The present invention relates to fixed seats and seating arrangements and, more particularly, to fixed seats arranged in rows at an auditorium or theater or the like.
Typically, seats or chairs are fixedly arranged in auditoriums or theaters or the like in a plurality of rows, with the rows sometimes being curved or arcuate so that each chair is oriented or slightly angled so as to be directed generally toward the center region of the stage or screen or the like. The chairs in adjacent rows are often staggered, so that a chair in one row is not directly behind another chair in the row that is immediately in front of the one row, in order to enhance the view for the people sitting in the chairs. However, in order to arrange the chairs in multiple rows in this manner, multiple chair sizes or chair widths are implemented and arranged so that the final installed chairs are in the planned or desired location and orientation. The chairs thus are arranged so that the end chairs of sequential or adjacent rows are different sizes and/or other chairs along the rows are different sizes so that the chairs (or center lines of the chairs) of one row are staggered or not aligned with chairs (or center lines of chairs) in the row immediately forward or rearward of the particular row. The selected chair sizes for at least some of the chairs thus may be different to provide such an arrangement.
The chair sizes are selected and arranged on the layout so that the chairs, when eventually installed, will provide optimum viewing and proper spacing of the chairs along each row of chairs. In order to position the chairs in this manner, there is a great deal of careful planning involved, where a layout is generated of the seating facility and the appropriate chair size is selected or targeted for each seating location along each row. For example, a typical seating arrangement may include chairs having widths ranging from about 19 inches to about 23 inches (such as, for example, 19 inch wide chairs, 21 inch wide chairs and/or 23 inch wide chairs). For each size of chair, the chair typically includes several size specific components to properly assemble and install that specific sized chair.
The chairs positioned along each row thus may have multiple widths, with each chair of one width having different components (such as different back or seat mounting brackets, seat cushions, back rests, seat supports or bases and the like) than the chairs of another width. Also, the mounting brackets or bases of the chairs must be irregularly spaced to accommodate the different width of the chairs in each row (and to ensure that both ends of each row generally align with the respective aisles). Thus, prior to the installation process, the seating layout is carefully planned and designed and the appropriate components (for example, the appropriate number of each of the different back rests, seats, frames, brackets and the like) are ordered and manufactured and shipped to the seating facility. Once a layout is generated, the appropriate chairs and components are ordered/manufactured/shipped to the seating facility along with the installation plan or layout, so that the chairs may be installed at the seating facility or theater or auditorium or the like. At the seating facility, careful planning and installation is required in order to install the appropriate chairs (and associated components) at the appropriate or selected or designed location.
However, there are often many chairs installed in the wrong location (as compared to the planned layout), such as, for example, a 21 inch wide chair (with a 21 inch wide seat cushion and back rest and corresponding frame) being installed at a location targeted for a 19 inch wide chair. Such errors may be due to operator error in reading and/or understanding the printed layout or plans, and result in the rows of chairs not being optimally installed as planned. Also, because some chairs are installed at different or incorrect locations along a row, other chairs along the row may be adversely affected. This often results in revisions in the field to adjust the seating plan and to install different chairs and/or chair components (such as different width chairs and the associated different components) so that the rows of chairs may be completed and may properly terminate at or near the aisles. Such field or installation revisions to the planned layout results in a different number of chairs of any given size or width being installed than what was set forth in the planned layout.
Additionally, there are often dimensional discrepancies between the original building or facility plan and the final construction of the building or facility, often resulting in further onsite revisions to the seating layout, which is typically designed based on the building plan dimensions. Thus, due to the typical changes in the chair installation as compared to the original plans, there are often extra parts or components of one or more of the different size/width chairs and a shortage of other parts or components after the installation is complete or nearly completed. Even though the chair manufacturer carefully plans the layout and the chairs and components are inadvertently or improperly installed in a manner that is different than the planned layout, the manufacturer often is contacted by the installers or by the facility or contractor to correct the problem and provide the additional parts for which there is a shortage, which results in additional costs to the manufacturer/supplier of the chairs.
Therefore, there is a need in the art for chairs or seat assemblies and seating arrangements for theaters and auditoriums and the like that overcome the shortcomings of the prior art.
The present invention provides a modular chair or seat assembly and adjustable seating arrangement and installation method that includes a plurality of seat assemblies or chairs that are arrangable in rows and that are adjustable to accommodate the desired location and spacing and orientation of the seat assemblies. The seat assemblies or chairs of the present invention include common support mechanisms or assemblies, and include adjustable arms or arm assemblies that are laterally adjustable to provide the desired spacing between the seat assemblies or chairs of each of the multiple rows at the seating facility. The seat assemblies or chairs of the present invention may be readily installed, with little or no customization of the seat assemblies and seat components for the seat assemblies with different width specifications in the planned layout or seating arrangement.
According to an aspect of the present invention, a method of fixedly installing a plurality of seat assemblies along multiple rows at a seating facility includes providing a plurality of common support assemblies, each having a base portion, a seat support portion and a back rest support portion. A plurality of first and second seat portions and a plurality of first and second back rests are provided. The first seat portions have a different width than the second seat portions and the first back rests have a different width than the second back rests. The base portions are mounted at a support structure of the seating facility, and are arranged in multiple rows at the support structure and are spaced from one another along the rows. The seat support portions and the back rest support portions are mounted to the base portions. The seat support portions are pivotable relative to the base portions to pivot the seat support portions between a lowered in-use position and an upper storage position. One of the first and second seat portions and one of the first and second back rests are selected for each of the support assemblies. The selected seat portions and back rests are attached to the seat support portions and the back rest support portions, respectively, of the support assemblies. An arm is mounted to each of the support assemblies, and a lateral position of at least some of the arms is adjusted relative to the support assemblies to adjust an effective width of at least some of the seat assemblies. The seat assemblies thus may have different sized or width back rests and seats attached thereto, and may have the lateral arm position adjusted accordingly so as to provide different width seat assemblies along the rows of seat assemblies, while providing common support assemblies for all of the seat assemblies.
Desirably, the seat assemblies may be assembled as individual units before installation at the seating facility, whereby the fully assembled seat assemblies may be installed at the appropriate locations at the seating facility. For example, the seat manufacturer may assemble the seat assemblies and ship the seat assemblies to the seating facility. The people installing the seat assemblies at the seating facility may then readily mount the base portions of the support assemblies to the appropriate support structure (such as the floor of the seating facility or a support beam at the seating facility or the like, or such as to a base portion or element fixedly attached to a support structure or floor of the seating facility) to install the fully assembled seat assemblies at the support structure. Optionally, the seat assemblies may be provided as fully assembled units that may be readily attached to respective base portions or mounting portions that are first installed at the appropriate locations at the seating facility. Optionally, however, the seat assemblies may be assembled at the seating facility as part of the installation process.
According to another aspect of the present invention, a seating system includes a plurality of seat assemblies that are arranged in rows of seat assemblies at a seating facility. Each of the seat assemblies includes a common support assembly and an arm adjustably mounted to a respective one of the common support assemblies. The common support assembly supports a respective seat portion and back rest. The arm is adjusted relative to the support assembly to provide a desired effective width of each of the seat assemblies. The arm is adjusted to a different position relative to the support assembly for at least some of the seat assemblies to provide the desired spacing of seat assemblies along the rows of seat assemblies. The seat assemblies may have different sized or width back rests and seat portions attached thereto to provide different width seat assemblies along the rows of seat assemblies.
According to another aspect of the present invention, a seat assembly for a seating facility includes a base portion or element that is fixedly securable at the seating facility. The seat assembly is adaptable for different seat sizes and orientations. The seat assembly includes a back rest support mounted to the base portion and a seat support pivotally mounted to the base portion. The seat support pivots through a fold angle between a raised orientation and a lowered orientation. The seat assembly is adjustable to adjust the fold angle of the seat support. The seat assembly includes a back rest mounted on the back rest support and a seat mounted on the seat support.
According to yet another aspect of the present invention, a seat assembly for a seating facility includes a base portion or element that is fixedly securable at the seating facility. The seat assembly is adaptable for different seat assembly sizes and orientations. The seat assembly includes a back rest support adjustably mounted to the base portion and a seat support pivotally mounted to the base portion. The back rest support is adjustable to adjust a tilt angle of the back rest support relative to the base portion. The seat assembly includes a back rest mounted on the back rest support and a seat cushion or seat portion mounted on the seat support.
According to another aspect of the present invention, a seat assembly for a seating facility includes a base portion or element that is fixedly securable at the seating facility. The seat assembly is adaptable for different seat assembly sizes and orientations. The seat assembly includes a back rest support mounted to the base portion, a seat support pivotally mounted to the base portion, and an arm support for supporting an arm of the seat assembly. The arm support is adjustably mounted to the back rest support to adjust an effective width of the seat assembly. The seat assembly includes a back rest mounted on the back rest support and a seat portion mounted on the seat support.
Therefore, the present invention provides a seat assembly and seating system and method of installing a plurality of seat assemblies for a fixed seating facility, such as a theater or auditorium or the like, where the chairs or seat assemblies may have common base portions and seat supports and back rest supports, and are adjustable or adaptable to adapt the seat assemblies for the particular application. The seat assemblies are adjustable to adjust the position and orientation of an arm rest of the seat assemblies and/or may be adjustable to adjust a tilt angle of the back rests of the seat assemblies and/or may be adjustable to adjust a fold angle of the seat portions of the seat assemblies. The seat assemblies thus may be adjustable to accommodate the planned layout of the rows of seat assemblies at the seating facility (and/or at other seating facilities), without customized components for each different sized or different width or different style seat assembly. The seat assemblies thus may be readily installed at a seating facility with reduced installation errors and enhanced field adjustability and, thus, an enhanced finished product at the seating facility.
These and other objects, advantages, purposes and features of the present invention will become apparent upon review of the following specification in conjunction with the drawings.
Referring now to the drawings and the illustrative embodiments depicted therein, a modular seat assembly or chair assembly 10 includes a support assembly 12 that supports a seat portion 14 and a back rest portion 16 and an adjustable arm support 18 (
Support assembly 12 includes a base or base portion 22 and a seat support and pivot mechanism or assembly or seat lift mechanism or assembly 24 and a back rest support member 26 (
In the illustrated embodiment, base portion 22 comprises a floor mounted base or post for securing to a floor or support structure (such as via fasteners or bolts or the like securing a base plate to the floor of the seating facility). The seat support and pivot mechanism 24 may be bolted or otherwise attached to the base portion 22, such as via fasteners or bolts or the like, to secure the seat support and pivot mechanism 24 to the base portion 22 and in the desired location at the seating facility. Although shown as a floor mounted base portion, the seat assembly may be mounted to other support structures or the like via other types of base or mounting portions, such as a platform mount, a riser mount, a beam mount, a rocker mount, a riser rocker mount, a slope mount or a multi-slope mount or rocker (where the base portion may be adjusted to adjust an angle of the seat support and pivot mechanism relative to the support surface at which the base portion is mounted), such as, for example, base structures of the types shown at A in
Seat support and pivot assembly or mechanism 24 includes a base portion or member or element 30 that attaches to the base portion 22 and that receives or attaches to the back rest support member 26. Base element 30 supports an upper pivot link or member or element 32 and a lower pivot link or member or element 34, which are each pivotally attached to base element 30 at one end and to a seat support member or bracket or element 36 at the other end. The upper and lower pivot elements 32, 34 and seat support element 36 cooperate to define a mechanical linkage that pivots relative to the base element 30 to raise and lower the seat portion 14. The mechanical linkage provides for a range of adjustment of the seat portion 14 between a lowered position (as shown in
As best shown in
Optionally, base element 30 may include a mounting slot 30f (
The seat support and pivot assembly 24 thus may be fully assembled, and may even have the arms and seat and back rest cushions attached thereto (as discussed below), whereby the fully assembled or at least partially assembled seat assembly may be readily attached to the base portion 22 by an operator (who may position the base element relative to the base portion so as to receive the tab and retaining element in the slot of the base element, and may hold or steady the seat assembly with one hand while readily driving the threaded fastener through the flange 22a to secure the seat assembly to the base portion 22). Thus, the seat assembly may be assembled at the base portion or may be assembled before attaching the base element to the base portion, depending on the desired approach of the installation operators and/or the particular application of the seat assemblies and seating system. The base portions thus may be secured to the floor at the desired and predetermined or planned spacings and the seat assemblies with common support assemblies may be readily mounted to the base portions or assembled at the base portions to complete the installation of the seating assemblies and seating system, as discussed below.
Base element 30 includes an upper pair of openings or apertures 30a for pivotally attaching upper pivot element 32 to base element and a lower pair of openings or apertures 30b for pivotally attaching lower pivot element 34. Base element 30 receives a lower end of the back rest support member 26, which may be adjustably attached to the base element 30, such as discussed below.
Upper pivot element 32 includes a pair of opposite side plates 32a and an upper cross member or plate 32b connecting the side plates 32a. The side plates 32a include rear mounting apertures 33a for pivotally mounting upper pivot element 32 at the apertures 30aa of base element 30a, such as via a pivot pin or axle 38a or the like. The side plates 32a also include forward mounting apertures 33b for pivotally attaching the seat support element 36 to upper pivot element 32, such as via a pivot pin 38b or the like. In the illustrated embodiment, upper pivot element 32 includes a bracing notch 33c formed along a lower edge region of the side plates 32a and generally below the forward mounting apertures 33b. The bracing notch 33c engages a pivot pin 38c or fastener or the like at the lower pivot element 34 when the seat support is lowered to the lowered or in use position. Thus, the bracing notch and side plates 32a of upper pivot element 32, when engaged with the pivot pin 38c at or near the side plates 34a of the lower pivot element 34, limits side-to-side or lateral movement or displacement of the seat support element and seat portion relative to the base portion, and thus provides enhanced structural rigidity to the seat support mechanism when the seat support element is lowered to the lowered or in-use position, as discussed below.
Lower pivot element 34 includes a pair of opposite side plates 34a and a lower cross member or plate 34b connecting the side plates 34a. The side plates 34a include rear mounting apertures 35a for pivotally mounting the lower pivot element at the apertures 30b of base element 30, such as via a pivot pin 38d or the like. The side plates also include forward mounting apertures 35b for pivotally attaching the seat support element 36 to upper pivot element 34, such as via pivot pin 38c.
In the illustrated embodiment (and as best shown in
Lower pivot element 34 includes a biasing element or spring 42 at the pivot mount or junction between lower pivot element 34 and base element 30. The spring 42 may be retained at lower pivot element 34 (and between the sidewalls 34a of lower pivot element 34) via pivot pin 38d, such as via pivot pin 38d received through a spring mounting bearing or support 43 (
In the illustrated embodiment, lower pivot element 34 includes one or more mounting flanges 34c (
Seat support element 36 includes a pair of opposite side plates 36a and a cross member or plate 36b connecting the side plates 36a. Side plates 36a include upper mounting apertures 37a for pivotally attaching the seat support element 36 at the forward apertures 33b of upper pivot element 32 via pivot pin 38b and lower mounting apertures 37b for pivotally attaching the seat support element 36 at the forward apertures 35b of lower pivot element 34 via pivot pin 38c. Seat support element 36 includes a seat mounting portion or member or frame or element 46, which may be integrally formed with or welded or otherwise attached to the seat support element and extends outwardly therefrom. For example, and optionally, a seat mounting member 146 (
In the illustrated embodiment, seat mounting member 46 comprises a generally triangular-shaped flange or formed member. The seat mounting member 46 is configured to attach to a seat portion 14, and may be sandwiched between the upper seat portion or cushion 14 and a lower seat portion or casing 15 (such as shown in
The seat portion 14 and/or the lower cover or casing 15 may be secured relative to the seat mounting member 46 via any securing or fastening elements or means, such as via bolts or fasteners or snap connectors or the like, or may be secured or snapped together around the seat mounting member with the seat mounting member clamped or secured therebetween, without affecting the scope of the present invention. The lower casing and seat portion thus may be secured together in a clamshell type manner to secure the lower casing and seat portion to the seat mounting member. Optionally, and as shown in
The upper and lower pivot elements 32, 34 and the seat support element 36 thus pivot relative to one another and relative to the base element 30 of the seat support and pivot mechanism 24 as the seat mounting member 46 and seat portion 14 are raised and lowered by a user. The dual linkage arrangement provides pivotal movement of the seat support element relative to the base element about four pivot axes (as defined by the pivot pins 38a-d), which allows for easier pivotal movement (such as by a person lowering the seat portion to the lowered position) and allows for the substantial locking support of the pivot linkages and the seat support element when the seat support element is in the lowered position (via the engagement of the bracing notch 33c of the upper pivot element 32 with the pivot pin 38c of the lower pivot element 34). As can be seen in
When the seat assembly is not in use, the seat portion may be readily pivoted or raised upward to its raised or stored position (
Further pushing or urging of the seat support element 36 toward the seat back (such as may occur when a person pushes or moves the seat cushion further toward the seat back to make additional room for a person to pass down the row of seat assemblies) pushes the seat stop 44 against the ends or legs 42b of spring 42 and moves seat stop 44 along the flanges 34c of lower pivot element 34 (so that the surfaces 44b of seat stop 44 are spaced from the stop tabs 34d as can be seen in
As can be seen with reference to
Seat support and pivot mechanism 24 also supports the back rest support member 26, which is received in or attached to the seat support and pivot mechanism 24 and which extends generally upwardly therefrom. Back rest support member 26 comprises an elongated, curved member that may curve to correspond to the desired contour or curvature of the back rest portion 16 that is attached thereto. The back rest portion 16 may be attached to the back rest support member 26 via any attachment means, such as fasteners or bolts or screws or snap connectors or the like, and/or may include a rear casing (such as a rear casing 17a (
The lower end 26a of back rest support member 26 is received within the base element 30 of the seat support and pivot mechanism 24. In the illustrated embodiment, back rest support member 26 is pivotally attached to the base element 30 via pivot pins 38a and 38d through the apertures 30a, 30b of base element 30 and through the corresponding apertures 26b, 26c of back rest support member 26. As shown in
Optionally, and as shown in
The back rest support member supports cross member or arm mounting member 28 for adjustably attaching the adjustable arm support 18 to the support assembly 12. The arm mounting member 28 may be received in a notch 52 in the back rest support member 26 (as can be seen with reference to
The arm support 18 comprises a curved or bent or formed member with a mounting end or portion 18a and an arm support end or portion 18b. In the illustrated embodiment, the arm mounting member 28 comprises a tubular member that adjustably receives mounting end 18a of arm support 18 therein. Optionally, the mounting end of the arm support may receive an end of the arm mounting member, without affecting the scope of the present invention. Lateral movement or adjustment of the mounting end 18a of arm support 18 relative to the arm mounting member 28 adjusts the lateral position of the arm support portion 18b and arm rest 20 relative to the support assembly 12 and base portion 22. The arm support 18 may be selectively laterally adjusted relative to arm mounting member 28 and then secured to the arm mounting member 28 when in the desired or appropriate location relative to the arm mounting member 28. For example, and as shown in
Optionally, and as shown in
Arm rest 20 may be adjustably mounted to or attached to the arm support portion 18b of arm support 18, such that the lateral position and angle of the arm rest 20 may be adjusted relative to the arm support 18. For example, arm rest 20 may include slots for receiving fasteners (such as fasteners 21 as shown in
Optionally, the arm rest may be otherwise adjustably mounted to the arm support portion to allow for adjustment of the angle and lateral position of the arm rest relative to the arm support portion and to the seat assembly, without affecting the scope of the present invention.. For example, and with reference to
For example, the arm rest 20′ may be placed onto the arm support 18′, with the retaining member 54′ inserting into the rear channel 56′ and the adjustable tab 58′ loosely received in the front channel 62′ of arm rest 20′. The side-to-side or lateral position and the angle of the arm rest relative to the longitudinal axis of the arm support portion may then be adjusted to provide the desired lateral position and angle of the arm rest. As can be seen in
The lateral position of the arm support relative to the back rest support member 26 and the lateral position and angle of the arm rest relative to the arm support thus may be readily adjusted in the field and during the installation process to provide the desired effective width and angle of the seat assembly. When multiple seat assemblies are installed in a row, there are often different sizes or widths of seat assemblies implemented in the row to provide the desired viewing and desired overall length of the row with the desired or appropriate number of seat assemblies in that row. The base portions and support assemblies of the present invention may be spaced in a desired manner along the row and the arm support may be adjusted to provide the desired lateral position of the arm rest, while the seat supports and back rest supports may support the seats and back rests of the desired or appropriate widths. The seat assemblies of the present invention thus may provide the desired or appropriate width seat assemblies along the row, while having common seat support assemblies and base portions for all of the seat assemblies in the row or rows. The adjustable arm support facilitates field adjustability of the arm rest position to create multiple sizes (or effective widths) of seat assemblies from the same common components, thus decreasing the number of products required in the particular installation.
Optionally, other common support assemblies or pivot assemblies may be utilized in a modular seating system while remaining within the spirit and scope of the present invention. For example, and with reference to
Similar to seat assembly 10 described above, seat support and pivot mechanism 124 of seat assembly 110 includes a base element 130 that attaches to the base portion 122 and that receives or attaches to the back rest support member 126. Base element 130 pivotally supports an upper pivot member 132 and a lower pivot member 134, which are each pivotally attached to base element 130 at one end and to a seat support element 136 at the other end. The upper and lower pivot members 132, 134 and seat support element 136 cooperate to define a mechanical linkage that pivots relative to the base element 130 to raise and lower the seat portion 114, such as described above.
Lower pivot element 134 may include a recess for receiving a biasing element or spring 142 therein. The spring 142 may be retained at or within the recess and/or lower pivot element 134 via pivot pin 138c, and may function to urge or bias the seat support element 136 toward its raised position. In the illustrated embodiment, lower pivot element 134 also includes a mounting stanchion for attaching a seat stop mount 144 thereto. The seat stop mount 144 pivotally or adjustably receives or mounts an elastomeric or rubber or polymeric stop element 144a for engaging the pivot pin 138b when the seat support is raised to its raised or non-use position, in order to limit the upward pivotal range of movement of the seat. The stop element 144a may provide different stop surfaces 145a, 145b for engaging the pin 138b, such that rotation of the stop element 144a will result in a different upright position of the seat support, as discussed below.
When the seat assembly is not in use, the seat portion may be pivoted or raised upward to its raised position, and may be biased toward the raised position via the biasing element 142. Biasing element 142 comprises a torsion spring and functions to urge or bias the seat support element 136 to pivot about pivot pin 138c relative to lower pivot element 134. As the seat support element 136 is pivoted relative to lower pivot element 134, upper pivot element 132 pivots downward relative to base element 130, while lower pivot element 134 also pivots downward relative to base element 130. When the seat portion is fully raised, pivot pin 138b engages stop element 144a to limit further movement of the seat portion. The stop element 144a may provide a raised stop surface 145a for limiting upward pivotal movement of the seat portion at a first location and a lowered stop surface 145b for limiting upward pivotal movement of the seat portion at a second location (that is higher or further than the first location). The fold angle or degree of upward pivotal movement may be adjusted by rotating the stop element 144a about 180 degrees so that the pin 138b engages the desired stop surface of the stop element. For example, the stop surfaces may be selected to limit the fold angle to a half fold angle or a full fold angle, depending on the desired seat orientation when not in use and, thus, depending on the particular application of the seat assembly.
Optionally, the back rest support member of the seat assembly may be adjustably mounted to the base element of the pivot assembly. For example, the back rest support member 126 may be adjustably mounted in a manner such as described above with respect to back rest support member 26, or may be otherwise adjustably mounted to allow for selective pivoting or angling of the back rest support member relative to the base element to provide the desired degree of tilt of the back rest support member. For example, and with reference to
In the illustrated embodiment, the lower plate 134b of lower pivot element 134 includes an aperture or opening or slot 135c, which may provide access to the adjustment device 150 for adjusting the back rest support 126. The adjustment device 150 may be accessible from outside the base element 130 (such as through the opening or slot 135c in the lower pivot element 134 and from the front of the base element 130), whereby rotation of the adjustment device 150 relative to the adjustment member 148 causes translational movement of the adjustment member 148, which in turn imparts a pivotal movement of the back rest support member 126 about the pivot pin 138a to adjust the angle of the back rest support member. The tilt angle of the back rest support member 126 thus may be adjusted to the desired angle or setting, depending on the particular application of the modular seat assembly of the present invention. For example, the adjusting device may be adjusted to adjust the tilt angle or set back pitch of the back rest between about 12 degrees and about 24 degrees (or more or less), as desired. Although shown and described as having a threaded adjustment element that is rotated to adjust the tilt angle of the back rest support element relative to the base element, other means for adjustably mounting the back rest support member to the base element may be implemented, without affecting the scope of the present invention.
Accordingly, when a seating arrangement for a facility (such as an auditorium or theater or other facility suited for fixed seating) is selected or designed by a customer, the design of the particular seating layout and installation of the seat assemblies are substantially enhanced by the seating assembly and installation method of the present invention. Instead of having to design and select the different width seat assemblies and corresponding mounting brackets and other associated and size/design specific components, the designer need only determine the number of common support assemblies that are needed for each row and then determine the spacing and arm positions and seat widths and back widths for the seat assemblies of each row. All of the support assembly components and arm components are common components or elements (except that the end seat assembly at one end of each row may include a second arm assembly), such that order errors and shortages are limited or substantially precluded by the common or universal seat assemblies of the present invention. The different width seat portions and back rest portions may be readily installed to the appropriate seat supports and the arm may be readily adjusted to the desired position and orientation, in order to customize the seat assemblies for their particular application and location along the rows of chairs or seat assemblies.
Once the seating layout is designed (and thus a layout is generated that shows the number of seat assemblies in each row and which seat assemblies are of which size, such as which seat assemblies should be a 19 inch wide seat, a 21 inch wide seat or a 23 inch wide seat), an installer at the seating facility may follow the layout and attach the base portions at the appropriate locations along each row. For example, the installer may fasten or otherwise secure the base portions to the floor of the facility and at the designated or targeted locations along the rows. The common support assemblies are attached to the respective base portions, and the arm supports and arm rests may be adjusted to the desired position and orientation. In an exemplary embodiment of the seating assemblies of the present invention, the arm supports and arm rests may be adjusted to provide a range of effective widths of seats between about 19 inches and about 23 inches. If desired, different width seat cushions and back rest cushions may be attached to selected ones of the common support assemblies to provide different seating widths. The width or size of each seat assembly thus may be determined by the particular location at which the base portion is mounted along the floor, and the arm rest may then be adjusted accordingly during the installation process.
The installer may readily attach the seat cushion or portion and cover and the back rest and cover to the common support assemblies, such that the seat assemblies are substantially preassembled and ready for attachment to the appropriate base portions already secured to the floor (or other support) of the facility. Optionally, the common support assemblies may first be assembled and mounted to the installed base portions before the seat portions and back rests are attached to the support assemblies. Then, the installers may mount and adjust the arms and arm rests to the appropriate lateral position and angular orientation for the targeted or specified seat width of the respective support assembly, and may attach the appropriate width seat portions and back rests to the support assemblies to complete the assembly and installation of the seat assemblies.
The assembly and installation of the seat assemblies is thus substantially enhanced over prior art systems, since the only design specific or plan specific or layout specific components are the different width seat portions and back rests, if desired. All of the other components of the seat assemblies are common with all of the seat assemblies. Thus, the installers may install the common support assemblies to the common base portions without regard to any specific parts or part numbers, and then may install the layout specific seat portions and back rest portions to the appropriate support assemblies and may also adjust the arms and/or arm rests accordingly.
Optionally, if desired, the tilt angle of the back rest support and back rest may be adjusted to provide a desired degree of recline of the back rest, and/or the fold angle of the seat support and seat cushion may be adjusted to provide a desired degree or fold angle of the seat cushion when in the raised or non-use or storage position. Such adjustments may be made at the manufacturer or at the seating facility to customize the seating assemblies for the particular application and desired seating arrangement. Thus, when the support assemblies are shipped to the facility, the support assemblies may be set or adjusted for the particular design or plan as selected by the customer, yet will comprise the same or common parts and components as other support assemblies supplied by the seat manufacturer for other designs or layouts or facilities.
The common or universal support assembly and seat assembly of the present invention thus may be implemented in various applications or facilities, whereby the desired seat cushion, back rest and arm rest may be selected and installed, and the desired tilt angle, fold angle and effective width of the seat assemblies (as established by the selected seat portion and back rest and by the position of the arm rest) may be established during the installation process. For example, a desired pattern and/or color and/or shape/design of the seat cushions and back rests and the like may be selected for the seat assemblies of a particular facility or installation site, and the common support assemblies of the seat manufacturer may be supplied to the facility with the particular seat cushions and back rests, whereby the seat assemblies may be readily assembled with the desired or selected seat cushions and back rests and the like, and readily installed at the particular facility, with minimal planning of what components are necessary at the build site (since a vast majority of the components are common for each seat assembly so that only the number of seat assemblies need be known to plan the components to be shipped). Some or all of these adjustments may be made at the seat manufacturer or may be made by the installers at the seating facility during installation of the seat assemblies. Regardless of the desired external appearance of the seats as selected/designed by the customer, and regardless of the widths of the individual seats as set forth by the planned layout, the support assemblies and arms are common components for any application or facility and for each of the seats installed at any given facility.
The present invention thus provides simplified field layout development and simplified installation of the finished products, with fewer field errors and supply errors (such as overages and/or shortages of various components) and additional field adjustment capabilities. Because the seat assemblies or chairs of the present invention provide common support assemblies, the present invention also facilitates future changeover and/or enhancements of the seat cushions, back rests, arm rests and/or associated encasements, since these external components or items may be removed from the seat support and replaced as desired, without having to remove and replace the entire seat assemblies.
Therefore, the present invention provides a seating assembly or seating system or installation method that provides a systems approach to fixed seating that allows the creation of a wide range of products from a basic or common or core set of components. The seating system provides reduced complexity in the specification of the products or seat assemblies, and also provides reduced complexity in the manufacturing of the seat assemblies, since the common components may be readily manufactured and assembled in substantially the same manner for substantially all of the seat assemblies. The seating system of the present invention also provides reduced complexity in the design and installation of the seating system, since the field layout may be readily created and the common seat assemblies may be readily installed with reduced field errors and reduced ordering or supply concerns.
Changes and modifications to the specifically described embodiments may be carried out without departing from the principles of the present invention, which is intended to be limited only by the scope of the appended claims as interpreted according to the principles of patent law.
The present application claims the benefit of U.S. provisional application Ser. No. 60/670,444, filed Apr. 12, 2005 (Attorney Docket IRW02 P-321), which is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
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60670444 | Apr 2005 | US |