed to the movable table assembly.

In a further embodiment, a chair and table assembly may include at least two movable chairs and at least one table. The at least two movable chairs may be repositionable relative to the at least one table such that occupants of the at least two movable chairs have a similar view of an event within an associated venue. The at least two movable chairs may be repositionable relative to the at least one table such that occupants of the at least two movable chairs have a view of one another.

A control system for a powered chair assembly may include a controller that may be correlated with a physical location of a respective chair within a venue.

In another embodiment, a control system for a powered chair assembly may include a controller that may be correlated with a physical location of a respective chair within a venue. The physical location may be designated by a row number and a chair number.

In a further embodiment, a control system for a powered table assembly may include a controller that may be correlated with a physical location of a respective table within a venue.

In yet a further embodiment, a control system for a powered table assembly may include a controller that may be correlated with a physical location of a respective table within a venue. The physical location may be designated by a row number and a chair number.

In another embodiment, a removable tray assembly may include a tray and a cup holder adaptor. The cup holder adaptor may include a concentric cup holder engagement.

In a further embodiment, a removable tray assembly may include a tray and a cup holder adaptor. The cup holder adaptor may include a non-concentric cup holder engagement.

A movable surface assembly for use with seating may include a support structure having a mounting structure. The mounting structure may be configured to be mounted to at least one of: a venue floor, a venue riser, a venue surface, a venue structure, or a chair structure. The movable surface assembly may also include a movable surface attachment fixed to the support structure, and a movable surface linear slide mechanism having a stationary portion fixed to the movable surface attachment and a linear slide portion slidingly engaged with the linear stationary portion. The movable surface assembly may further include a movable surface rotation mechanism having a rotate stationary portion fixed to the linear slide portion and a rotation portion rotatably engaged with the rotate stationary portion. The movable surface assembly may yet further include a movable surface fixed to the rotation portion.

In another embodiment, a movable surface assembly for use with seating may include a support structure having a mounting structure. The mounting structure may be configured to be mounted to at least one of: a venue floor, a venue riser, a venue surface, a venue structure, or a chair structure. The movable surface assembly may also include a movable surface attachment fixed to the support structure, and a movable surface rotation mechanism having a rotate stationary portion fixed to the movable surface attachment and a rotation portion rotatably engaged with the rotate stationary portion. The movable surface assembly may further include a movable surface linear slide mechanism having a stationary portion fixed to the rotation portion and a linear slide portion slidingly engaged with the linear stationary portion. The movable surface assembly may yet further include a movable surface fixed to the linear slide portion.

In a further embodiment, a movable surface assembly for use with venue seating a support structure having a mounting structure. The mounting structure may be configured to be mounted to at least one of: a venue floor, a venue riser, a venue surface, a venue structure, or a chair structure. The movable surface assembly may also include a movable surface attachment fixed to the support structure, and a first movable surface linear slide mechanism having a first stationary portion fixed to the movable surface attachment and a first linear slide portion slidingly engaged with the first linear stationary portion. The movable surface assembly may further include a first movable surface rotation mechanism having a first rotate stationary portion fixed to the first linear slide portion and a first rotation portion rotatably engaged with the first rotate stationary portion. The movable surface assembly may yet further include a first movable surface fixed to the first rotation portion. The movable surface assembly may include a second movable surface linear slide mechanism having a second stationary portion fixed to the movable surface attachment and a second linear slide portion slidingly engaged with the second linear stationary portion. The movable surface assembly may also include a second movable surface rotation mechanism having a second rotate stationary portion fixed to the second linear slide portion and a second rotation portion rotatably engaged with the second rotate stationary portion. The movable surface assembly may further include a second movable surface fixed to the second rotation portion.

An adjustable chair standard may include a first standard portion. The first standard portion may include at least one mounting foot, a first set of second standard portion engagements, and a second set of second standard portion engagements. The adjustable chair standard may also include a second standard portion. The second standard portion may include a set of first standard portion engagements. When the first set of second standard portion engagements is fixed proximate the set of first standard portion engagements, the first standard portion may be secured in a first orientation with respect to the second standard portion. When the second set of second standard portion engagements is fixed proximate the set of first standard portion engagements, the first standard portion may be secured in a second orientation with respect to the second standard portion. The second orientation may be different than the first orientation.

In another embodiment, an adjustable chair standard may include a first standard portion. The first standard portion may include at least one mounting foot and a set of second standard portion engagements. The adjustable chair standard may also include a second standard portion. The second standard portion may include at least one chair seat pivot attachment, an arm rest attachment, a first set of first standard portion engagements, and a second set of first standard portion engagements. When the first set of first standard portion engagements is fixed proximate the set of second standard portion engagements, the first standard portion may be secured in a first orientation with respect to the second standard portion. When the second set of first standard portion engagements is fixed proximate the set of second standard portion engagements, the first standard portion may be secured in a second orientation with respect to the second standard portion. The second orientation may be different than the first orientation.

In a further embodiment, an adjustable chair assembly standard may include a first standard portion. The first standard portion may include at least one mounting foot, a first set of second standard portion engagements, and a second set of second standard portion engagements. The adjustable chair standard may also include a second standard portion. The second standard portion may include at least one of: a foldable tray attachment or a table attachment, and a set of first standard portion engagements. When the first set of second standard portion engagements is fixed proximate the set of first standard portion engagements, the first standard portion may be secured in a first orientation with respect to the second standard portion. When the second set of second standard portion engagements is fixed proximate the set of first standard portion engagements, the first standard portion may be secured in a second orientation with respect to the second standard portion. The second orientation may be different than the first orientation.

In yet a further embodiment, a chair assembly may include a repositionable surface (e.g., a table, a tray, etc.) effected by rotation or translation or combination therein of members to aid in the use and or storage of said surface.

An assembly for use in a rocker style chair may include a spring assembly having a rubber body, a bottom cap, secured to a bottom side of the rubber body, including a first fastener hole, a second fastener hole and a bottom bushing hole. A bottom bushing may extend through the bottom bushing hole. The spring may also include a first fastener extending through the first fastener hole. The first fastener may include a first enlarged head that is larger than the first fastener hole and the first enlarged head may be trapped between the bottom side of the rubber body and the bottom cap. The spring may further include a second fastener extending through the second fastener hole. The second fastener may include a second enlarged head that is larger than the second fastener hole and the second enlarged head may be trapped between the bottom side of the rubber body and the bottom cap. The assembly may also include a landing bracket having a substantially flat, horizontal surface including a front spring assembly fastener hole, a rear spring assembly fastener hole, and an over-travel bolt opening configured to receive the bottom bushing of the spring assembly such that a substantially flat bottom surface of the spring assembly rests on the substantially flat, horizontal surface when the spring assembly is position proximate the landing bracket.

In another embodiment, an assembly for use in a rocker style chair may include a spring secured to a landing bracket. The spring may include a rubber body including a top side, a bottom side, a first side, a second side, a front end side, a rear end side, a top bushing located on the top side, a bottom bushing located on the bottom side, a substantially cylindrically shaped over-travel bolt passageway extending through the top bushing, through the rubber body from the top side to the bottom side and through the bottom bushing. The spring may also include a top cap, secured to the top side of the rubber body, including a first fastener hole, a second fastener hole and a top bushing hole. The top bushing may extend through the top bushing hole. The spring may further include a bottom cap, secured to the bottom side of the rubber body, including a third fastener hole, a fourth fastener hole and a bottom bushing hole. The bottom bushing may extend through the bottom bushing hole. The spring may yet further include a first fastener extending through the first fastener hole. The first fastener may include a first enlarged head that may be larger than the first fastener hole and the first enlarged head may be trapped between the top side of the rubber body and the top cap. The spring may also include a second fastener extending through the second fastener hole. The second fastener may include a second enlarged head that may be larger than the second fastener hole and the second enlarged head may be trapped between the top side of the rubber body and the top cap. The spring may further include a third fastener extending through the third fastener hole. The third fastener may include a third enlarged head that may be larger than the third fastener hole and the third enlarged head may be trapped between the bottom side of the rubber body and the bottom cap. The spring may yet further include a fourth fastener extending through the fourth fastener hole. The fourth fastener may include a fourth enlarged head that may be larger than the fourth fastener hole and the fourth enlarged head may be trapped between the bottom side of the rubber body and the bottom cap.

In a further embodiment, an assembly for use in a rocker style chair may include a spring attached to a landing bracket. The landing bracket may include a substantially flat, horizontal surface including a front spring assembly fastener hole, a rear spring assembly fastener hole and an over-travel bolt opening. The over-travel bolt opening may be configured to receive a bottom bushing of a spring assembly such that a substantially flat bottom surface the spring assembly may rest on the substantially flat, horizontal surface when the spring assembly is position proximate the landing bracket. The landing bracket may also include a side surface extending downward from the substantially flat, horizontal surface at approximately a ninety degree angle with respect to the substantially flat, horizontal surface. The side surface may be configured to attach the landing bracket to a standard.

In another embodiment, a seat bracket for use in a rocker style chair may include an over-travel bolt nut receptacle, wherein the over-travel bolt nut receptacle is configured to receive an associated over-travel bolt nut and to prevent the over-travel bolt nut from rotating when the over-travel bolt nut is received within the over-travel bolt nut receptacle. The seat bracket may further include a seat assembly fastener hole and corresponding seat assembly fastening receptacle, wherein the seat assembly fastening receptacle is configured to receive an associated seat assembly fastening head and to prevent the seat assembly fastening from rotating when the seat assembly fastening head is received within the seat assembly fastening head receptacle.

In a further embodiment, a seat bracket for use in a rocker style chair include at least one fastener head receptacle, wherein the at least one fastener head receptacle is configured to receive a fastener head and to prevent the fastener head from rotating when a fastener head is received within the fastener head receptacle. The seat bracket may further include a substantially flat bottom surface that is configured to engage a substantially flat surface of an associated spring assembly.

In yet another embodiment, a rocker style chair is provided. The rocker style chair may include a modular left-hand standard assembly including a left-hand landing bracket, wherein the left-hand landing bracket is shaped from a first landing bracket blank. The rocker style chair may also include a modular right-hand standard assembly including a right-hand landing bracket, wherein the right-hand landing bracket is shaped from a second landing bracket blank and wherein the second landing bracket blank is substantially the same shape as the first landing bracket blank and the right-hand landing bracket is substantially a mirror image of the left-hand landing bracket. The rocker style chair may further include a modular chair seat assembly and a modular chair back assembly.

In yet a further embodiment, a method of installing at least one chair assembly at an installation site is provided. The method may include assembling at least two modular standard assemblies at a first site. The method may also include assembling at least one modular chair seat assembly at a second site. The method may further include assembling at least one modular chair back assembly at a third site. The method may yet further include delivering the at least two modular standard assemblies, the at least one modular chair seat assembly and the at least one modular chair back assembly to the installation site, wherein a geographic location of the first site, a geographic location of the second site and a geographic location of the third site are different than a geographic location of the installation site. The method may also include placing the at least one modular chair seat assembly and the at least one modular chair back assembly proximate the at least two modular standard assemblies, at the installation site, in a free standing, final resting position at the installation site, without using any hand tools or fasteners, to define at least one rocker style chair.

In another embodiment, a plurality of chairs may be provided. The plurality of chairs may include at least one modular left-hand standard assembly including a left-hand landing bracket, wherein the left-hand landing bracket is shaped from a first landing bracket blank. The plurality of chairs may also include at least one modular center standard assembly including a left-hand landing bracket and a right-hand landing bracket, wherein the right-hand landing bracket is shaped from a second landing bracket blank and wherein the second landing bracket blank is substantially the same shape as the first landing bracket blank and the right-hand landing bracket is substantially a mirror image of the left-hand landing bracket. The plurality of chairs may further include at least one modular right-hand standard assembly including a right-hand landing bracket. The plurality of chairs may yet further include at least two modular chair seat assemblies and at least two modular chair back assemblies.

In a further embodiment, a singular modular standard may be utilized to support a rocker style chair or a fixed position style chair.

In yet further embodiments, at least one component and/or assembly is provided that may be used on either a right-side of an associated chair or a left-side of the associated chair.

In a further embodiment, a movable surface assembly for use with seating may include a support structure having a mounting structure. The mounting structure is configured to be mounted to at least one of: a venue floor, a venue riser, a venue surface, a venue structure, or a chair structure. The assembly may also include a movable surface attachment fixed to the support structure, a movable surface curve-linear movement mechanism fixed to the movable surface attachment, and a movable surface fixed to the curve-linear movement mechanism.

In yet a further embodiment, a movable surface assembly for use with venue seating may include a support structure having a mounting structure. The mounting structure may be configured to be mounted to at least one of: a venue floor, a venue riser, a venue surface, a venue structure, or a chair structure. The assembly may also include a movable surface attachment fixed to the support structure, a first movable surface arc-path movement mechanism fixed to the movable surface attachment, and a first movable surface fixed to the first arc-path movement mechanism. The assembly may further include a second movable surface arc-path movement mechanism fixed to the movable surface attachment and a second movable surface fixed to the second arc-path movement mechanism.

BRIEF DESCRIPTION OF THE DRAWINGS

The figures described below depict various aspects of rocker style chairs and rocker style chairs with pivoting seats, components for use within the chairs and parts for use within the components that are disclosed herein. It should be understood that each figure depicts an embodiment of a particular aspect of the disclosed chairs, components and/or parts, and that each of the figures is intended to accord with a possible embodiment thereof. Furthermore, wherever possible, the following description refers to the reference numerals included in the following figures, in which features depicted in multiple figures may be designated with consistent reference numerals and/or consistent reference numerals having a differing concatenated letter.

FIG. 1A depicts an example high-level block diagram of a computer system for managing powered chair assemblies, table assemblies, and venues that include powered chair assemblies and/or table assemblies;

FIGS. 1B-G depict plan views of example venues that include powered chair assemblies and/or table assemblies, and a computer system for managing powered chair assemblies, table assemblies, venue concessions, venue employee payroll, venue ticketing, customer loyalty, etc.;

FIG. 2 depicts a perspective view of an example powered chair and an example powered table assembly

FIG. 3 depicts a block diagram of a control and management system for use with powered chairs and/or powered tables;

FIGS. 4A-H, 4J-N and 4P-T depict example electrical control circuits for use within powered chairs;

FIGS. 5A and 5B depict an example electrical interconnection cable for use with electrically interconnecting a plurality of powered chairs;

FIGS. 6A-E depict various views of an example table assembly;

FIGS. 7A-H, J-N, P and Q depict various view of an example removable tray assembly;

FIGS. 8A-G depict various view of an example removable tray assembly;

FIGS. 9A-G depict various view of an example removable tray assembly;

FIG. 10 depicts an example chair assembly/table assembly;

FIGS. 11A and B depict example chair assemblies having mesh fabric chair backs and/or chair seats;

FIG. 12 depicts an example beam mounted chair assembly with chair assemblies having mesh fabric chair backs and/or chair seats;

FIGS. 13A and B depict an example chair assembly having a mesh fabric chair back and/or chair seat;

FIGS. 14A and B depict an example chair assembly having a mesh fabric chair back and/or chair seat;

FIGS. 15A-D depict an example dolly and mobile chair and table assembly;

FIGS. 16A-D depict an example dolly and mobile multi-chair and multi-table assembly;

FIGS. 17A-C depict various views of an example chair assembly dolly;

FIGS. 18A-C depict various views of an example multi-chair assembly dolly;

FIGS. 19A-19D depict various views of an example accessory tray assembly;

FIG. 20 depicts an example dual chair and dual table assembly;

FIGS. 21A-H and J depict various views of an example dual chair and single table assembly;

FIGS. 22A-C depict various views of an example dual table assembly;

FIGS. 23A and 23B depict various views of an example seating assembly; and

FIG. 24 depicts an example venue information communication system.

DETAILED DESCRIPTION

Powered recliner chair assemblies, rocker style chair assemblies, rocker style chair assemblies with pivoting seats, and repositionable tray assemblies of the present disclosure may be installed within dine-in theaters, gymnasiums, auditoriums, stadiums, theaters, arenas, conference centers, cinemas, places of worship (e.g., a church, a synagogue, a mosque, a temple, etc.), education facilities, classrooms, performance halls, home theaters and the like. The individual powered recliner chair assemblies, rocker style chair assemblies, rocker style chair assemblies with pivoting seats, and repositionable tray assemblies, and/or a related installation structure, may include power and/or data connections and related systems for use by a chair occupant and/or a venue operator.

The powered recliner chair assemblies, rocker style chair assemblies, rocker style chair assemblies with pivoting seats, and repositionable tray assemblies of the present disclosure may be assembled, on site, starting with a set of modular components. For example, each rocker style chair may include a left-hand standard module, a right-hand standard module, a chair seat module and a chair back module (i.e., each rocker style chair may include four modular components). When two, or more, rocker style chairs are installed side-by-side in a row, each rocker style chair, within a row of side-by-side rocker style chairs, may share a center standard module. In any event, the individual modular components (e.g., left-hand standard module, right-hand standard module, center standard module, chair seat module and chair back module) may be pre-assembled off site. As a result, on-site installation time is minimized, the need for on-site skilled labor is minimized, the likelihood of losing parts on-site is minimized, on-site assembly errors are minimized, etc.

Similarly, the powered recliner chair assemblies and table assemblies may be at least partially assembled remote from an associated venue site, and the associated subassemblies may be shipped to the venue site for installation. Likewise, associated electrical components and systems may be shipped to a venue site for final installation by, for example, non-skilled labor. For example, electrical power and/or control components and/or subassemblies may include plug-in connections and/or wire routing features.

Turning to FIG. 1A, a high-level block diagram of an example computer system 100a for managing powered chairs and/or powered tables, and venues that include powered chairs and/or powered tables, is depicted. The computer system 100a may include a central venue operations center 105a and a powered chair and/or powered table site 160a (e.g., a movie theater, a sports venue, an auditorium, an arena, a theater, a dine-in cinema, or any other venue) communicatively couple via a communications network 175a.

The computer system 100a may, for example, include a venue ticket system 112a, a venue concessions system 119a, associated inventory management 106a, associated data collection 110a, etc. Accordingly, the computer system 100a may include ticket sales data (e.g., ticket sales for a plurality of movies, correlated with each movie showing, that have been shown at a venue, ticket sales for a plurality of pay-per-view sporting events, correlated with each event showing, that have been shown at a venue, etc.) The computer system 100a may also include an employee payroll management and/or time clock system and/or a customer loyalty system.

The computer system 100a may also include a remote powered chair technician, a remote powered table technician, and/or a remote concessions operation site 145a and a remote powered chair supplier, a remote powered table supplier, and/or a remote concessions supplier site 130a. While, for convenience of illustration, only a single central venue operations center 105a is depicted within the computer system 100a of FIG. 1A, any number of central venue operations centers 105a may be included within the computer system 100a (e.g., a first central venue operations center for venue ticketing, a second central venue operations center for venue concessions, a third central venue operations center for venue operations, etc.). While, for convenience of illustration, only a single powered chair and/or powered table site 160a is depicted within the computer system 100a of FIG. 1A, any number of powered chair and/or powered table sites 160a may be included within the computer system 100a. Indeed, the computer system 100a may accommodate thousands of powered chair and/or powered table sites 160a. While, for convenience of illustration, only a single powered chair and/or powered table technician site 145a is depicted within the computer system 100a of FIG. 1A, any number powered chair and/or powered tables of technician sites 145a may be included within the computer system 100a. Any given powered chair and/or powered table technician site 145a may be a mobile site. While, for convenience of illustration, only a single powered chair and/or powered table supplier site 130a is depicted within the computer system 100a of FIG. 1A, any number of powered chair and/or powered table supplier sites 130a may be included within the computer system 100a.

The communications network 175a, any one of the network adapters 111a, 118a, 125a, 137a, 152a, 167a and any one of the network connections 176a, 177a, 178a, 179a may include a hardwired section, a fiber-optic section, a coaxial section, a wireless section, any sub-combination thereof or any combination thereof, including for example a wireless LAN, MAN or WAN, WiFi, WiMax, the Internet, a Bluetooth connection, an Ethernet connection, a Zigbee internet connection, a Global Cache' internet connection, or any combination thereof. Moreover, a central venue operations center 105a, a powered chair and/or powered table site 160a, a powered chair and/or powered table technician site 145a and/or a powered chair and/or powered table supplier 130a site may be communicatively connected via any suitable communication system, such as via any publicly available or privately owned communication network, including those that use wireless communication structures, such as wireless communication networks, including for example, wireless LANs and WANs, satellite and cellular telephone communication systems, etc. The network 175a may include, for example, a dynamic host configuration protocol (DHCP) on a UDP/IP network server that may dynamically assign an IP address and other network configuration parameters to each device 106a, 112a, 119a, 126a, 127a, 131a, 138a, 139a, 140a, 146a, 153a, 154a, 155a, 161a, 168a, 169a, 170a.

Any given central venue operations center 105a may include a mainframe, or central server, system 106a, a server terminal 112a, a desktop computer 119a, a laptop computer 126a and a telephone 127a. While the central venue operations center 105a of FIG. 1A is shown to include only one mainframe, or central server, system 106a, only one server terminal 112a, only one desktop computer 119a, only one laptop computer 126a and only one telephone 127a, any given central venue operations center 105a may include any number of mainframe, or central server, systems 106a, server terminals 112a, desktop terminals 119a, laptop computers 126a and telephones 127a. Any given telephone 127a may be, for example, a land-line connected telephone, a computer configured with voice over internet protocol (VOIP), or a mobile telephone (e.g., a smartphone). Any given server terminal 112a may include a processor 115a, a memory 116a having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations 117a, a network adapter 118a a display 113a and a keyboard 114a. Any given desktop computer 119a may include a processor 122a, a memory 123a having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations 124a, a network adapter 125a a display 120a and a keyboard 121a. Any given mainframe, or central server, system 106a may include a processor 107a, a memory 108a having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations 109a, a network adapter 111a and a customer (or client) database 110a. The customer (or client) database 110a may store, for example, chair operation data and/or associated venue data, related to operation of the chair (or a group of chairs) within an associated venue. Any given lap top computer 126a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given telephone 127a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard.

Any given powered chair and/or powered table supplier 130a may include a desktop computer 131a, a lap top computer 138a, a tablet computer 139a and a telephone 140a. While only one desktop computer 131a, only one lap top computer 138a, only one tablet computer 139a and only one telephone 140a is depicted in FIG. 1A, any number of desktop computers 131a, lap top computers 138a, tablet computers 139a and/or telephones 140a may be included at any given powered chair and/or powered table supplier 130a. Any given telephone 140a may be a land-line connected telephone or a mobile telephone (e.g., smartphone). Any given desktop computer 131a may include a processor 134a, a memory 135a having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations 136a, a network adapter 137a a display 132a and a keyboard 133a. Any given lap top computer 138a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given tablet computer 139a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given telephone 140a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard.

Any given powered chair and/or powered table technician site 145a may include a desktop computer 146a, a lap top computer 153a, a tablet computer 154a and a telephone 155a. While only one desktop computer 146a, only one lap top computer 153a, only one tablet computer 154a and only one telephone 155a is depicted in FIG. 1A, any number of desktop computers 146a, lap top computers 153a, tablet computers 154a and/or telephones 155a may be included at any given powered chair and/or powered table technician site 145a. Any given telephone 155a may be a land-line connected telephone or a mobile telephone (e.g., smartphone). Any given desktop computer 146a may include a processor 149a, a memory 150a having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations 151a, a network adapter 152a a display 147a and a keyboard 148a. Any given lap top computer 153a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given tablet computer 154a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given telephone 155a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard.

Any given powered chair and/or powered table site 160a may include a desktop computer 161a, a lap top computer 168a, a tablet computer 169a and a telephone 170a. While only one desktop computer 161a, only one lap top computer 168a, only one tablet computer 169a and only one telephone 170a is depicted in FIG. 1A, any number of desktop computers 161a, lap top computers 168a, tablet computers 169a and/or telephones 170a may be included at any given powered chair and/or powered table site 160a. Any given telephone 170a may be a land-line connected telephone or a mobile telephone (e.g., smartphone). Any given desktop computer 161a may include a processor 164a, a memory 165a having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations 166a, a network adapter 167a a display 162a and a keyboard 163a. Any given lap top computer 168a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given tablet computer 169a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. Any given telephone 170a may include a processor, a memory having at least on set of computer-readable instructions stored thereon and associated with managing powered chair and/or powered tables and venue operations, a network adapter, a display and a keyboard. While not shown in FIG. 1A, any given set of powered chair and/or powered tables 171a, or individual powered chair and/or powered table, may include a programmable controller (e.g., controller 301 of FIG. 3), a powered chair and/or powered table local control (e.g., 309-316 of FIG. 3), and/or any number of linear and/or rotary actuators (e.g., actuator 511 of FIG. 3). Furthermore, while not shown in FIG. 1A, any given set of powered chairs and/or powered tables 171a, or individual powered chair and/or powered table, may include a plurality of sensors (e.g., temperature sensor, pressure sensor, limit switch, motion sensor, strain gauge, position sensor, occupancy sensor, load sensor, etc.).

Any given venue site 160a, 105a and/or remote site 130a, 145a may include a ticket point of sale system, a food/beverage point of sale system, an employee payroll management and/or time clock system, a smart chair system, and/or a customer loyalty system. The ticket point of sale system may be, for example, an optional module that may provide ticket information which is available through, for example, integration with a supported ticketing point of sale system. The food/beverage system may be, for example, an optional module that may provide food sales information which may be, for example, available through integration with a supported food/beverage point of sale system. The employee payroll management and/or time clock system may be, for example, an optional module that may provide employee payroll management and/or time clock information which may be, for example, available through integration with a supported employee payroll management and/or time clock system. The smart chair system may include, for example, an optional module that may provide smart chair information which may be, for example, available through integration with a supported chair control system. The customer loyalty system may be, for example, an optional module that may provide customer loyalty information which may be, for example, available through integration with a supported customer loyalty system.

Any given venue may, for example, include a plurality of powered recliner chair assemblies, a plurality of rocker style chair assemblies with pivoting seats, roller style chair assemblies, and/or repositionable tray/table assemblies. Each chair assembly and/or tray/table assembly, and/or a group of chair assemblies and/or table assemblies, may include at least one powered control (e.g., electric powered actuator(s), pneumatic powered actuator(s), push buttons, etc.) configured to allow a chair occupant to reposition, for example, a chair, a headrest, a chair back, a chair lumbar support, a chair seat, an ottoman, a tray, a table, etc. as disclosed in, for example, commonly assigned U.S. patent application serial numbers 62/816,707 and 15/640,938, the disclosures of which are incorporated in its entirety herein by reference. When a powered control is included, a chair, a headrest, a chair back, a chair lumbar support, a chair seat, an ottoman, a tray, a table, etc. may automatically retract in response to a remote control (e.g., a venue emergency system, a venue cleaning system, a venue ticketing system). Similarly, a chair, a headrest, a chair back, a chair lumbar support, a chair seat, an ottoman, a tray, a table, etc. may automatically extend in response to a remote control (e.g., a venue cleaning system). A first a chair, a headrest, a chair back, a chair lumbar support, a chair seat, an ottoman, a tray, a table, etc. may be inhibited from starting to move when a second a chair, a headrest, a chair back, a chair lumbar support, a chair seat, an ottoman, a tray, a table, etc. of another chair is starting to move, thereby, reducing electric power demand.

Alternatively, or additionally, any one of the chair assemblies of the present disclosure may be similar to, for example, the chair assemblies as described within U.S. patent application Ser. No. 15/919,172, filed Mar. 12, 2018; U.S. patent application Ser. No. 15/919,176, filed Mar. 12, 2018; U.S. patent application Ser. No. 15/800,182, filed Nov. 1, 2017; U.S. patent application Ser. No. 15/675,865, filed Aug. 14, 2017; and U.S. patent application Ser. No. 15/710,768, filed Sep. 20, 2017, the entire disclosures of which are incorporated herein by reference thereto. Alternatively, or additionally, any one of the chair assemblies of the present disclosure may be similar to, for example, the chair assemblies as described within U.S. Provisional Patent Application Ser. Nos: 62/816,707, filed Mar. 11, 2019, 62/631,457, filed Feb. 15, 2018, and 62/689,237, filed Jun. 24, 2018 the entire disclosures of which are incorporated herein by reference thereto. Alternatively, or additionally, any one of the chair assemblies of the present disclosure may be similar to, for example, the chair assemblies as described within patent application Ser. Nos. 61/287,418, filed Jan. 26, 2016; 62/366,006, filed Jul. 23, 2016; 62/394,281, filed Sep. 14, 2016; and 62/432,600, filed Dec. 11, 2016, the entire disclosures of which are incorporated herein by references thereto. Alternatively, or additionally, any one of the chair assemblies of the present disclosure may be similar to, for example, the chair assemblies as described within U.S. patent application Ser. No. 14/331,404, filed Jul. 15, 2014; U.S. patent application Ser. No. 14/636,045, filed Mar. 2, 2015; U.S. patent application Ser. No. 14/728,401, filed Jun. 2, 2015; U.S. patent application Ser. No. 14/788,767, filed Jun. 30, 2015; PCT/US16/25803, filed Apr. 3, 2016, PCT/US18/46569, filed Aug. 13, 2018, the entire disclosures of which are incorporated herein by references thereto.

A rocker style chair with pivoting seat may, for example, include any of the electrical power and/or data systems as disclosed in, for example, commonly assigned U.S. patent application Ser. No. 15/640,938, which is incorporated in its entirety herein by reference. Similarly, the rocker style chairs without pivoting seats may include any of the electrical power and/or data systems as disclosed in, for example, commonly assigned U.S. patent application Ser. No. 15/640,938.

With reference to FIGS. 1B-G, any given venue 100b-g may include at least one venue 105b-g, a projection platform 110b with access stairs 111b, a projection control room 112b, a beer tank display 115b, at least one storage area 120b, at least one event room 125b, a brewery 130b, a brewery mezzanine 135b, and a lobby 140b. Any given venue 105b-g may include a plurality of powered chairs 145b-g, a plurality of powered tables 146b-g, 149g, a plurality of adults with disability act (ADA) compliant areas 147b-g, a plurality of relocatable chairs 148b,f,g, and a plurality of handrails 170e-g, 175e-g. At least one of the ADA compliant areas 147b-g may include a table assembly 146b-g, 149g that may, for example, include a mechanism for raising and/or lower a respective table. Thereby, an associated ADA compliant area may accommodate a range of occupants (e.g., an occupant in a wheel chair, an occupant in a stroller, an occupant on a scooter, etc.).

Any given venue 105b-g may further include an entrance 150c,e,g,h, an entrance ramp 151c,h, an ADA accessible level 152c,h, a sound system 155e, a display screen system 160e, a display projection system 165e, and an auditorium lighting system 180e. As described in more detail below, any given venue and/or auditorium may include a computer system 100a, 300 as illustrated and described, for example, with regard to FIG. 1A and/or FIG. 3, respectively.

An imaging device 172a (e.g., a digital camera, a stereoscopic imaging device, a 3D sonar sensor, a 3D laser scanner, a Lidar sensor, etc.) may be provided within a particular venue, for example, positioned in front of a group of chair assemblies and aimed toward the chair assemblies. A processor may acquire at least one image from the imaging device and the processor may generate occupancy data based upon image data that is representative of the at least one image. The processor may generate time stamped image data that is, for example, representative of a status (e.g., occupied, unoccupied, at least partially reclined, a light source energized, etc.) of a chair assembly, or a group of chair assemblies, at any given point in time/day. The processor may store the time stamped image data within a computer-readable medium (e.g., a memory 165 of FIG. 1).

Any given device 106a, 112a, 119a, 126a, 127a, 131a, 138a, 139a, 140a, 146a, 153a, 154a, 155a, 161a, 168a, 169a, 170a may include chair assembly/table assembly location data that may, for example, identify a physical location (e.g., venue location, row location, position location within the row, etc.) of a plurality of chair assemblies/table assemblies. Thereby, any given display device (e.g., display device 113a, 120a, 132a, 147a, 162a, etc.) may include a venue graphic (e.g., a venue 100b-g of FIGS. 1B-G) that may enable a user to select any given chair assembly and/or table assembly within any given venue. Once a user selects a given chair assembly and/or table assembly, the user may, for example, control an orientation of the given chair assembly and/or table assembly, monitor a status (e.g., an orientation, an occupation, a health, etc.) of the given chair assembly and/or table assembly, and/or obtain data from the given chair assembly and/or table assembly. Additionally, or alternatively, once a physical location of a given chair assembly and/or table assembly is correlated with a given location (e.g., a chair icon or a table icon) within a venue display 100b-g, the venue display 100b-g may automatically include chair assembly/table assembly information, for example, proximate the respective chair icon or table icon within the venue display 100b-g.

As shown in FIG. 1F, a venue 100f may include at least one privacy screen 180f located between one chair and another chair. Thereby, a particular chair (or group of chairs) may define a section of a venue 100b-g that may be at least partially separated from other sections of the venue 100b-g. As an example, a venue 100f may include at least one privacy screen 180f proximate a group of chair assemblies (e.g., chair assemblies 145f, 148f, 1010 of FIG. 10, 1535d of FIG. 15D, 1635d of FIG. 16D) and/or table assemblies (e.g., table assemblies 146f, 149f, 1005 of FIG. 10, 1540d of FIG. 15D, 1640d of FIG. 16D) may define a separate area of a venue 100b-g. A plurality of privacy screens 180f may be included within, for example, a given box seating area of a venue 100b-g to separate the respective box into a plurality of boxes. Similarly, a deck area and/or a loge area of a venue 100b-g may be subdivided.

Alternatively, or additionally, a privacy screen 180f may include table surfaces attached. For example, a table may slide underneath a privacy screen 180f, or a table may be foldably attached to the privacy screen 180f. A privacy screen 180f may fill any gap(s) between proximate chair arms, and may avoid hand rails on taller risers. As an alternative to the privacy screen 180f shown in FIG. 1F, a privacy screen 180f may extend along a chair assembly and table assembly, and end at a respective isle. Therefore, the privacy screen 180f may not interfere with ingress to the respective seating and/or egress from the respective seating.

As another alternative, a table assembly may be located proximate a rear of a chair assembly that is in front of a chair assembly from which an occupant may utilize the table assembly. In this type installation, a privacy screen 180f may be separated; one portion of the privacy screen 180f may extend along a side of the respective chair assembly and a second portion of the privacy screen 180f may extend along a side of the respective table assembly.

Location data for a plurality of chair assemblies and/or table assemblies may be, for example, automatically acquired by a processor (e.g., processor 167a or 305 of FIG. 3) in response to the processor 167a executing a set of computer-readable instructions (e.g., a module 166a or 303). The processor 167a may, for example, cause a first chair assembly within a given row to at least partially reorient (or may energize a light source on a given chair/table assembly) and a user may manually correlate the first chair/table assembly with a physical location within a respective venue (e.g., a given row/seat location, a three-dimensional spatial location, a two-dimensional location, etc.) based on visually detecting the chair/table assembly reorientation and/or light source. Subsequently, the processor 167a may cause each processor 305 within the row to send a signal via a first communication channel (e.g., communication channel 346 of FIG. 3) to a second communication channel of an adjacent processor 305, and so on down the row of processors, until the processor 305 of the chair assembly/table assembly that was manually identified by the user receives the communication. The processors 305 may then automatically assign location data to each processor 305 based upon the location data that was manually assigned. Additionally, or alternatively, a chair/table device 301 may include a position sensor, and the processor 305 may automatically correlate a physical location of a respective chair/table assembly within a venue based on position sensor data acquired by the processor 305 from the position sensor.

Alternatively, or additionally, the processor 167a may receive image data from, for example, an imaging device 172a (e.g., a digital camera, a stereoscopic imaging device, a 3D sonar sensor, a 3D laser scanner, a Lidar sensor, etc.) positioned within the associated venue such that when the processor 167a causes a given chair assembly/table assembly to at least partially reorient, the processor 167a may automatically determine respective chair assembly/table assembly location data based on the image data. Alternatively, or additionally, the processor 167a may energize a light source on a given chair/table assembly and may correlate a chair/table physical location within an image based upon detection of the light source within the image data.

Alternatively, a physical location may be manually assigned to a plurality of chairs in a venue. For example, physical location data may be entered into each chair assembly/table assembly device 301. Even though physical location data may be initially manually entered into, for example, a chair assembly/table assembly device 301, when an associated chair assembly/table assembly device 301 is replaced, the replacement chair assembly/table assembly device 301 may automatically receive physical location data as, for example, described above.

As another alternative, a plurality of chair assemblies/table assemblies may include a respective identifying tag (e.g., a bar code label, a QR code label, a magnetic identification label, a radio frequency identification tag, etc.). A user may scan the identifying tag via, for example, a personal electronic device (e.g., a smart telephone, a laptop computer, a dedicated tag reader, etc.) having a user interface that includes a venue map displayed on an associated display. When the user scans a particular identifying tag, the user may correlate a given chair assembly/table assembly by, for example, selecting the chair assembly/table assembly via the user interface/venue map display. Alternatively, or additionally, any given chair assembly/table assembly, or a group of chair assemblies/tables assemblies, may include a respective geo-positioning device (e.g., a global positioning device, a venue geo-spatial system, etc.) which may, for example, automatically provide physical location data for a respective chair and/or a group of chairs.

The system 100a of FIG. 1A may be configured as a dine-in theater call button and operations management system. A dine-in call button system may include both hardware and software components that may provide tools and information to enhance employee performance and increasing profitability. A server 106a may continuously monitoring call buttons and seat sensors, providing data to monitor and manage, for example, a venue. Regardless of a form factor of a call button (e.g. a switch, a three-way switch, a touch screen, a LED illuminated switch, a toggle-switch, etc.), activation of a call button may provide numerous levels of functionality such as “I need service”, “I need a refill”, “I need a fork”, etc.

The server 106a may also ties directly into a ticketing and food ordering system to provide up to date information to service staff. A display 113a, 120a may provide a real time monitoring system that may be, for example, displayed in a food service prep area, kitchen, and/or may be accessed anywhere using, for example, a web-browser. A system may include, for example, LED illuminated call buttons, mounted directly to venue chair assemblies/table assemblies, and may be, for example, hard wired (or wirelessly connected) to the system 100a. The system 100a may include, for example, occupancy sensors (e.g., pressure activated seat sensors) that may alert when a respective seat is occupied. A system 100a may integrate with a ticket point of sale, food/beverage point of sale, payroll management systems and others to bring data together in one convenient location to allow any and all venue employees to make decisions, act quickly and appropriately and provide the best possible service to guests while minimizing effort and cost.

A dine-in theater call button and operations management system may provide additional value to customers and guests through an integration with chair assembly/table assembly control systems (e.g., controller 301 of FIG. 3). Dashboards and screens may be utilized throughout a venue utilizing existing data available through the system 100a to enhance smart seat data even further. A system 100a may include software that may gather information from, for example, a seating manufacturer's smart seat system 301a and may make associated chair assembly/table assembly data available in combination with other venue data to help reduce cost, create a better experience within a venue, extend life of chair assemblies/table assemblies and create new revenue streams. A system 100a may include a seat sensor feature that allows the system 100a to recognize when a seat is occupied. The seat occupancy information may be used in numerous ways to help with operations, service, security and statistical analysis. Smart seats may include a seat sensor, for example, built into a seat at a factory, to reduce the cost and improve accuracy. The system 100a may include a call button feature that may, for example, allows the system 100a to detect when a customer requires service at their seat. Call buttons may be as simple as a switch or as sophisticated as a small touch screen. Regardless of the call button switch form factor, call buttons may provide numerous levels of functionality such as “I need service”, “I need a refill”, “I need a fork”, etc. Smart seats may include call buttons, built into, for example, a chair assembly/table assembly at a factory. The system 100a may be able to take a status from smart seats and may process the information and share the information through the system 100a dashboard screens throughout the venue, emails, text message, etc. A status of a smart seat may include, for example, information such as whether an ottoman is open or closed, whether a seat has power and is online, whether a seat is occupied or not, whether a call button is activated or not, and/or whether a seat is in good operating condition. All of these pieces of data may provide value when processed by the system 100a, and shared and recorded appropriately.

The system 100a may be able to send an “all close” or “all open” command to a single chair, an entire row of chairs, an entire room of chairs, or an entire building full of chairs to, for example, assist in emergency evacuation situations. Alternatively, or additionally, the system 100a may integrate with appropriate systems to know which seats have been occupied for a giving event as during a given day and can therefor send an “open” command to a smart seat when the event has completed and the chair was, but is no longer, occupied to, for example, signal to cleaning personnel that the seat should be inspected and thoroughly cleaned. Similar logic may apply at an end of a day when several separate events have been hosted such that, for example, a deep cleaning crew knows which rows to focus their valuable and expensive time on in order to be most efficient. The system 100a may be able to accept information from smart seats to, for example, help identify seat motor (actuator) issues before the issues are critical, or cause permanent failure or damage. For example, motors may report voltage, usage statistics, resistance or other electrical characteristics to the system 100a such that, for example, the system 100a may process the data to determine an overall health of a chair assembly/table assembly, and may inform an appropriate entity to have the situation addressed. This data can be used to dispatch service requests to seat manufacturers and maintenance companies that offer fee-based service plans or warranty coverage without having to rely on theater personnel to be involved in the process. The system 100a may process seat statistical data, as well as, record maintenance history and usage patterns to, for example, allow preventative maintenance and rotation of appropriate seat parts to extend the life of the seats. Data may be, for example, utilized by seat manufacturers and maintenance companies to offer fee-based maintenance plans to theaters.

A system 100a may be integrated with third party systems via, for example, an application programming interface (API). For example, the system 100a may provide reliable communication with, for example, seven-hundred chair assemblies/table assemblies such that, for example, features may be communicated over reliable communication. For example, an API may be used over any number of network protocols and the system 100a may be flexible and may support any number of possible protocol standards and networking architectures. For example, a system 100a may provide a chair assembly/table assembly manufacturer a TCP/IP networking protocol where XML based data may be passed back and forth between the system and the smart seat system 100a hardware provided by the chair assembly/table assembly manufacturer.

The system 100a may provide a regular status or heartbeat of, for example, a smart seat to such that, for example, the system 100a may keep track and report overall status of each chair assembly/table assembly in a venue. This function may be sent from, for example, a smart chair assembly/table assembly control 301 to the system 100a on a predetermined periodic basis, such as, once per minute. This function may include status of many chair assemblies/table assemblies in one call, such as for example, an entire row or an entire room. The function may include a simple status such as “alive” and if the message is not received in a given timeframe it can be assumed that the chair assembly/table assembly, or group of chair assemblies/table assemblies, is not “alive,” and needs attention. Additional functionality can be added to this function such as: whether an occupancy sensor is on or off; whether a call button is on or off; whether a recliner chair is open or closed; what a last operating voltage was of an actuator motor. As data is received by the system 100a, the data may be processed, recorded for reporting purposes, and notifications may be sent as necessary. The system 100a may respond with an acknowledgement that a ping was received if a smart chair/table assembly controller 301 may receive and process the ping. An occupancy sensor may provide a notification to the system 100a that the occupancy sensor has been activated or deactivated. This function may be sensitive to the fact that an occupancy sensor can activate and deactivate for multiple reasons and may consider only sending the notification, for example, once per every 30 seconds in the case the sensor is being turned on/off because of movement in the seat by the person, the weight of the person, etc. As data is received by the system 100a, the data may be processed appropriately, recorded for reporting purposes and notifications sent as necessary. For example, a system 100a, may respond with an acknowledgement that an occupancy sensor information was received if the smart chair/table control 301 may receive and process it. A system 100a may provide a notification that a call button, or other service indicator, such as a three-way switch, has been activated, deactivated or changed position. As the data is received by the system 100a, the data may be processed appropriately, recorded for reporting purposes, and notifications may be sent as necessary. The system 100a may respond with an acknowledgement that call button information was received when, for example, a smart chair/table control 300 receives and process a request.

The system 100a may request, for example, that a smart chair controller 300 open or close recliners. For example, this function may include a request for many chairs in one call, such as an entire row or an entire room. A smart seat control 300 may respond with an acknowledgement that the open/close request information was received and processed. When a ping and status update does not include a recliner open/close status, the smart seat control 300 may include: a notification to the system 100a that an associated recliner was opened or closed. The system 100a may respond with an acknowledgement that the open/close information was received when, for example, the smart chair/table control 300 receives and process the request. As data is sent/received by the system 100a, the data may be processed appropriately, recorded for reporting purposes, and notifications may be sent as necessary. For example, the system may provide the ability to request that a smart chair/table control 300 respond with every possible attribute about status including, but not limited to: motor health (voltage, amps, cycles, etc.); recliner open/close status; call button on/off status; occupancy sensor on/off status, etc. As the data is received by the system 100a, the data may be processed appropriately, recorded for reporting purposes, and notifications may be sent as necessary.

As shown in for example, FIGS. 1A and 3, the system 100a, 300, may include monitors, handhelds, cell phones, etc. Requests for data may be communicated, for example, over an HTTP using, for example, a preinstalled application, or a standard browser. A system 100a may include a Zigbee-based protocol coordinator to an antenna for call of the Zigbee network communication. The system 100a may assist venue managers in many different aspects of associated business and operations in real time, as well as, may provide historical reporting across multiple systems of data records that may, for example, help venue operators make decisions, proactively address issues, and/or improve end customer experience.

Turning to FIG. 2, a chair and table assembly 200 may include a chair assembly 245 (e.g., a power recliner chair, a rocker style chair, a fixed position chair, a chair on casters, a beam mount chair, etc.) proximate a table assembly. The chair and table assembly 200 may be similar to, for example, a chair assembly 145c, 147c, 148c of FIG. 1C and table assembly 146c of FIG. 1C, 600a-e of FIGS. 6A-E. The table assembly may include an upper support surface 230, a support structure 235, and a mounting foot 236 configured, for example, as any one of the table assemblies 146c of FIG. 1C, 600a-e of FIGS. 6A-E.

In any event, the chair and table assembly 200 may include a conduit 280 that may, for example, extend from the support structure 235 to a location under the chair assembly 245. The conduit 280 may be above a venue floor or at least partially under a surface of the venue floor. The conduit 280 may include electric power conductors 281 and/or electric control conductors 282 configured to, for example, facilitate electrical connections to associated 110 Vac outlets, concessions buttons, reading lights, table actuators, inputs 309-328 of FIG. 3, and/or outputs 329-342 of FIG. 3, etc.

The chair and table assembly 200 may include an air compressor 285 configured to, for example, provide compressed air to an inflatable chair headrest, an inflatable lower lumbar support, an inflatable seat cushion, a pneumatic actuator, etc. While the air compressor 285 is shown in FIG. 2 to be proximate the chair assembly 245, the air compressor 285 may be located remote from the chair assembly 245 and may include hoses that extend from the air compressor 285 to the chair assembly 245.

Chair controller output(s) may control chairs wirelessly using available technologies such as Bluetooth®, and/or the controllers may be hard wired. Controller outputs may drive chair actuator(s) to respective internal stops, which may be settable by time such that chairs may be partially extended and/or retracted. Alternatively, or additionally, a controller may be sequenced to extend/retract chairs such that all chairs in a control group may be fully extended and/or retracted to a position before being extended and/or retracted to a desired position.

Sensors and/or actuators may be incorporated into a chair that record chair reorientations and/or any other events associated with the respective chair. Associated data may be automatically recorded and logged to provide information for use with preventive chair maintenance and/or routine chair maintenance.

Any given RMS may include a mechanism (e.g., a cable between an ottoman and an actuator, an actuator extend hard stop, an actuator rotation hard stop, a gas-charged piston and actuator) to control movement of a chair back relative to movement of a chair foot rest (or ottoman). For example, when a chair is occupied the mechanism may cause the chair back to move further relative to the foot rest compare to when the chair is being operated to, for example, clean an associated venue. Thereby, the chair may comply with fire codes while facilitating venue cleaning. Any given RMS that includes mechanism to control movement of a chair back relative to movement of a chair foot rest (or ottoman) may also include a feature (e.g., a solenoid, a spring, etc.) to override the mechanism. Thereby, a respective chair may comply with fire codes while facilitating venue cleaning.

Alternatively, or additionally, a RMS may include a mechanism (e.g., a cable between an ottoman and an actuator, an actuator extend hard stop, an actuator rotation hard stop, a gas-charged piston and actuator, etc.) to control movement of a chair ottoman. For example, the chair ottoman may be limited in travel while chair back movement remains unrestricted. The chair ottoman movement limiting mechanism may include springs, dampers or other devices that may reduce a peak loading of controlling movement of an associated powered recliner chair and/or movement of components of the chair compared to powered recliner chairs that do not include an ottoman movement limiting mechanism.

Actuator drive motor momentum may generate electrical energy after a chair limit switch is activated to stop chair movement. The actuator drive motor momentum may cause transients in associated electrical circuits. In order to reduce, or eliminate transients, an armature of an actuator motor may be shorted when turned off, a limit switch may be omitted and a “soft stop” may be implemented via, for example, a processor/software or a dedicated circuit, an isolation relay may be incorporated, a zener-diode may be incorporated in parallel with the an armature, a silicon control rectifier (SCR) may be incorporated in parallel with the an armature, twisted wires may be incorporated to eliminate inductance, etc.

Any given chair user interface may be configured to monitor and/or control recline/retraction functions of an associated chair or associated chairs. For example, a user interface 1100a, b may be programmed to monitor a number of electrical pulses applied to an associated actuator and/or to monitor an amount of time the associated actuator is activated. Thereby, the user interface 1100a, b may be configured to limit chair movement. For example, a given chair may be configured to be installed in a venue with a row spacing particular row spacing, and a chair foot rest (or ottoman) movement may be limited to ensure a row egress that meets an associated fire code (e.g., twelve inches for chair installations in the United States, fourteen inches for chair installations in Canada, etc.). Alternatively, or additionally, a position sensor (e.g., a haul effect sensor, a limit sensor, a linear rheostat, a rotary rheostat, etc.) may be connected to a user interface input to provide a chair position feedback signal. In any event, a user interface 1100a, b (and/or chair control) may be configured to monitor/control a chair orientation. Similarly, chairs installed in a back row of a venue may include a chair back/head rest that does not recline as far back as a chair back/head rest of a chair installed in a front row of the venue. An associated ottoman, on the other hand, may extend the same for the chair in the back row and the chair in the front row. Thereby, a head of a chair occupant in the back row will remain more upright when the associated chair back/head rest is reclined when compared to a head of a chair occupant in a chair located in the front row.

A number of electrical pulses applied to an actuator may be proportional to an associated actuator drive current. Alternatively, or additionally, a width of pulses applied to an actuator may be proportional to an associated actuator drive current. A user interface 1100a, b (or other control) may control an actuator based on a number of electrical pulses and/or a width of electrical pulses applied to an actuator drive motor. A user interface 1100a, b (or other control) may control an actuator based on a frequency of electrical pulses applied to an actuator drive motor. An actuator may be either a linear actuator or a rotary actuator. While an actuator/control as disclosed herein may be incorporated within a powered recliner chair, a similar actuator/control may be incorporated in any application (e.g., two-dimensional laser cutters, two-dimensional plasma cutters, two-dimensional water jet cutters, multi-axis machining systems, multi-axis robots, etc.).

A chair user interface may include a touch screen display having a plurality of control button icons, with each control button icon being configured to result in a respective chair being oriented to a predetermined orientation when the respective control button icon is selected by a user. For example, a user may momentarily touch a particular control button icon and the respective chair will orient to a fully reclined orientation. Activation of a second control button icon may result in the associated chair being oriented to a fully upright orientation. Activation of a third control button icon may result in the associated chair being oriented to an orientation in between fully reclined and fully upright. Activation of a forth control button icon, and/or activation of a venue cleaning function, may cause a plurality of chairs in a given venue to reorient to an orientation that causes, for example, associated foot rests (or ottomans) and/or chair backs to extend into a row space otherwise required when the associated venue is occupied (i.e., when the venue is vacant, the chairs may be reclined further than when the venue is occupied). Thereby, the chairs may simultaneously meet respective fire codes and facilitate venue cleaning.

By providing chair orientation monitoring and/or feedback, an associated user interface (and/or chair control) may be programmed to orient a chair relative to differing venue floor angles. Alternatively, or additionally, chair orientation data may be acquired and stored to, for example, enable venue designers to analyze preferred chair orientations. Chair orientation data may be used for design of venue chair layouts. In circumstances where a user interface is programmed to monitor chair orientation via application of electric power to an actuator, the user interface may detect variations in electric power (e.g., a spike when an ottoman begins to move, a spike when a chair is fully reclined, a spike when a chair is fully upright, etc.) to, for example, set (or validate) a “known” (or current) orientation. Subsequently, the user interface (or chair control) may approximate chair orientation based on actuator activation time and/or power pulses.

Additionally, or alternatively, by providing chair orientation monitoring and/or feedback, an associated user interface (and/or chair control) may be programmed to orient a group of chairs within a venue during emergency situations. For example, a user interface (and/or chair control) may automatically reorient chairs close to aisles before chairs in a center of a row when a fire alarm is activated. As another example, chairs may be automatically reoriented to a predetermined orientation between a fully upright orientation and a fully reclined orientation in response to an emergency notification

A powered recliner chair may include at least one actuator having an actuator drive motor. The powered recliner chair may also include a controller configured to control reorientation of the powered recliner chair from a first orientation to a second orientation based on at least one of: a first number of electrical pulses associated with the actuator drive motor, a first width of electrical pulses associated with the actuator drive motor, a first frequency of electrical pulses associated with the actuator drive motor, a first actuator drive motor activation time, or first power pulses associated with the actuator drive motor. The controller may be further configured to control reorientation of the powered recliner chair from the first orientation to a third orientation based on at least one of: a second number of electrical pulses associated with the actuator drive motor, a second width of electrical pulses associated with the actuator drive motor, a second frequency of electrical pulses associated with the actuator drive motor, a second actuator drive motor activation time, or second power pulses associated with the actuator drive motor. The controller may be further configured to control reorientation of the powered recliner chair from the first orientation to the second orientation in response to momentary activation of a user chair reorientation button. A number of electrical pulses associated with the actuator drive motor may be proportional to an associated actuator drive motor current and a rotational and/or linear movement of the actuator. A width of pulses associated with the actuator drive motor may proportional to an associated actuator drive motor current and a rotational and/or linear movement of the actuator. A given chair may be configured to be installed in a venue with a particular row spacing, a chair ottoman movement may be limited to ensure a row egress that meets an associated fire code. A minimum row spacing may be twelve inches for chair installations in the United States and fourteen inches for chair installations in Canada. The powered recliner chair may include a chair back and/or a head rest. Orientation of a head of a chair occupant may be positioned to provide a predetermined sight line based on a location of a respective chair within a venue. The powered recliner chair may include an associated ottoman that may extend the same when a respective chair is installed in a back row and when the respective chair is installed in the front row. A head of a chair occupant may remain more upright, when the associated chair back/head rest is reclined, when a respective chair is installed in a back row of a venue, compared to a head of a chair occupant setting in the respective chair when the respective chair is located in a front row of the venue. The controller may be further configured to control chairs via a wireless interface or via a hard wired connection. The powered recliner chair may include a user interface having a touch screen display with a plurality of control button icons. Each control button icon may be configured to result in a respective chair being oriented to a predetermined orientation when the respective control button icon is selected by a user. When a user momentarily touches a first control button icon, a respective powered recliner chair may orient to a predetermined reclined orientation. When the user momentarily touches a second control button icon, the powered recliner chair may orient to a predetermined upright orientation. When the user momentarily touches a third control button icon, the powered recliner chair may orient to a predetermined orientation in between a fully reclined orientation and fully upright orientation. When a user momentarily touches a forth control button icon, a plurality of powered recliner chairs, in a given venue, may reorient to a predetermined orientation that may cause associated foot rests and/or chair backs to extend into a row space otherwise required when the associated venue is occupied. The powered recliner chair may include a chair orientation feedback input. The controller may be configured to reorient the powered recliner chair based on at least one venue parameter selected from: a venue floor angle, a chair occupant sight line, a chair location within a venue, or a chair position within a venue. Chair orientation data may be acquired from at least one sensor selected from: a hall effect sensor, a limit sensor, a linear rheostat, or a rotary rheostat, and/or at least one actuator to record chair reorientations and/or any other events associated with the respective chair. Chair orientation data may be acquired and stored to: enable a venue designer to analyze preferred chair orientations; design a venue chair layout, provide information for use with preventive chair maintenance, or provide information for use with routine chair maintenance. The controller may be configured to perform at least one of: a) detect an electrical spike when an ottoman begins to move, detect an electrical spike when a chair is fully reclined, or detect an electrical spike when a chair is fully upright; b) record an electrical spike when an ottoman begins to move, record an electrical spike when a chair is fully reclined, or record an electrical spike when a chair is fully upright; c) analyze an electrical spike when an ottoman begins to move, analyze an electrical spike when a chair is fully reclined, or analyze an electrical spike when a chair is fully upright; or d) respond to an electrical spike when an ottoman begins to move, respond to an electrical spike when a chair is fully reclined, or respond an electrical spike when a chair is fully upright. The controller may be further configured to set a chair orientation, validate a chair orientation, validate a current chair orientation, based on chair orientation feedback input. The controller may approximate chair orientation based on actuator drive motor activation time and/or power pulses associated with the actuator drive motor. The controller may automatically orient a group of powered recliner chairs within a venue during an emergency situation based on an emergency system input. The controller may automatically reorient the powered recliner chair when the powered recliner chair is located next to a venue aisle before reorienting other powered recliner chairs that are located in a center of a respective row, when a fire alarm is activated. The controller may automatically reorient the powered recliner chair to a predetermined orientation, between a fully upright orientation and a fully reclined orientation, in response to an emergency input.

An apparatus may include at least one actuator having an actuator drive motor. The apparatus may also include a controller configured to control reorientation of a portion of the apparatus from a first orientation to a second orientation based on at least one of: a first number of electrical pulses associated with the actuator drive motor, a first width of electrical pulses associated with the actuator drive motor, a first frequency of electrical pulses associated with the actuator drive motor, a first actuator drive motor activation time, or first power pulses associated with the actuator drive motor. The controller may be further configured to control reorientation of the portion of the apparatus from the first orientation to a third orientation based on at least one of: a second number of electrical pulses associated with the actuator drive motor, a second width of electrical pulses associated with the actuator drive motor, a second frequency of electrical pulses associated with the actuator drive motor, a second actuator drive motor activation time, or second power pulses associated with the actuator drive motor. The apparatus may be selected from a group including: a powered recliner chair, a powered table assembly, a powered hospital bed, a powered dentist chair, a powered medical patient stretcher, a two-dimensional laser cutter, a two-dimensional plasma cutter, a two-dimensional water jet cutter, a three-dimensional laser cutter, a three-dimensional plasma cutter, a three-dimensional water jet cutter, a multi-axis machining system, or a multi-axis robot. The second number of electrical pulses associated with the actuator drive motor may be different than the first number of electrical pulses associated with the actuator drive motor. The second width of electrical pulses associated with the actuator drive motor may be different than the first width of electrical pulses associated with the actuator drive motor. The second frequency of electrical pulses associated with the actuator drive motor may be different than the first frequency of electrical pulses associated with the actuator drive motor. The second actuator drive motor activation time may be different than the first actuator drive motor activation time. The second power pulses associated with the actuator drive motor may be different than the first power pulses associated with the actuator drive motor. The controller may be further configured to control reorientation of the apparatus from the first orientation to the second orientation in response to momentary reorientation input activation. The first number of electrical pulses associated with the actuator drive motor, the first width of electrical pulses associated with the actuator drive motor, the first frequency of electrical pulses associated with the actuator drive motor, the first actuator drive motor activation time, the first power pulses associated with the actuator drive motor, the second number of electrical pulses associated with the actuator drive motor, the second width of electrical pulses associated with the actuator drive motor, the second frequency of electrical pulses associated with the actuator drive motor, the second actuator drive motor activation time, or the second power pulses associated with the actuator drive motor, may be dependent on regions of increased or decrease sensitivity to powered recliner chair events selected from the group of: an actuator drive motor speed, an actuator drive motor pulse width, an actuator drive motor current draw, a range of chair movement associated with a pinch point, an increased actuator drive motor load, or a decreased actuator drive motor power consumption. The actuator drive motor may be a stepper motor or a servo motor. The first number of electrical pulses associated with the actuator drive motor, the first width of electrical pulses associated with the actuator drive motor, the first frequency of electrical pulses associated with the actuator drive motor, the first actuator drive motor activation time, the first power pulses associated with the actuator drive motor, the second number of electrical pulses associated with the actuator drive motor, the second width of electrical pulses associated with the actuator drive motor, the second frequency of electrical pulses associated with the actuator drive motor, the second actuator drive motor activation time, or the second power pulses associated with the actuator drive motor, may be representative of voltage pulses applied to the actuator drive motor. The actuator drive motor may include at least one armature brush. The first number of electrical pulses associated with the actuator drive motor, the first width of electrical pulses associated with the actuator drive motor, the first frequency of electrical pulses associated with the actuator drive motor, the first actuator drive motor activation time, the first power pulses associated with the actuator drive motor, the second number of electrical pulses associated with the actuator drive motor, the second width of electrical pulses associated with the actuator drive motor, the second frequency of electrical pulses associated with the actuator drive motor, the second actuator drive motor activation time, or the second power pulses associated with the actuator drive motor, may be representative of actuator drive motor current pulses in response to electrical voltage applied to the actuator drive motor.

A powered recliner chair may include at least one actuator having an actuator drive motor. The powered recliner chair may also include a controller configured to control movement of the at least one actuator from a first orientation to a second orientation based on at least one of: a number of electrical pulses associated with an actuator drive motor, a width of electrical pulses associated with an actuator drive motor, a frequency of electrical pulses associated with an actuator drive motor, an actuator activation time, or power pulses associated with an actuator drive motor. The powered recliner chair may further include a recliner mechanism system including at least one mechanism selected from a group: a cable between an ottoman and an actuator, an actuator extend hard stop, an actuator rotation hard stop, or a gas-charged piston and an actuator, to control movement of a chair back relative to movement of a chair ottoman. When a chair is occupied, the mechanism may cause the chair back to move further relative to the foot rest compare to when the chair is unoccupied. The recliner mechanism system may include a solenoid or a spring configured to override the at least one mechanism. Movement of a chair ottoman may be limited in travel while a chair back movement remains unrestricted. A chair ottoman movement limiting mechanism may include springs or dampers configured to reduce a peak loading of controlling movement of an associated powered recliner chair and/or movement of components of a respective powered recliner chair compared to powered recliner chairs that do not include a chair ottoman movement limiting mechanism. An armature of the actuator motor may be shorted when turned off. An armature of the actuator motor may be shorted when turned off via at least one of: a zener-diode, a silicon control rectifier (SCR), or twisted wires is incorporated in parallel with an actuator motor armature. An armature of the actuator motor may be shorted when turned off. The actuator motor may be stopped before the actuator reaches a mechanical stop. An armature of the actuator motor may be shorted when turned off via at least one of: a zener-diode, a silicon control rectifier (SCR), or twisted wires is incorporated in parallel with an actuator motor armature, and wherein the actuator motor is stopped before the actuator reaches a mechanical stop. An armature of the actuator motor may be shorted when turned off to dampen electrical anomalies when the actuator reaches a mechanical stop. An armature of the actuator motor may be shorted when turned off via at least one of: a zener-diode, a silicon control rectifier (SCR), or twisted wires is incorporated in parallel with an actuator motor armature, and wherein the actuator motor is stopped before the actuator reaches a mechanical stop, to dampen electrical anomalies when the actuator reaches a mechanical stop. The at least one actuator may be either a linear actuator or a rotary actuator.

As an alternative, or addition, to the assembly 200 of FIG. 2, a table assembly may be mounted behind a respective chair assembly. Thereby, an occupant in a chair assembly behind the chair assembly with the table assembly mounted behind, may use the table assembly.

With reference to FIG. 3, a computer system 300 may include a chair/table device 301 communicatively coupled to a remote device 350 via, for example, a communication network 345. The computer system 300 may be similar to portions of the computer system 100a of FIG. 1A (e.g., a chair/table device 301 may be similar to, for example, computing device 161a and/or a remote device 350 may be similar to, for example, server 106a). In any event, the chair/table device 301 may include a computer-readable memory 302 having computer-readable instructions 303 stored thereon. A chair/table device 301 may be incorporated within any one of the chair assemblies and/or table assemblies as described herein and/or as described in the commonly assigned patents and patent applications incorporated herein by reference. The computer-readable instructions 303, when executed by a processor 305, may cause the processor to receive any one of, any combination of, or all of the inputs 309-328 and generate any one of, any combination of, or all of the outputs 329-342. Additionally, the processor 305 may further execute the computer-readable instructions 303 to communicate any one of, a combination of, or all of the inputs 309-328 and generate any one of, any combination of, or all of the outputs 329-342 to the remote device 350.

The chair/table device 301 may include a user interface 304, an electrical energy storage device 306 (e.g., a battery, a capacitor, etc.), a WiFi module 307, a network interface 308, chair orientation inputs 309 (e.g., a chair upright orientation pushbutton, a chair recline orientation pushbutton, etc.), table orientation inputs 310 (e.g., a table in-use orientation pushbutton, a table egress orientation pushbutton, etc.), chair headrest control inputs 311, chair back control inputs 312, chair lumbar control inputs 313, chair seat control inputs 314, ottoman control inputs 315, chair assembly tilt inputs 316, lighting control inputs 317, actuator current inputs 318, a chair temperature input 319, chair safety sensor inputs 320, a ticket purchase input 321, a concessions input 322, event status inputs 323 (e.g., QSC movie system inputs), chair heater control inputs 324, chair cooling control inputs 325, chair message control inputs 326, venue emergency inputs 327, and chair occupancy inputs 328.

The chair/table device 301 may also include chair/table actuator outputs 329, an air compressor output 330, air solenoid outputs 331 (e.g., a chair headrest inflator solenoid output, a chair lower lumbar inflator solenoid output, a chair seat inflator solenoid output, etc.), lighting outputs 5332, concessions outputs 333, chair heater output(s) 334, chair cooling outputs(s) 335, a chair message output 336, a patron emergency output 337, 110Vac outputs 338, a universal serial bus (USB) port 339, a chair operation data output 340, a chair occupancy output 341, and a concessions data output 342.

The processor 305 may execute the computer-readable instructions 303 to cause the processor 305 to transmit any one of, a combination of, or all of the inputs 309-328 and/or any one of, any combination of, or all of the outputs 329-342 to the processor 353 of the remote device 350 via the network interface 308, the network connection 346, the network 345, the network connection 347, and the network interface 356. Alternatively, or additionally, the processor 353 may execute the computer readable-instructions 352 stored on the memory 351 to receive any one of, a combination of, or all of the inputs 309-328 and/or any one of, any combination of, or all of the outputs 329-342 from the processor 305.

The remote device 350 may also include a user interface 354, a venue related data base 357, a ticketing system 358, a concessions system 359, a venue emergency system 360, and a venue maintenance system 361. The processor 353 may execute the computer-readable instructions 352 to cause the processor 353 to implement any one of the ticket system 358, the concessions system 359, the venue emergency system 360 and/or the venue maintenance system 361 based on, for example, any one of, a combination of, or all of the inputs 309-328 and/or any one of, any combination of, or all of the outputs 329-342 received from the processor 305.

A first chair assembly 145d and/or first table assembly 146d in a row of chair assemblies and/or table assemblies may include a chair/table device 301 having a network interface 308 configured to communication to a broker device (e.g., network 345) via message queuing telemetry transport (MQTT) publish-subscribe-based messaging protocol. The broker device 345 may include a computing device (e.g., a raspberry pi computing device) connected to a wireless router. The broker device 345 may execute an Eclipse Musquitto MQTT protocol versions 5.0, 3.1.1 and 3.1. In any event, the chair/table device 301 may be configured to publish data related to any one of the inputs 309-328 on a predetermined periodic basis and/or any time a status of an input changes state. Similarly, the chair/table device 301 may be configured to subscribe to communications transmitted by the broker 345.

Additionally, or alternatively, a first chair/table device 301 may include a hardwired output communications port 308 configured to, for example, transmit data to a second chair/table device 301. The second chair/table device 301 may include a hardwired input communications port 308 configured to, for example, receive data from the first chair/table device 301. The second chair/table device 301 may include a hardwired output communications port 308 configured to, for example, transmit data to a third chair/table device 301. The first chair/table device 301 (e.g., device 508a) may be located in a first chair assembly/table assembly (e.g., chair assembly/table assembly 515a of FIG. 5a), the second chair/table device 301 (e.g., device 509a) may be located in a second chair assembly/table assembly (e.g., chair assembly/table assembly 516a of FIG. 5a), and the third chair/table device 301 (e.g., device 509a) may be located in a third chair assembly/table assembly (e.g., chair assembly/table assembly 517a of FIG. 5a). The individual chair/table devices 301 may, thereby, communicate chair/table location (e.g., row/chair number information) between device 301, as described above, and to the remote device 350. The remote device 350 may utilize the data to, for example, provide a real time display (e.g., venue 100b-g) with status data and/or icons proximate respective chair assemblies/table assemblies.

Turning to FIGS. 4A-H, J-N and P-T, a chair controller 400a-h,j-n,p-t may include a processor 405a with a programming port 406a, an H-bridge 420a connected to an actuator motor output 440b, a chair control switch input 435c, a low-power single operational amplifier 450a, a battery 460b, a light output 455c, an auxiliary communication connector 460c, a communication input connector 465c, a communication output connector 470c, a wireless interface module connector 475c, an emergency stop (e.g., safety switch) connector 480c, an auxiliary board connector 485d, a linear voltage regulator 490f, a buck regulator 495g, and an auxiliary board power connector 4861. The chair controller 400a-h,j-n,p-t, or any portion(s) thereof, may be, for example, incorporated into a user control 270a-c, a controller 490a,b, 590a,b, 790a,b, a power supply 796a,b, a wireless data receiver 485b, a user interface 169a, a display 162a, or an actuator 511a. Thereby, the chair controller 400a-h,j-n,p-t may, or appropriate portion(s) thereof, may perform any associated function as described herein.

The letters A-M within circles shown on FIG. 4A denote connections to similarly labeled connections on FIG. 4B. The letters N-BB within circles shown on FIG. 4A denote connections to similarly labeled connections on FIG. 4C. The letters CC within a circle shown on FIG. 4A denotes a connection to a similarly labeled connection on FIG. 4D.

An auxiliary board (not shown in FIGS. 4A-H, J-N and P-T) may be added to facilitate additional actuator motor connections 440b, additional lighting connections 455c, additional user interface selectors 435c, etc. In any event, a chair controller 400a-h,j-n,p-t may be configured to control a single chair, a portion of a single chair, a group of chairs, or a portion of a group of chairs.

The processor 405a may be, for example, a part number PIC18F46K40 as available from Microchip Technology Incorporated, Chandler, Ariz., the entire content of the associated technical specifications is incorporated in its entirety herein by reference. While only one processor 405a is shown, any number and type of processor(s) may be incorporated. As shown with reference to FIGS. 4A and 4B, the processor 405a may monitor and/or control a battery via battery connection 460b. The processor 405a may turn on a thyrister (or transistor) Q2 to charge a battery. The processor 405a may turn on a thyrister (or transistor) Q? to power a chair from a battery when, for example, the processor 405a detects that electric power to an associated venue has been interrupted.

The H-bridge 420a may be, for example, a part number IFX9201 as available from Infineon Technologies A.G., Munich, Germany, the entire content of the associated technical specifications is incorporated in its entirety herein by reference. While only H-bridge 420a is shown, any number and type of H-bridge(s) may be incorporated depending on, for example, how may actuators are being controlled. Any given chair controller 400p may include an H-bridge 420p having an internal power supply 421p, control logic 422p, an electrical charge pump 423p, a thyrister (or transistor) gate driver 424p, a current monitor 425p, a temperature monitor 426p, a thyrister bridge 427p having four thyristers 428p-431p, and a motor output 440p (e.g., a chair actuator motor output). The H-bridge 420p may be similar to, for example, H-bridge 420a.

With reference to FIGS. 4Q-T, a chair controller 400q-t may include a H-bridge having a first thyrister 428q-t, a second thyrister 429q-t, a third thyrister 430q-t, a fourth thyrister 431q-t, interconnected with a motor 441q-t. As illustrated in FIG. 4Q, when the first thyrister 428q is gated on, the second thyrister 429q is off, the third thyrister 430q is off, and the fourth thyrister 431q is gated on, electrical current 442q flows through the first thyrister 428q, through the motor 441q, and through the fourth thyrister 431q, causing the motor 441q to rotate in a first direction. As illustrated in FIG. 4R, when the first thyrister 428r is gated on, the second thyrister 429r is off, the third thyrister 430r is off, and the fourth thyrister 431r is off, electrical current 442r circulates through the first thyrister 428r, through the motor 441r, and through a diode in parallel with the second thyrister 429r, to dissipate electrical energy. As illustrated in FIG. 4S, when the first thyrister 428s is off, the second thyrister 429s is gated on, the third thyrister 430s is gated on, and the fourth thyrister 431s is off, electrical current 442s flows through the second thyrister 429s, through the motor 441s, and through the third thyrister 430s, causing the motor 441s to rotate in a second direction opposite the first direction. As illustrated in FIG. 4T, when the first thyrister 428t is off, the second thyrister 429t is gated on, the third thyrister 430t is off, and the fourth thyrister 431t is off, electrical current 442t circulates through the second thyrister 429t, through the motor 441t, and through a diode in parallel with the first thyrister 428t, to dissipate electrical energy.

The low-power single operational amplifier 450a may be, for example, a part number AS321 as available from Diodes Incorporated, Plano, Tex., the entire content of the associated technical specifications is incorporated in its entirety herein by reference. While only one low-power single operational amplifier 450a is shown, any number and type of low-power single operational amplifier(s) may be incorporated.

The linear voltage regulator 490g may be, for example, a part number LM7824CT as available from Fairchild Semiconductor Corporation, Sunnyvale, Calif., the entire content of the associated technical specifications is incorporated in its entirety herein by reference. While only one linear voltage regulator 490g is shown, any number and type of linear voltage regulator(s) may be incorporated.

The buck regulator 495g may be, for example, a part number AOZ1282D1 as available from Alpha & Omega Semiconductor, Sunnyvale, Calif., the entire content of the associated technical specifications is incorporated in its entirety herein by reference. While only one buck regulator 495g is shown, any number and type of buck regulator(s) may be incorporated.

As illustrate in FIGS. 4A, 4C, 4E and 4H, a chair controller 400a,c,e,h may include various light controls (e.g., isle lights, user lights, under-chair lights, user interface lights, etc.). As specifically shown in FIG. 4E, a chair controller 400e may include, for example, a red light (e.g., a red LED) output, a green light (e.g., a green LED) output, and a blue light (e.g., a blue LED) output. The chair controller 400e may be configured to independently control, for example, an intensity of each of the red, green and blue to produce any color of light (i.e., a mixture of RGB).

An electric powered chair assembly control system may include a controller having at least one chair actuator output and at least one chair light output. The system may also include a user interface connected to the controller. The user interface may include at least one chair actuator user control and at least one chair light user control. The system may further include an electric power supply having an electric power supply input and an electric power supply output. The electric power supply may be mounted within a first electric powered chair assembly. A first set of electric wiring may extend from the electric power supply output to a first electric actuator mounted within the first electric powered chair assembly. A second set of electric wiring may extend from the electric power supply output to a first electric chair light mounted within the first electric powered chair assembly. The controller may be configured to control the first electric actuator, via the at least one chair actuator output, based on the at least one chair actuator user control. The controller may be configured to control the electric chair light, via the at least one chair light output, based on the at least one chair light user control and further based on at least one of: a venue event, a predetermined time, or a motion sensor. The controller may be configure to de-energize the chair light when the first electric actuator is energized.

An electric powered chair assembly control system may include an electric power supply having an input and an output. The electric power supply may be mounted within a first electric powered chair assembly. An input voltage rating of the input may be different than an output voltage rating of the output. A first set of electric wiring may be plugged into the output of the electric power supply and may extend from the output of the electric power supply to a first receptacle having a first electric actuator mounted within the first electric powered chair assembly plugged into the first receptacle. A second set of electric wiring may extend from the output of the electric power supply to a second receptacle having a second electric actuator mounted within a second electric powered chair assembly plugged into the second receptacle. A third set of electric wiring may extend from the second electric powered chair assembly to the first electric powered chair assembly. The electric power supply may further include at least one of: an electric energy storage device output or a chair light output.

An electric powered chair assembly control system a controller having at least one chair actuator output and at least one chair heater output. The system may also include a user interface connected to the controller. The user interface may include at least one chair actuator user control and at least one chair heater user control. The controller may be configured to control the first electric actuator, via the at least one chair actuator output, based on the at least one chair actuator user control. The controller may be configured to control the electric chair heater, via the at least one chair heater output, based on the at least one chair heater user control. The controller may be configure to de-energize the first electric chair heater when the first electric actuator is energized.

An electric powered chair assembly control system may include a controller having at least one chair actuator output and at least one chair electrical energy storage device output. The system may also include a user interface connected to the controller. The user interface may include at least one chair actuator user control and at least one chair light user control. The controller may be configured to control the first electric actuator, via the at least one chair actuator output, based on the at least one chair actuator user control. The controller may be configured to control the at least one electrical energy storage device output based on a status of the at least one chair actuator output.

With reference to FIG. 5A, an associated electrical supply cord 500a may be configured to provide daisy chained high voltage power, low voltage power, and/or control between recliner chairs to facilitate ease of installation. For example, a first chair may be plugged into the high voltage power 502a and then extended to proximate chairs 503a-506a. A chair may have multiple powered outlets, such as an extension cord or power strip that other chairs may be plugged into. This may allow a chair to feed power/control to other chairs, for example, in a row of chairs, thereby, eliminating multiple and expensive power/control outlets for each individual chair. An electrical power/control outlet 502a-506a may be incorporated into any given chair, for example, in a top of an arm box, on a front vertical surface of the chair or arm box, on an inside surface of an arm box adjacent to a local chair control switch, etc. An associated electrical power circuit may be routed down a row of chairs and/or tables (e.g., row of chair assemblies 145a-f/table assemblies 146a-f of FIGS. 1B-G) and may be T′ed 507a into chair/table power outlets/control/isle lights/heaters/etc.

A first electrical supply cord 500a may be configured, for example, such that a male plug 501a is connectable to an electric power outlet (e.g., 110Vac, 120Vac, 220Vac, 240Vac, etc.), a first female socket 502a may be located proximate a first chair 515a in a row of chairs, a second female socket 503a may be located proximate a second chair 516a, and so on with female sockets 504a-506a down the row of chairs 515a-518a. The first chair 515a may, for example, be next the second chair 516a in a row, or there may be a chair, or group of chairs, between the first chair 515a and second chair 516a. A second electrical supply cord 500a may be configured, for example, such that a male plug 501a is connectable to an outlet of a power supply 510a (e.g., 12Vdc, 24Vdc, 27Vdc, 48Vdc, etc.), and may have a first female socket 502a located proximate a first chair 515a in a row of chairs to provide electricity to a first actuator 511a, or first actuators 511a in the first chair 515a, a second female socket 503a may be located proximate a second chair, and so on with female sockets 504a-506a down the row of chairs to provide electricity from the power supply to an actuator 511a, or actuators 511a, in each chair 515a-518a. A third electrical supply cord 500a may be configured, for example, such that a plug 501a is connectable to a data outlet (e.g., an Ethernet outlet, a USB outlet, a RS-232 outlet, a RS-422 outlet, etc.), and may extend alongside the first and/or second electrical supply cord. The first, second, and/or third electrical supply cords may be combined into a single cable having multiple outlets (e.g., a 110Vac outlet, a 24Vdc outlet, and a data outlet) proximate at least some chairs in a row of chairs. As illustrated in FIG. 5A, a row of chairs 515a-518a may be configured with a power supply 510a in every-other chair assembly with a low-voltage connection extending to an actuator 511a of an adjacent chair. Alternatively, a row of chairs 515a-518a may include a power supply 510a that may be connected to actuators 511a of several chair assemblies/table assemblies (e.g., three chair assemblies/table assemblies, four chair assemblies/table assemblies, . . . ). A controller 508a may be included in a first chair 515a within a row and other chairs 5161-518a within the row may include a controller 509a. The controllers 508a, 509a may be similar to, for example, the chair/table device 301 of FIG. 3.

At least one wire rack 500b may be included within each chair assembly/table assembly 515a-518a to, for example, support the various electrical supply cords 500a extending between chairs 515a-518a. A wire rack 500b may include a chair/table clip 502b with retainers 506b configured to, for example, clip the wire rack 500b to a respective chair/table assembly. The wire rack 500b may further include a first wire way 501b, a second wire way 503b, a third wire way 504b, and a fourth wire way 505b. The first wire way 501b, the second wire way 503b, the third wire way 504b, and/or the fourth wire way 505b may be configured to support a respective electrical supply cord 500a and/or an air-line extending from, for example, an air compressor to a pneumatic actuator (e.g., an air actuated headrest, an air actuated lower lumbar support, etc.).

A mechanical mechanism may be provided in addition to, or in lieu of, the automatic mechanisms (e.g., controller/actuator) to reclining any given chair or a group of chairs via an interlocked mechanical mechanism. For example, a “C” clamp may be include that may be positioned over an arm of a chair and may activate a switch (extend or retract based on clamp position). Thus, a system for applying a force to activate the switch may be provided, such that a reactive force may be contained within the arm that contains the switch. Alternatively, a rod may be provided that may extend between chair arms to activate a switch (extend or retract based on rod position). Thus, a system may be provided for applying a force to activate the switch such that a reactive force is contained within the chair. Such a system may make it unnecessary for the operator to wait while each chair extends/retracts.

A less sophisticated mechanical system may be provided where a person walks down a row of chairs and applies a mechanical device to extend/retract each chair. The less sophisticated mechanical system may be a standalone system or may be integrated along with a powered extend/retract system.

Turning to FIGS. 6A-E, a tray assembly 600a-e (i.e., a movable surface assembly) may include a support structure having a mounting structure, wherein the mounting structure is configured to be fixed to at least one of: a venue floor, a venue riser, a venue surface, a venue structure, or a chair structure. The tray assembly 600a-e may also include a movable surface attachment fixed to the support structure, and a first movable surface linear slide mechanism having a first stationary portion 623a-e fixed to the movable surface attachment and a first linear slide portion 621a-e slidingly engaged with the first linear stationary portion 623a-e. The tray assembly 600a-e may further include a first movable surface rotation mechanism 617a-e having a first rotate stationary portion fixed to the first linear slide portion and a first rotation portion rotatably engaged with the first rotate stationary portion. The tray assembly 600a-e may yet further include a first movable surface 620a-e fixed to the first rotation portion. The tray assembly 600a-e may also include a second movable surface linear slide mechanism having a second stationary portion 616a-e fixed to the movable surface attachment and a second linear slide portion 618a-e slidingly engaged with the second linear stationary portion 616a-e. The tray assembly 600a-e may further include a second movable surface rotation mechanism 619a-e having a second rotate stationary portion fixed to the second linear slide portion 618a-e and a second rotation portion rotatably engaged with the second rotate stationary portion. The tray assembly 600a-e may yet further include a second movable surface 622a-e fixed to the second rotation portion. Alternatively, or additionally, at least one of the first and/or second movable surface linear slide mechanisms may be configured as a telescopic arm. Alternatively, or additionally, the movable surface assembly 600a-e may rotate with respect to an associated standard (e.g., standard 635a-e) via, for example, a second rotational mechanism (not shown in FIGS. 6A-E).

A venue assembly as, for example, illustrated in FIG. 2 may be installed within a venue 200 having a venue floor/walkway configuration as, for example, illustrated in FIGS. 1B-G and/or FIG. 2 including a venue floor 202, riser 203 and, an isle width (e.g., width from the venue riser 203 to the next isle 201, 202 forward/down) and/or a height of the venue riser 203 (e.g., a height from the venue floor 202, 203 to the next isle rearward/up 204). Thereby, a position of a venue assembly 200 may, for example, be dependent on venue operator desires (e.g., inclusion of movable surface assemblies, tables, chair seat height, isle width, etc.), as well as, venue building codes (e.g., require building code ingress/egress space, adults with disability act (ADA) requirements, etc.). Any given venue may include a concession staff isle 203, in front of a row of movable surface assemblies 600a-e and/or behind a row of chairs 205 (e.g., 600a-e), that includes a walking surface 203 that is lower than a surface on which an associated venue assembly is mounted. Thereby, concession staff may deliver concessions and/or retrieve related debris without being in a line of sight of a chair occupant with respect to the chair occupant viewing a venue event. Also, concession staff may not need to bend over, or stoop to a level of an associated movable surface when, for example, delivering concessions and/or retrieving related debris. Any given isle may include a hand rail and/or barricade to prevent related trips and/or falls. In addition to providing concession staff ingress/egress, a concession staff isle may also provide ingress and/or egress for chair occupants. A movable surface 620a-e may be fixed to a standard 635a-e. The standard 635a-e may be pivotally and/or linearly 639a-e reorientable with respect to an associated mounting structure 636a-e. For example, the standard 635a-e may pivot away from/toward a respective chair 605a-e with respect to the mounting structure 636a-e, or the standard 635a-e may rotate with respect to the mounting structure 636a-e. Alternatively, or additionally, the movable surface assembly may rotate with respect to the standard 635a-e via, for example, a second rotational mechanism (i.e., a second rotational mechanism in addition the rotational mechanism 619a-e).

In a particular embodiment, the surface 203 may be, for example, seventy-eight inches front to back. Alternatively, the surface 203 may be, for example, eighty inches front to back. In other alternatives, the surface 203 may be, for example, between seventy inches and ninety inches front to back depending on, for example, which type chair (e.g., rocker style, beam mount, chair with pivotable seat, powered chair, etc.) is installed in the given row. A given venue may include first area of the venue (e.g., a first row, a first section, etc.) that includes a first type of chair (e.g., rocker style, beam mount, chair with pivotable seat, powered chair, etc.) and/or a first type movable surface assembly, and a second area of the venue (e.g., a second row, a second section, etc.) that includes a second type of chair (e.g., rocker style, beam mount, chair with pivotable seat, powered chair, etc.) and/or a second type movable surface assembly

A movable surface assembly may include a movable surface linear slide mechanism that includes a linear biasing mechanism. The linear biasing mechanism may be configured to linearly reorient the movable surface to a predetermined linear orientation. A movable surface assembly may include a movable surface rotation mechanism that includes a rotation biasing mechanism. The rotation biasing mechanism may be configured to rotationally reorient the movable surface to a predetermined rotational orientation. A movable surface assembly may include at least one accessory holder fixed relative to the movable surface attachment. A movable surface assembly may include at least one concessions button. When the at least one concessions button is actuated by a user, an indication may be activated. The indication may be representative of a desire of the user related to concessions. A movable surface assembly may include at least one movable surface illumination source. When the at least one movable surface illumination source is activated, at least a portion of an area proximate the movable surface may be illuminated. A movable surface assembly may include at least one storage area located above the movable surface attachment and below the movable surface linear slide mechanism. The at least one storage area may be configured to receive a venue information brochure, a menu, a concessions order form, a venue event brochure, a venue evaluation card, a tablet, an interactive question/answer sheet, a writing instrument, a recording instrument, a tablet computing device, etc. A movable surface assembly may include a movable surface linear slide mechanism that includes at least one linear detent feature. The at least one linear detent feature may be configured to retain the movable surface in a particular linear orientation. A movable surface assembly may include a movable surface rotation mechanism that includes at least one rotation detent feature. The at least one rotation detent feature may be configured to retain the movable surface in a particular rotational orientation. A movable surface assembly may include at least one accessory holder fixed relative to a movable surface attachment. The at least one accessory holder may include a repositionable portion movingly attached to the at least one accessory holder. A movable surface assembly may include at least one concessions button. When the at least one concessions button is actuated by a venue staff member, an indication, that may be representative of a desire of the user related to concessions, may be deactivated. A movable surface assembly may include at least one movable surface illumination source. The at least one movable surface illumination source is controlled by a venue control.

As illustrated in FIG. 6A, a movable surface assembly 600a may include a first movable surface 620a that may be configured to rotate in a first rotation and a second movable surface 622a that may be configured to rotate in a second rotation opposite the first rotation. A movable surface assembly 600a may include a first movable surface 620a that may be configured to rotate toward a first chair and a second movable surface 622a that may be configured to rotate toward a second chair. A movable surface assembly may include at least one accessory holder fixed relative to a movable surface attachment between a first movable surface and a second movable surface. A movable surface assembly may include at least two concessions buttons. When at least one of the at least two concessions buttons is actuated by a user, an indication is activated, and wherein the indication is representative of a desire of the user related to concessions, and at least one information plague. The at least one information plague may contain information related to use of the at least two concessions buttons. A movable surface assembly may include at least two movable surface illumination source. When a first one of the at least two movable surface illumination source is activated, at least a portion of an area proximate the first movable surface may be illuminated. When a second one of the at least two movable surface illumination source is activated, at least a portion of an area proximate the second movable surface may be illuminated.

While not shown in FIGS. 6A-E, any one of the table assemblies 600a-e may include an occupancy sensor. The occupancy sensor may be configured to sense when an individual has occupied a respective chair and, for example, provide an indication to a remote venue management system that the respective chair has been occupied. For example, an occupancy sensor may be configured to sense when a respective table has been reoriented to an in use orientation. Alternatively, or additionally, an occupancy sensor may be a proximity sensor (e.g., a capacitance sensor, a limit switch, a heat sensor, a weight sensor, a pressure transducer, etc.).

A movable surface assembly may include adjustment mechanisms to adjust a “levelness” of a movable support surface. A movable surface assembly may include structure containing internal or external wire management features. A movable surface assembly may include at least one segment of motion (e.g., linear motion and/or rotational motion) with different resistance to motion. A movable surface assembly may include features or functions that can be activated or disable based on ticket purchase/activation and or seat occupancy. A movable surface assembly may include illumination sources having output that may be varied based on patron actions or external or internal venue related factors. A movable surface assembly may include an accessory holder and or features that may indicate patron desires, such as, concession order status, meal status, etc. A movable surface assembly may include features which can control chair actions.

Contains WiFi access point or routers. A movable surface assembly may include table position sensors that may be coordinated with chair action (e.g., moving a support surface away from a chair occupant may cause a respective chair to reorient to an upright orientation from a reclined orientation or vise versa, moving a support surface away from a chair occupant may cause an associated chair ottoman to reorient to a retracted orientation from an extended orientation or vise versa, etc.). A movable surface assembly may include a table having: a cup holder, a light sensor, a cell phone charger, power outlets (AC or DC or wireless). A movable surface assembly may include controls in, for example, a cup holder bezel, a lighted cup holder, a heated/cooled cup holder. A movable surface assembly may include a modesty panel and/or light direction management features configured to, for example, inhibit light emitted from a particular illumination source from being visible by an adjacent (e.g., beside, behind, in front, etc.) chair occupant. A movable surface assembly may include a front console, a side console, an under console. A movable surface assembly may include a console that may move with an associated support surface. A movable surface assembly may include at least one surface to facilitate removal of completed meals and or utensils. A movable surface assembly may include table functions that may be powered. A movable surface assembly may include position of a table rotation and linear translation that may be coordinated. A movable surface assembly may include a table that may be height adjustable. A movable surface assembly may include height adjustability that may be as a unit or via individual components. A movable surface assembly may include table that may contain surfaces which may translate to facility serving from a direction other than a front of a chair. A movable surface assembly may include a table surface that may have container features which may facilitate features other than eating (e.g., in a lecture room-PC access features, gaming controls to interact with horse racing, e-Sport controls, table surface that articulates to another plane to facilitate use, etc.). A movable surface assembly may include hand holds to aid chair occupant entry and exit. A movable surface assembly may include hand rail features. A movable surface assembly may include at least one illumination source configured to illuminate adjacent areas of a movable surface, such as, to read a menu or to aid a user while filling out a concessions order form. A movable surface assembly may include at least one concessions button interconnected to a network for data collection. A movable surface assembly may include a unique identifier (e.g., a QR code, an ID chip, etc.) that may be identifiable by location within a venue. A movable surface assembly may be linked to a venue ticket purchaser and/or to an individual occupying a particular chair. A movable surface assembly may include information that may be communicated to, within said network and actions can be initiated based on this information. A movable surface assembly at least one illumination source affixed to a fixed portion of the movable surface assembly. A movable surface assembly may include a concession inventory record entry, recording, and automatic reorder system. A movable surface assembly may include a concession activity record entry, recording, and analysis system that may be, for example, configured to track concession ordering and/or delivery activity (e.g., time of concession order, time of concession delivery, customer satisfaction information, dollar amount of concession orders, etc.).

A table assembly 600a-e may include a support structure 635a-e having a mounting foot 636a-e. The mounting foot 636a-h,j may be, for example, configured to fix the table assembly 600a-h,j to a venue floor, a venue riser, a venue structure, a chair structure, a beam mount structure, etc. Alternatively, a table assembly 600a-h,j, may be configured to be repositionable and/or reorientable as shown and described, for example, with reference to FIGS. 6A-E. In any event, a table assembly 600a-h,j may include a first reorientable table attachment 616b-e and a second reorientable table attachment 623b,d,e. The table assembly 600a-h,j may include an upper support surface 630a-e, at least one menu holder 670a-c configured to receive at least one menu 671a-c, at least one concessions order card holder 675a-e configured to receive at least one concessions order card 676a-e, a first concessions order button 680c-e, a second concessions order button 681d,e, a first patron reading light 631b, and a second patron reading light 632b. The first concessions order button 680c-e and/or the second concessions order button 681d,e may be, for example, configured as a “toggle on/off switch” (e.g., push ones toggles on/push a second time toggles off). Alternatively, the first concessions order button 680c-e and/or the second concessions order button 681d,e may be, for example, configured as momentary button and may be incorporated within an associated electrical circuit that provides a “latching” circuit. In any event, the first concessions order button 680c-e and/or the second concessions order button 681d,e may be, for example, configured to turn on and/or off the respective first patron reading light 631b or the second patron reading light 632b. Alternatively, or additionally, the first concessions order button 680c-e and/or the second concessions order button 681d,e may be, for example, configured to change a color of light emitted by the respective first patron reading light 631b or the second patron reading light 632b. The first concessions order button 680c-e and/or the second concessions order button 681d,e may be, for example, configured to transmit an associated indication to a central venue concessions system indicating that a chair occupant desires concessions related service.

A table assembly 600a-e may further include at least one 110 Volt outlet and/or at least one data outlet (e.g., a USB plug). Alternatively, or additionally, a table assembly 600a-e may further include at least two 110 Volt outlets and/or at least two data outlets (e.g., a USB plug).

A table assembly 600a-e may further include a first linear movement mechanism 650b having first and second linear movement mechanism attachments 651f-e connected to the first reorientable table attachment 616b-e. The first linear movement mechanism 650b may further include a linear detent mechanism. The linear detent mechanism may, for example, include an adjustable tension, spring-loaded ball bearing, device, a first linear position detent, and a second linear position detent that may provide two different linear positions (e.g., an in-use position and a chair exit position) that require a greater force to move the first linear movement mechanism 650b when compared to other linear positions. The first linear movement mechanism 650b may further include a rotational mechanism attachment 621a-e. The first linear movement mechanism 650b may further include a biased position (e.g., a biasing spring) configured to, for example, bias the first support surface 620a-e to a position that provides a desired chair egress and/or isle passage. A bias mechanism may include a movement speed inhibitor configured to, for example, slow a movement of the first support surface 620a-e to a biased orientation.

A table assembly 600a-e may further include a first rotational movement mechanism 619b-e rotationally attaching a first support surface 620a-e (e.g., a table, a tray, etc.) to the rotational mechanism attachment 621a-e. The first rotational movement mechanism 619b-e may further include a rotational detent mechanism 653d,e. The rotational detent mechanism 653d,e may, for example, include an adjustable tension, spring-loaded ball bearing, device, a first rotational position detent, and a second rotational position detent that may provide two different rotational positions (e.g., an in-use position and a chair exit position) that require a greater force to move the first rotational movement mechanism 619b-e when compared to other rotational positions. The first rotational movement mechanism 619b-e may further include a biased position (e.g., a biasing spring) configured to, for example, bias the first support surface 620a-e to a position that provides a desired chair egress and/or isle passage. A bias mechanism may include a movement speed inhibitor configured to, for example, slow a movement of the first support surface 620a-e to a biased orientation.

Movement of the first linear movement mechanism 650b and the first rotational movement mechanism 619b-e may be, for example, at least partially interlocked (e.g., via mechanical mechanism, gears, etc.) such that movement of either the first linear movement mechanism 650b or the first rotational movement mechanism 619b-e causes the other to move. While not shown in FIGS. 6A-E, the first linear movement mechanism 650b and/or the first rotational movement mechanism 619b-e may include a handle configured for a user to grasp the handle to reorient the corresponding support surface 620a-e. Alternatively, or additionally, either, or both of, the first linear movement mechanism 650b and the first rotational movement mechanism 619b-e may include actuators and a corresponding user interface (e.g., a push button). As another alternative, or addition, reorientation of the support surface 620a-e may be coordinated with reorientation of a respective chair (e.g., when the chair is reoriented to an upright orientation, the support surface reorients to a chair exit orientation, and when the chair is reoriented to a recline orientation, the support surface reorients to an in-use orientation).

A table assembly 600a-e may further include a second linear movement mechanism 660b having first and second linear movement mechanism attachments 651f-e connected to the second reorientable table attachment 623b,d,e. The second linear movement mechanism 660b may further include a linear detent mechanism 652d,e. The linear detent mechanism 652d,e may, for example, include an adjustable tension, spring-loaded ball bearing, device, a first linear position detent, and a second linear position detent that may provide two different linear positions (e.g., an in-use position and a chair exit position) that require a greater force to move the second linear movement mechanism 660b when compared to other linear positions. The second linear movement mechanism 660b may further include a rotational mechanism attachment 618b,d. The second linear movement mechanism 660b may further include a biased position (e.g., a biasing spring) configured to, for example, bias the second support surface 622b,d,e to a position that provides a desired chair egress and/or isle passage. A bias mechanism may include a movement speed inhibitor configured to, for example, slow a movement of the first support surface 622b,d,e to a biased orientation.

A table assembly 600a-e may further include a second rotational movement mechanism 617b,d,e rotationally attaching a second support surface 622b,d,e (e.g., a table, a tray, etc.) to the rotational mechanism attachment 618b,d. The second rotational movement mechanism 617b,d,e may further include a rotational detent mechanism. The rotational detent mechanism may, for example, include an adjustable tension, spring-loaded ball bearing, device, a first rotational position detent, and a second rotational position detent that may provide two different rotational positions (e.g., an in-use position and a chair exit position) that require a greater force to move the second rotational movement mechanism 617b,d,e when compared to other rotational positions. The second rotational movement mechanism 617b,d,e may further include a biased position (e.g., a biasing spring) configured to, for example, bias the second support surface 622b,d,e to a position that provides a desired chair egress and/or isle passage. A bias mechanism may include a movement speed inhibitor 685f-h,j configured to, for example, slow a movement of the first support surface 622b,d,e to a biased orientation.

Movement of the second linear movement mechanism 660b and the first rotational movement mechanism 617b,d,e may be, for example, at least partially interlocked (e.g., via mechanical mechanism, gears, etc.) such that movement of either the first linear movement mechanism 660b or the first rotational movement mechanism 617b,d,e causes the other to move. While not shown in FIGS. 6A-E, the second linear movement mechanism 660b and/or the second rotational movement mechanism 617b,d,e may include a handle configured for a user to grasp the handle to reorient the corresponding support surface 622b,d,e. Alternatively, or additionally, either, or both of, the second linear movement mechanism 660b and the second rotational movement mechanism 617b,d,e may include actuators and a corresponding user interface (e.g., a push button). As another alternative, or addition, reorientation of the support surface 622b,d,e may be coordinated with reorientation of a respective chair (e.g., when the chair is reoriented to an upright orientation, the support surface reorients to a chair exit orientation, and when the chair is reoriented to a recline orientation, the support surface reorients to an in-use orientation).

A combination of a linear movement mechanisms and a rotational movement mechanisms may be configured to, for example, produce a curve-linear movement of an associated support surface, a linear-curve movement of an associated support surface, an arc-path movement of an associated support surface, or any combination thereof. For example, a combination of a linear movement mechanism and a rotational movement mechanism may be interlocked to produce a curve-linear movement of an associated support surface, a linear-curve movement of an associated support surface, an arc-path movement of an associated support surface, or any combination thereof.

Alternatively, or additionally, with respect to the assembly shown in FIGS. 2 and 6A-E, a linear movement mechanism and/or a rotational movement mechanism may be, for example, located between a venue support surface (e.g., a venue floor, a venue riser, etc.) and a mounting foot 236, 636a-e and/or between a mounting foot 236, 636a-e and a support structure 235, 635a-e. Thereby, an entire table assembly 200, 600a-e may be reorientable (e.g., linearly and/or rotationally reorientable) with respect to an associated chair assembly.

As illustrated in FIGS. 6A-E, a movable surface assembly 600a-e may include a first movable surface 620a-d that may be configured to rotate in a first rotation and a second movable surface 622a-e that may be configured to rotate in a second rotation opposite the first rotation. A movable surface assembly 620a-d may include a first movable surface 620a-d that may be configured to rotate toward a first chair and a second movable surface 622a-e that may be configured to rotate toward a second chair. A movable surface assembly may include at least one accessory holder fixed relative to a movable surface attachment between a first movable surface and a second movable surface. A movable surface assembly may include at least two concessions buttons. When at least one of the at least two concessions buttons is actuated by a user, an indication is activated, and wherein the indication is representative of a desire of the user related to concessions, and at least one information plague. The at least one information plague may contain information related to use of the at least two concessions buttons. A movable surface assembly may include at least two movable surface illumination source. When a first one of the at least two movable surface illumination source is activated, at least a portion of an area proximate the first movable surface may be illuminated. When a second one of the at least two movable surface illumination source is activated, at least a portion of an area proximate the second movable surface may be illuminated.

With reference to FIGS. 7A-H, J-N, P and Q, a removable tray assembly 700a-h,j-n,p,q may include a tray 765a-j having a recessed area 767a,c,f,g, strengthening ribs 768b,dg,j, a locating feature 773b,d,e-h,j, an adaptor 769h,j, and a cup receptacle 766a,c,f,g,h,j. The removable tray assembly 700a-h,j-n,p,q may also include a first cup holder extension post 770a,b,d-h,j, a second cup holder extension post 771a,b,d-h,j, and a cup holder adapter 772a,b,d-h,j,l-n,p,q. The removable tray assembly 700a-h,j-n,p,q may be removably and swivelably supported relative to an associated chair assembly (e.g., chair assembly 200 of FIG. 2) with the second cup holder extension post 771a,b,d-h,j and the cup holder adapter 772a,b,d-h,j,l-n,p,q inserted within a cup holder (e.g., cup holder 260 of FIG. 2). The cup holder adapter 772a,b,d-h,j,l-n,p,q may include a profile, as shown in any one of FIGS. 7A,B,D-H,J,L-N,P and Q, depending on a range of diameters of cup holders 260 to be accommodated. While the cup holder 260 is shown within an arm box of a powered recliner chair assembly 200 within FIG. 2, the removable tray assembly 700a-h,j-n,p,q may be configured to be removably and swivelably supported within a cup holder 260 of any type of chair assembly (e.g., a fixed position chair assembly, a rocker style chair assembly, a beam mounted chair assembly, a reconfigurable seating system chair assembly, etc.) such as those described within the patents and patent applications incorporated herein by reference thereto. The removable tray assembly 700a-h,j-n,p,q may resist a downward moment of something placed on the tray 765a-j. As illustrated in FIGS. 7A,B,D-H and J, the first cup holder extension post 770a,b,d-h,j, the second cup holder extension post 771a,b,d-h,j, and the cup holder adapter 772a,b,d-h,j,l-n,p,q of the cup holder post feature may be non-concentric (i.e., the cup holder adapter 772a,b,d-h,j,l-n,p,q is non-concentrically located on side of the second cup holder extension post 771a,b,d-h,j oriented toward the recess 767a,c,f,h). The first cup holder extension post 770a,b,d-h,j may include a locating feature 773b,d,e-h,j that may engage with the second cup holder extension post 771a,b,d-h,j to align the cup holder adapter 772a,b,d-h,j,l-n,p,q orientation toward the locating feature 773b,d,e-h,j.

While the first cup holder extension post 770a,b,d-h,j, the second cup holder extension post 771a,b,d-h,j, and the cup holder adapter 772a,b,d-h,j,l-n,p,q are illustrated within FIGS. 7A-H, J-N, P and Q as being three separate parts with respect to the tray 765a-h,j, all of the first cup holder extension post 770a,b,d-h,j, the second cup holder extension post 771a,b,d-h,j, and the cup holder adapter 772a,b,d-h,j,l-n,p,q, or any combination thereof may be formed as a unitary piece. Similarly, the first cup holder extension post 770a,b,d-h,j may be integrally formed with an adaptor 769h,j. Alternatively, or additionally, the adaptor 769h,j, the first cup holder extension post 770a,b,d-h,j, the second cup holder extension post 771a,b,d-h,j, and/or the cup holder adapter 772a,b,d-h,j,l-n,p,q may include snap-connection features such that the adaptor 769h,j, the first cup holder extension post 770a,b,d-h,j, the second cup holder extension post 771a,b,d-h,j, and/or the cup holder adapter 772a,b,d-h,j,l-n,p,q may be snap-fit to one another.

Turning to FIGS. 8A-G, a removable tray assembly 800a-g may include a tray 865a-g having a recessed area 867a,d,f, a cup receptacle 866a,d,e,f, strengthening ribs 868b,e,g, an alignment feature 873c, and an adapter 869a-c,e-g. The removable tray assembly 800a-g may include a first cup holder extension 870a-g, an adaptor ring 872a-g, and a second cup holder extension 871a-g configured to, for example, accommodate a range of different cup holders 260. Thereby, the removable tray assembly 800a-g may resist downward moment of something placed on the snack tray 865a-g. The first cup holder extension 870a-g, the adaptor ring 872a-g, and the second cup holder extension 871a-g may reduce in size for different components (e.g., ring vs entire part). This may allow the removable tray assembly 800a-g to fit different size cup holders. The first cup holder extension 870a-g, the adaptor ring 872a-g, and the second cup holder extension 871a-g may be concentric with respect to the adaptor 969b,cd-g and/or with respect to one-another.

While the adaptor 869a-c,e-g, the first cup holder extension 870a-g, the adaptor ring 872a-g, and the second cup holder extension 871a-g are illustrated within FIGS. 8A-G as four separate components, all of, or any combination thereof, may be formed integrally. Alternatively, or additionally, the adaptor 869a-c,e-g, the first cup holder extension 870a-g, the adaptor ring 872a-g, and/or the second cup holder extension 871a-g may include snap-fit features such that, for example, the adaptor 869a-c,e-g, the first cup holder extension 870a-g, the adaptor ring 872a-g, and/or the second cup holder extension 871a-g may be removably snapped together.

With reference to FIGS. 9A-G, a removable tray assembly 900a-g may include a tray 965a-g having a recessed area 967a,b,d-g, a cup receptacle 966a,c-g, and an adapter 969b,c,e-g. The removable tray assembly 900a-g may include a cup holder extension 970a-g having a non-concentric adaptor 972a-c,e-g located on a lower portion 971a-g of the cup holder extension 970a-g configured to, for example, accommodate a range of different cup holders 260. Thereby, the removable tray assembly 900a-g may resist downward moment of something placed on the snack tray 965a-g. The cup holder extension 970a-g having a non-concentric adaptor 972a-c,e-g located on a lower portion 971a-g of the cup holder extension 970a-g may reduce in size for different components. This may allow the removable tray assembly 900a-g to fit different size cup holders 260.

While the adaptor 969b,c,e-g and the cup holder extension 970a-g having a non-concentric adaptor 972a-c,e-g located on a lower portion 971a-g of the cup holder extension 970a-g are illustrated within FIGS. 8A-G as two separate components, all of, or any combination thereof, may be formed integrally, or separately. Alternatively, or additionally, the adaptor 969b,c,e-g and the cup holder extension 970a-g having a non-concentric adaptor 972a-c,e-g located on a lower portion 971a-g of the cup holder extension 970a-g may include snap-fit features such that, for example, the adaptor 969b,c,e-g and the cup holder extension 970a-g having a non-concentric adaptor 972a-c,e-g located on a lower portion 971a-g of the cup holder extension 970a-g may be removably snapped together.

The tray assemblies of FIGS. 7A-H,J-N,P and Q, 8A-G and 9A-G may resist downward moment of something placed on a respective snack tray surface. The tray assemblies of FIGS. 7A-H,J-N,P and Q, 8A-G and 9A-G may work with different cup holders of a wide variety of manufactures by changing the adapter rings to fit a respective inside diameter of a respective cup holder, or range of cup holders. The tray assemblies of FIGS. 7A-H,J-N,P and Q, 8A-G and 9A-G may include a cup engagement feature that may be disassembled and modified to define a multi-cup holder engagement feature. A cup engagement feature may be modified by different size components (diameter or height or concentric offset) and/or may include addition of adaptor rings and/or adaptors at multiple locations to improve the engagement within a respective cup holder.

Turning to FIG. 10, a chair assembly/table assembly 1000 may include a plurality of chair assemblies 1010 proximate a table assembly 1005. Any given chair assembly 1010 may include a biased orientation 1015 which may be, for example, an orientation to which the chair assembly 1010 automatically reorients when not reoriented by a user. For example, a chair assembly 1010 may include a biasing spring (not shown in FIG. 10) configured to automatically reorient a respective chair assembly 1010 to the biased orientation 1015. Any given biased orientation 1015 may be, for example, predetermined by a chair manufacturer. Alternatively, or additionally, any given biased orientation 1015 may be user selectable. In any event, a chair assembly 1010 may be linearly reorientable from the biased orientation 1015 to a rearward orientation 1014 and/or to a forward orientation 1011. Similarly, a chair assembly 1010 may be rotationally reorientable from the biased orientation 1015 to a right-hand rotation orientation 1012 and/or to a left-hand rotation orientation 1013. Any given chair assembly 1010 may be configured to rotate 360°. Additionally, or alternatively, a chair assembly 1010 may include a pivotable chair seat and/or any other features as disclosed in, for example, commonly assigned U.S. Pat. Nos. 10,070,724, 9,943,174, 9,730,518, 9,655,458, 9,993,080, 9,808,085, 9,631,384, 9,526,340, 9,326,610, 9,693,631, and 9,693,630, the entire disclosures of which are incorporated herein by reference thereto.

The table assembly 1005 may include, for example, an edge (e.g., a saw-tooth edge 1006, an edge with a series of concave spaces 1007, a semi-circular edge, an elliptical edge, a straight edge, etc.) orientated toward the chair assemblies 1010. While not shown in FIG. 10, a table assembly 1005 may include linearly sliding and/or rotationally reorientable portions (e.g., similar to the linear slide and/or rotational reorientation of the table assembly 600a-e of FIGS. 6A-6E). In any event, the table assembly 1005 may be incorporated into a venue 100b-g (e.g., within a box seating area, within a deck area, within a dine-in area, within a loge, etc.). Either the chair assemblies 1010, the table assembly 1005, or both may be reorientable or fixed in place.

A chair assembly/table assembly 1000 may be, for example, arranged in groups to facilitate fan interaction between chair occupants. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate event watching/participation. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate server access while patron occupied while minimizing total space. An example of this is the previously disclosed spring return and/or combination(s) of linear and rotary motions. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate improved sight lines by having egress and or server access ways on different levels. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate access from the rear. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate access from the front. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate access from the side. A chair assembly/table assembly 1000 may be, for example, arranged to facilitate a combination of above.

With reference to FIGS. 11A and B, chair assemblies 1100a,b may include a mesh fabric chair back 1010a,b and/or a mesh fabric chair seat 1019a,b. The chair assemblies 1100a,b may be similar to, for example, the chair assemblies 145b-g of FIGS. 1B-G or 1010 of FIG. 10. The chair assemblies 1100a,b may include a lower lumbar support 1118a,b (e.g., a mechanically repositionable lower lumbar support, an inflatable lower lumbar support, etc.). The chair assemblies 1100a,b may include a first arm rest 1115a,b and a second arm rest 1116a,b. The chair assemblies 1100a,b may include a mechanism 1120a,b that may be, for example, configured to provide linear and/or rotational reorientation of the chair assembly 1100a,b. Additionally, or alternatively, the mechanism 1120a,b may be, for example, configured to provide recliner and/or rocker functionality. In any event, a chair assembly 1100a,b may include a first user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1121a,b and a second user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1122a,b. A chair assembly 1100a,b may include a support structure 1125a,b attached to a mounting foot 1135a,b. The support structure 1125a,b may be, for example, telescopic and enable a user to raise/lower the chair assembly 1100a,b. The first or second user selectable adjustment 1121a,b, 1122a,b may allow a user to adjust a height of the chair assembly 1100a,b. The chair assembly 1100a may include a foot rest 1130a. The foot rest 1130a may include a height adjustment 1131a.

Turning to FIG. 12, a beam mounted chair assembly 1200 may include chair assemblies 1210 having mesh fabric chair backs 1217 and/or chair seats 1219. A beam mounted chair assembly may be similar to, for example, a beam mounted chair assembly as disclosed in any one of commonly assigned U.S. Pat. Nos. 9,693,630, 9,808,085, 9,631,384, and 9,993,080, the entire disclosures of which are incorporated herein by reference thereto. The chair assemblies 1210 may be similar to, for example, the chair assemblies 1010 of FIG. 10 or 1100a,b of FIGS. 11A and B. The chair assemblies 1210 may include a lower lumbar support 1218 (e.g., a mechanically repositionable lower lumbar support, an inflatable lower lumbar support, etc.). The chair assemblies 1210 may include a first arm rest 1215 and a second arm rest 1215. The chair assemblies 1210 may include a mechanism 1220 that may be, for example, configured to provide linear and/or rotational reorientation of the chair assembly 1210. Additionally, or alternatively, the mechanism 1220 may be, for example, configured to provide recliner and/or rocker functionality. In any event, a chair assembly 1210 may include a first user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1221 and a second user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1222. A beam mounted chair assembly 1200 may include a plurality of chair assemblies 1210 supported on a beam 1230. The beam 1230 may be supported by at least one support structure 1225 attached to a mounting foot 1235. The support structure 1125a,b may be, for example, telescopic and enable a user to raise/lower the chair assembly 1100a,b.

With reference to FIGS. 13A and 13B, chair assemblies 1300a,b may include a mesh fabric chair back 1310a,b and/or a mesh fabric chair seat 1319a,b. The chair assemblies 1300a,b may be similar to, for example, the chair assemblies 148b-g of FIGS. 1B-G or 1010 of FIG. 10. The chair assemblies 1300a,b may include a lower lumbar support 1318a,b (e.g., a mechanically repositionable lower lumbar support, an inflatable lower lumbar support, etc.). The chair assemblies 1300a,b may include a first arm rest 1315a and a second arm rest 1316a,b. The chair assemblies 1300a,b may include a mechanism 1320a,b that may be, for example, configured to provide linear and/or rotational reorientation of the chair assembly 1300a,b. Additionally, or alternatively, the mechanism 1320a,b may be, for example, configured to provide recliner and/or rocker functionality. In any event, a chair assembly 1300a,b may include a first user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1321a and a second user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1322a,b. A chair assembly 1300a,b may include a support structure 1325a,b attached to a caster structure 1335a,b. The caster structure 1335a,b may include a plurality of casters 1336a,b. The support structure 1325a,b may be, for example, telescopic and enable a user to raise/lower the chair assembly 1300a,b. The first or second user selectable adjustment 1321a, 1322a,b may allow a user to adjust a height of the chair assembly 1300a,b. The chair assembly 1300a,b may include a foot rest 1330a,b. The foot rest 1330a,b may include a height adjustment 1331a,b.

Turning to FIGS. 14A and B, chair assemblies 1400a,b may include a mesh fabric chair back 1410a,b and/or a mesh fabric chair seat 1419a,b. The chair assemblies 1400a,b may be similar to, for example, the chair assemblies 148b-g of FIGS. 1B-G or 1010 of FIG. 10. The chair assemblies 1400a,b may include a lower lumbar support 1418a,b (e.g., a mechanically repositionable lower lumbar support, an inflatable lower lumbar support, etc.). The chair assemblies 1400a,b may include a first arm rest 1415a and a second arm rest 1416a,b. The chair assemblies 1400a,b may include a mechanism 1420a,b that may be, for example, configured to provide linear and/or rotational reorientation of the chair assembly 1400a,b. Additionally, or alternatively, the mechanism 1420a,b may be, for example, configured to provide recliner and/or rocker functionality. In any event, a chair assembly 1400a,b may include a first user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1421a and a second user selectable adjustment (e.g., a linear movement adjustment, a rotational movement adjustment, a recline adjustment, or a rocker adjustment) 1422a,b. A chair assembly 1400a,b may include a support structure 1425a,b attached to a mounting structure 1435a,b. The support structure 1425a,b may be, for example, telescopic and enable a user to raise/lower the chair assembly 1400a,b. The first or second user selectable adjustment 1421a, 1422a,b may allow a user to adjust a height of the chair assembly 1400a,b.

With reference to FIGS. 15A-D, a dolly and mobile chair and table assembly 1500a-d may include a chair assembly 1535d and a table assembly 1540d mounted to a dolly. The chair assembly 1535d may be similar to, for example, any one of the chair assemblies 145b-g of FIGS. 1B-G, 200 of FIG. 2, or as disclosed in, for example, commonly assigned U.S. Pat. Nos. 10,070,724, 9,943,174, 9,730,518, 9,655,458, 9,993,080, 9,808,085, 9,631,384, 9,526,340, 9,326,610, 9,693,631, and 9,693,630, the entire disclosures of which are incorporated herein by reference thereto. The table assembly 1540d may be similar to, for example, any one of the table assemblies 146b-g of FIGS. 1B-G or the table assembly 600a-e of FIGS. 6A-E. The chair assembly 1535d may be, for example, attached to the dolly via a chair mount 1505a,b,d and a combination chair/table mount 1525b-d. The table assembly 1540d may be, for example, attached to the dolly via a table attachment 1530b,d of the combination chair/table mount 1525b-d.

The chair mount 1505a,b,d and the combination chair/table mount 1525b-d may be secured together via, for example, cross members 1515a-c. The chair mount 1505a,b,d and the combination chair/table mount 1525b-d may include retractable casters 1510a,c. The retractable casters 1510a,c may be repositioned via a respective raise/lower mechanism 1520b. The chair mount 1505a,b,d and the combination chair/table mount 1525b-d may be similar to, for example, the mechanisms as illustrated and described with respect to FIGS. 42A-C of commonly assigned U.S. patent application Ser. No. 16/181,585, the entire disclosure of which is incorporated herein by reference thereto.

Turning to FIGS. 16A-D, a dolly and mobile multi-chair and multi-table assembly 1600a-d may include a first chair assembly 1635d, a second chair assembly 1645d, and a dual table assembly 1540d, 1550d mounted to a dolly. The chair assemblies 1635d, 1645d may be similar to, for example, any one of the chair assemblies 145b-g of FIGS. 1B-G, 200 of FIG. 2, or as disclosed in, for example, commonly assigned U.S. Pat. No. 10,070,724, 9,943,174, 9,730,518, 9,655,458, 9,993,080, 9,808,085, 9,631,384, 9,526,340, 9,326,610, 9,693,631, and 9,693,630, the entire disclosures of which are incorporated herein by reference thereto. The dual table assembly 1640d, 1650d may be similar to, for example, any one of the table assemblies 146b-g of FIGS. 1B-G or the table assembly 600a-e of FIGS. 6A-E. The first chair assembly 1635d may be, for example, attached to the dolly via a first chair mount 1605a,b,d and a combination chair/table mount 1625b,c. The second chair assembly 1645d may be, for example, attached to the dolly via a second chair mount 1605a,b,d and the combination chair/table mount 1625b,c. The dual table assembly 1640d, 1650d may be, for example, attached to the dolly via a table attachment 1630b,d of the combination chair/table mount 1625b-d.

The first and second chair mounts 1605a,b,d and the combination chair/table mount 1625b-d may be secured together via, for example, cross members 1615a-c. The chair mounts 1605a,b,d and the combination chair/table mount 1625b-d may include retractable casters 1610a,c. The retractable casters 1610a,c may be repositioned via a respective raise/lower mechanism 1620b. The chair mounts 1605a,b,d and the combination chair/table mount 1625b-d may be similar to, for example, the mechanisms as illustrated and described with respect to FIGS. 42A-C of commonly assigned U.S. patent application Ser. No. 16/181,585, the entire disclosure of which is incorporated herein by reference thereto.

With reference to FIGS. 17A-C, a chair assembly dolly 1700a-c may include first and second chair mounts 1705a-c secured together via, for example, cross members 1715a-c. The chair mounts 1705a-c may include retractable casters 1710b,c. The retractable casters 1710b,c may be repositioned via a respective raise/lower mechanism 1720a,b. The chair mounts 1705a-c may be similar to, for example, the mechanisms as illustrated and described with respect to FIGS. 42A-C of commonly assigned U.S. patent application Ser. No. 16/181,585, the entire disclosure of which is incorporated herein by reference thereto.

Turning to FIGS. 18A-C, a multi-chair assembly dolly 1800a-c may include first, second, and third chair mounts 1805a-c secured together via, for example, cross members 1815a-c. The chair mounts 1805a-c may include retractable casters 1810b,c. The retractable casters 1810b,c may be repositioned via a respective raise/lower mechanism 1820a,b. The chair mounts 1805a-c may be similar to, for example, the mechanisms as illustrated and described with respect to FIGS. 42A-C of commonly assigned U.S. patent application Ser. No. 16/181,585, the entire disclosure of which is incorporated herein by reference thereto.

With reference to FIGS. 19A-19D, an accessory tray assembly 1900a-d may include a tray 1915a-d secured to a tray support 1925a,c,d via, for example, fasteners 1927c (e.g., screws, bolts, adhesive, co-molding, etc. The tray support 1925a,c,d may be a casting (e.g., a steel casting, an iron casting, an aluminum casting, a composite material casting, etc.). Alternatively, the tray support 1925a,c,d may be a stamping (e.g., a metal stamping), a molded plastic, or may be a composite structure. The accessory tray assembly 1900a-d may include a storage area 1916a,c,d (e.g., a wire rack, an open ended box, a suspended surface, etc.) underneath the tray 1915a-d. The storage area 1916a,c,d may be configured to receive a venue information brochure, a menu, a concessions order form, a venue event brochure, a venue evaluation card, a tablet, an interactive question/answer sheet, a writing instrument, a recording instrument, a tablet computing device, etc.

The accessory tray assembly 1900a-d may include an overhang portion 1917a-c with an illumination source 1918a,b (e.g., a strip of LEDs, an LED, individual LEDs with individual optical structures, etc.). The illumination source 1918a,b may be capable of emitting multiple colors of light (e.g., individual LEDs of a RGB array of LEDs may be independently controllable). The illumination source 1918a,b may be turned on/off in response to reorientation of the accessory tray assembly 1900a-d from, for example, an in-use orientation to a chair-exit orientation. The accessory tray assembly 1900a-d may include a concessions button 1919a,b. The concessions button 1919a,b may be illuminated.

The accessory tray assembly 1900a-d may include a tray base 1935a,c,d and lock dogs 1936a,c,d. Alternatively, the tray 1900a-d may be configured with a cup holder adapter similar to any one of the tray assemblies of FIGS. 7A-9G. Additionally, the accessory tray assembly 1900a-d may include wire routed through the tray base as described in conjunction with, for example, FIGS. 23B-E of commonly assigned U.S. Pat. No. 9,943,174, the entire disclosure of which is incorporated herein by reference. Associated wiring may, for example, provide electrical connections between the illumination 1918a,b and/or the concessions button 1919a,b and a chair/table controller (e.g., chair/table device 301 of FIG. 3).

The accessory tray assembly 1900a-d may include a concessions button 1919a,b that, when actuated by a user, an indication may be activated (e.g., either the illuminated button may be activated or the illumination source 1918a,b may be activated). The indication may be representative of a desire of the user related to concessions. When the accessory tray assembly 1900a-d illumination source 1918a,b is activated, at least a portion of an area proximate the movable surface may be illuminated. When the concessions button 1919a,b is actuated by a venue staff member, an indication, that may be representative of a desire of the user related to concessions, may be deactivated. A movable surface assembly may include at least two concessions buttons. When at least one of the at least two concessions buttons is actuated by a user, an indication is activated, and wherein the indication is representative of a desire of the user related to concessions, and at least one information plague. The at least one information plague may contain information related to use of the concessions button.

Alternatively, or additionally, the illumination source 1918a,b may be controlled by a venue control. For example, an intensity of the illumination source 1918a,b and/or 1919a,b may be controlled based upon an ambient venue lighting (e.g., an intensity of the illumination source 1918a,b and/or 1919a,b may be proportional to the venue ambient lighting). Thereby, activation of an illumination source 1918a,b and/or 1919a,b may be more detectable by, for example, venue concessions personnel when the venue lighting is on. Additionally, or alternatively, activation of an illumination source 1918a,b and/or 1919a,b may be strobed on and off to, for example, indicate which concessions button 1919a,b was activated first (i.e., relative to other concessions buttons 1919a,b within the associated venue). Additionally, or alternatively, a color of an illumination source 1918a,b and/or 1919a,b may be changed to indicate which concessions button 1919a,b was activated first (i.e., relative to other concessions buttons 1919a,b within the associated venue).

Alternatively, or additionally, a concessions button 1919a,b may be configured to, for example, activate an end of row display/illumination source (e.g., display/illumination source 3700a-d of FIGS. 37A-D of commonly assigned U.S. Pat. No. 10,357,107, the entire disclosure of which is incorporated herein by reference). For example, the end of row display/illumination source may be configured to indicate which concessions button(s) 1919a,b within an associated row of chairs has been activated and/or provide an indication of when any give concessions button 1919a,b was activated relative to any other concessions button 1919a,b. Thereby, venue concessions staff may provide improved service.

Alternatively, or additionally, a concessions button 1919a,b may be configured to, for example, activate an indication on a tablet computer (e.g., a venue staff tablet computer). In fact, any given concessions button 1919a,b may include functionality similar to a tablet computer or user interface. For example, a concessions button 1919a,b may enable a user to view a venue menu and further enable a user to select items from the menu. The concessions button 1919a,b may, thereby, provide an indication to a venue device as to which seat within the venue has requested which items. In any event, once a user has placed a first order, a venue concessions system (e.g., system 100a of FIG. 1A) may enable venue staff to, for example, anticipate future orders of the particular user.

An accessory tray assembly 1900a-d may include at least two illumination sources 1918a,b, 1919a,b. When a first one of the at least two movable surface illumination sources is activated, at least a portion of an area proximate a first movable surface may be illuminated. When a second one of the at least two movable surface illumination sources is activated, at least a portion of an area proximate a second movable surface may be illuminated.

A movable surface assembly may include at least one concessions button interconnected to a network for data collection. For example, an accessory tray assembly 1900a-d may include a unique identifier (e.g., a QR code, an ID chip, etc.) that may be identifiable by physical location within a venue as described herein. An accessory tray assembly 1900a-d may be linked to a venue ticket purchaser and/or to an individual occupying a particular chair. An accessory tray assembly 1900a-d may include information that may be communicated to, within said network and actions can be initiated based on this information. An accessory tray assembly 1900a-d may be interconnected with a concession inventory record entry, recording, and automatic reorder system. An accessory tray assembly 1900a-d may be interconnected with a concession activity record entry, recording, and analysis system that may be, for example, configured to track concession ordering and/or delivery activity (e.g., time of concession order, time of concession delivery, customer satisfaction information, dollar amount of concession orders, etc.).

Turning to FIG. 20, a chair/table assembly 2000 may include a first chair assembly 2035 and a second chair assembly 2045. The first chair assembly 2035 and the second chair assembly 2045 may be any type of chair assembly (e.g., a fixed position chair assembly, a rocker style chair assembly, a chair assembly with a pivotable seat, a powered recliner chair assembly, etc.), such as, disclosed within the commonly assigned patent applications and patents, the entire disclosures of which are incorporated herein by reference. The chair/table assembly 2000 may include a first table assembly 2040 and a second table assembly 2050.

The table assemblies 2040, 2050 may include an exit position 2040c, 2050c with tables shifted such that their common edge is in close proximity to a center line of a shared arm box (or arm rest). The exit position 2040c, 2050c may maximize chair occupant egress space along a side of the respective table assembly 2040, 250. While each table assembly 2040, 2050 may be illustrated to include a square shaped table, any given table assembly 2040, 2050 may include a table with a different shape (e.g., a table shape as illustrated in FIGS. 6A-E).

In any event, as the table assemblies 2040, 2050 move away from center line of the shared arm box the table assemblies may move toward an in-use position 2040a, 2050a. The associated movement may be accomplished by, for example, draw slides (or glides) 2018, 2021 placed at a diagonal to the chair access. The draw slides 2018, 2021 may include features for increased friction as the table assembly moves from the exist position 2040c, 2050c, through the neutral position 2040b, 2050b, to the in-use position 2040a, 2050a. The table assemblies 2040, 2050 may include a return mechanism, lighting, with or without a center console, etc. as described, for example, with respect to FIGS. 6A-E.

With reference to FIGS. 21A-H and J, a dual chair and single table assembly 2100a-h,j may include a first chair assembly 2135a-d, a second chair assembly 2145a-c, and a table assembly 2150a-h,j. Either one, or both of the first and second chair assemblies 2135a-d, 2145a-c may be a fixed position chair assembly, a beam mounted chair assembly, a chair assembly with a pivotable seat, a rocker style chair assembly, a powered recliner chair assembly, etc. similar to, for example, those described elsewhere herein along with the chair assemblies described within any one of the commonly assigned patents and patent applications of which the entire disclosures are incorporated herein by reference. Likewise, the table assembly 2150a-h,j may be similar, for example, those described elsewhere herein along with the chair assemblies described within any one of the commonly assigned patents and patent applications of which the entire disclosures are incorporated herein by reference. However, the table assembly 2150a-h,j of the dual chair and single table assembly 2100a-h,j may be include a linear slide mechanism 2021h configured to, for example, allow a user to linearly reposition the table assembly 2150a-h,j from an in-use orientation 2150b1 to a chair ingress/egress orientation 2150b2 and/or vice versa. The table assembly 2150a-h,j may include a cup holder slot 2151b configured to accommodate a cup remaining in an associated cup holder of either or both of the first and second chair assemblies 2135a-d, 2145a-c while the table assembly 2150a-h,j is reoriented from an in-use orientation 2150b1 to a chair ingress/egress orientation 2150b2 and/or vice versa.

Turning to FIGS. 22A-C, a dual table assembly 2200a-c may include a first table 2240a1,a2,b with a first table slide mechanism 2218b, a second table 2250a1-c with a second table slide mechanism 2221b,c, a raised center console 2252a-c, and a fixed position cup holder 2251a. The dual table assembly 2200a-c may be similar to, for example, the dual table assemblies described elsewhere herein along with the chair assemblies described within any one of the commonly assigned patents and patent applications of which the entire disclosures are incorporated herein by reference.

The first slide mechanism 2218b and the second table slide mechanism 2221b,c may be oriented at angle relative to a center line of the raised center console 2252a-c. Thereby, a cup may remain within the cup holder 2251a when the first table is reoriented to an in-use orientation 2240a2 and/or the second table is reoriented to an in-use orientation 2250a2. In order to increase chair ingress/egress space, a portion of either or both table 2253a may be omitted (i.e., the raised center console 2252a-c may move further toward a center line of the raised center console 2252a-c when the first table is reoriented to an ingress/egress orientation 2240a1 and/or the second table is reoriented to an ingress/egress orientation 2250a1. Likewise, a shape (e.g., a width, a length, an angle of a corner, etc.) of any given table may be modified to alter an associated ingress/egress space. Additionally, or alternatively, any given table assembly described herein may include a table portion that is movable relative to another table portion (e.g., a table may include a portion that is hinged relative to another portion, a table may include a portion that is telescopically movable relative to another portion, a table may include a portion that is removable relative to another portion, etc.).

With reference to FIGS. 23A and 23B, a seating assembly 2300a,b may include a first chair 2335a, a second chair 2345a,b, and a partition 2362a,b having a table 2361a,b. The seating assembly 2300a,b may also include a first pivotable table 2340a1/2340a2 and a second pivotable table 2350a1/2350a2. The first pivotable table 2340a1/2340a2 and/or the second pivotable table 2350a1/2350a2 may be, for example, similar to the pivotable table 1900a-d of FIGS. 19A-D. The first pivotable table 2340a1/2340a2 may be pivotally secured to a support structure (e.g., a support structure 637a of FIG. 6A) via a first pivot structure 2341a. The second pivotable table 2350a1/2350a2 may be pivotally secured to the support structure 637a via a second pivot structure 2351a. The first pivot structure 2341a may include a first cup holder in the first pivotable table 2340a1/2340a2 and a first cup holder receptacle mounted to the support structure 637a. The first pivot structure 2341a may include a first table bias mechanism (e.g., a spring loaded actuator, a pneumatic actuator, an actuator with an elastic band, etc.) configured to bias the first pivotable table 2340a1/2340a2 in an in-use orientation 2340a1 (i.e., when a user manually orients the table to a chair exit orientation 2340a2 and lets go, the first pivotable table 2340a1/2340a2 may automatically reorient to the in-use orientation 2340a1). Alternatively, the first bias mechanism may be configured to automatically reorient the first pivotable table 2340a1/2340a2 in any orientation from the in-use orientation 2340a1 to the chair exit orientation 2340a2. The first pivot structure 2341a may be configured such that the first pivotable table 2340a1/2340a2 is removably attached to the support structure 637a (e.g., a venue concessions server may deliver concessions and/or remove debris). The second pivot structure 2351a may include a second cup holder in the second pivotable table 2350a1/2350a2 and a second cup holder receptacle mounted to the support structure 637a. The second pivot structure 2351a may include a second table bias mechanism (e.g., a spring loaded actuator, a pneumatic actuator, an actuator with an elastic band, etc.) configured to bias the second pivotable table 2350a1/2350a2 in an in-use orientation 2350a1 (i.e., when a user manually orients the table to a chair exit orientation 2350a2 and lets go, the second pivotable table 2350a1/2350a2 may automatically reorient to the in-use orientation 2350a1). Alternatively, the second bias mechanism may be configured to automatically reorient the second pivotable table 2350a1/2350a2 in any orientation from the in-use orientation 2350a1 to the chair exit orientation 2350a2. The second pivot structure 2351a may be configured such that the second pivotable table 2350a1/2350a2 is removably attached to the support structure 637a (e.g., a venue concessions server may deliver concessions and/or remove debris).

The seating assembly 2300a,b may also include a first reading light 2363a (e.g., a fixed position reading light, an adjustable position/orientation reading light, etc.) and a second reading light 2364a (e.g., a fixed position reading light, an adjustable position/orientation reading light, etc.). The first reading light 2363a may be attached to the partition 2362a,b, the table 2361a,b, the first chair 2335a, or the first pivotable table 2340a1/2340a2. The second reading light 2364a may be attached to the partition 2362a,b, the table 2361a,b, the second chair 2345a,b, or the second pivotable table 2340a1/2340a2.

The partition 2362a,b may include a table 2361a,b that may extend between (or fold down over) arms of proximate chairs 2335a, 2345a,b. By cantilevering a table 2361a,b over a chair arm, a table 2361a,b can be added in an existing foot print of associated chairs. The partition 2362a,b and table 2361a,b may slide in between the recliner feet. Alternatively, or additionally, the partition 2362a,b and/or table 2361a,b may be anchored to a venue floor. While not shown in FIG. 23A or 23B, a partition 2362a,b and/or table 2361a,b may serve as a barrier between chairs with tall risers. A table 2361a,b may extend over multiple arms (e.g., in some cases chairs have double arms next to each other). In those cases a wider partition 2362a,b and/or table 2361a,b, or double tables, may be incorporated.

A seating assembly may include at least one chair and at least one tray. The at least one tray may be reorientable with respect to the at least one chair. The seating assembly may also include at least one electrical component attached to the tray. The seating assembly may further include at least one electrical conductor extending from the chair to the at least one electrical component. The at least one electrical component may be relocated from a first location to a second location when the at least one tray is reoriented with respect to the at least one chair. The at least one electrical component may be an illumination source attached to a bottom of the at least one tray. The at least one electrical conductor may be a flexible electrical cable. The electrical conductor may include a first portion attached to the at least one chair and a second portion attached to the at least one tray with one of: at least one linearly sliding contact between the first portion and the second portion, at least one rotating contract between the first portion and the second portion, or a wireless connection between the first portion and the second portion. The at least one chair may include a cup holder in an associate arm rest. The at least a portion of the at least one electrical conductor may be routed: through the cup holder, adjacent the cup holder, through a cup holder support, adjacent a cup holder assembly, or through a cup holder assembly. The at least one tray may include a cup holder. The at least a portion of the at least one electrical conductor may be routed: through the cup holder, adjacent the cup holder, through a cup holder support, adjacent a cup holder assembly, or through a cup holder assembly.

A seating assembly may include at least one chair and at least one tray. The at least one tray may be reorientable with respect to the at least one chair. The at least one tray may be biased in at least one of; an in-use orientation or an open orientation via a tray biasing mechanism. The seating assembly may also include at least one electrical component attached to the tray. The seating assembly may further include at least one electrical conductor extending from the chair to the at least one electrical component. The at least one electrical component is relocated from a first location to a second location when the at least one tray is reoriented with respect to the at least one chair. The at least one electrical component may be selected from the group: an illumination source, an electrical power outlet, or a data outlet. The at least one electrical conductor may include a first portion and a second portion. The first portion may be electrically connected to the second portion via a sliding connection. The at least one chair may include a cup holder in an associate arm rest. The at least one tray may include a tray pivot. The tray pivot may be pivotally received within the cub holder. The at least a portion of the at least one electrical conductor may be routed through the cup holder and the tray pivot. The at least one tray may be pivotally attached to the at least one chair via a tray attachment. The at least a portion of the at least one electrical conductor may be routed through the tray attachment or adjacent the tray attachment.

In a further embodiment, a seating assembly may include at least one chair and at least one tray attached to the at least one chair via a tray attachment. The at least one tray may be reorientable with respect to the at least one chair. The at least one tray may be biased in at least one of; an in-use orientation or an open orientation via a tray biasing mechanism. The seating assembly may include at least one electrical component attached to the tray and at least one electrical conductor extending from the chair to the at least one electrical component. The at least one electrical component may be relocated from a first location to a second location when the at least one tray is reoriented with respect to the at least one chair. The tray attachment may include a cup holder in an associate chair arm rest. The at least one tray may include a tray pivot. The tray pivot may be pivotally received within the cub holder. The at least one chair may include a first chair arm rest on a first side of a chair seat and a second chair arm rest on a second side of the chair seat. The at least one tray may span at least from the first chair arm rest to the second chair when the tray is in an in-use orientation. The at least one tray may be linearly reorientable with respect to the at least one chair. The at least one tray may be pivotably reorientable with respect to the at least one chair.

Turning to FIG. 24, a venue information communication system 2400 (e.g., a concessions system, a venue trivia interaction system, a venue advertisement system, a customer loyalty system, etc.) may include a venue interface 2405, a user device 2415 (e.g., a smart-phone, a personal electronic device, a tablet computing device, etc.), and a user wearable device 2420 (e.g., a smart-watch, a wrist notification device, etc.). The venue interface 2405 may be attached to a chair, a table, a tray, a support structure, etc. The venue interface 2405 may include a display 2406 (e.g., an e-ink display, a touch screen display, a liquid crystal display, a light emitting diode display, etc.), a call button 2410, a near field communication connection indicator 2407, a first USB port 2408, a second USB port 2409, a call button 2410, a first wireless power charging pad 2411, and a second wireless power charging pad 2412. The user device 2415 may include a display 2416 and a USB port 2417. The user wearable device 2420 may include a display 2421.

The display 2406 may, for example, include a QR code. When a user scans the QR code with the user device 2415, a venue menu may be displayed 2416. Once the user scans the QR code, the display 2406 may change to include user selectable icons that allow the user to, for example, order concessions. Subsequently, the display 2406 may change to various venue advertisements, trivia screens, future event ticket purchase screens, etc.

This detailed description is to be construed as exemplary only and does not describe every possible embodiment, as describing every possible embodiment would be impractical, if not impossible. One could implement numerous alternate embodiments, using either current technology or technology developed after the filing date of this application.

Number	Name	Date	Kind
2797973	Emmettl	Jul 1957	A
5489138	Mariol	Feb 1996	A
20070247836	Seidl	Oct 2007	A1
20120074739	Fields	Mar 2012	A1
20180049585	Crosby	Feb 2018	A1

Number	Date	Country
102013203920	Sep 2014	DE
2018095052	Jun 2018	JP

Number	Date	Country
62911052	Oct 2019	US
62871162	Jul 2019	US
62816707	Mar 2019	US

	Number	Date	Country
Parent	16181585	Nov 2018	US
Child	16788280		US
Parent	PCT/US2018/046569	Aug 2018	US
Child	16181585		US
Parent	15710768	Sep 2017	US
Child	PCT/US2018/046569		US
Parent	15640946	Jul 2017	US
Child	15710768		US

Chair assemblies, table assemblies, modular components for use within chair assemblies and table assemblies, and parts for use within the modular components

Information

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Date Filed

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CPC

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CPC

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Abstract

Description

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CROSS REFERENCE TO RELATED APPLICATIONS

US Referenced Citations (5)

Foreign Referenced Citations (2)

Related Publications (1)

Provisional Applications (3)

Continuation in Parts (4)