Patent Grant
11686089
The present innovation relates to assemblies that can be utilized to define a work space in within a building (e.g. a room of a building) and methods and mechanisms used to make and use the same.
Work areas can often be defined within a room or floor of an office building or other structure. In many different types of situations, a particular area of such a room or office floor may have different work spaces defined. Cubicles, for example, can be utilized to form such work spaces for different personnel. In some instances, a room or enclosure may be desired to be formed in the room or office floor.
For instance, some types of enclosures can be defined by use of tables or desks and privacy screens. Examples of privacy screens can be appreciated from U.S. Pat. Nos. 9,920,520, 8,365,798, 7,789,025, 7,310,918, 6,896,028, 6,367,213, 6,002,613, 6,000,180, 5,966,879, 5,675,946, 5,680,893, 5,287,909, 4,325,597, 4,248,325, and 2,821,450, U.S. Design Pat. Nos. D800,459, D796,216, D653,862, D458,040, D457,359, and D427,783 and U.S. Patent Application Publication Nos. 2017/0226749 and 2012/0304441.
As another example, enclosures can be defined in a room or office floor by use of a cubicle type system, partition type system, or other type of enclosure forming assembly. Examples of such mechanisms can be appreciated from U.S. Patent Application Publication No. 2018/0245334, 2005/0011138, and 2004/0018740, and U.S. Pat. Nos. 2,881,876, 4,377,195, 4,535,577, 4,555,880, 4,881,353, 4,905,428, 4,949,518, 4,993,205, 4,996,811, 5,003,740, 5,005,325, 5,038,539, 5,155,955, 5,159,793, 5,282,341, 5,309,686, 5,809,708, 5,930,963, 6,052,958, 6,131,347, 6,152,048, 6,223,485, 6,276,102, 6,339,907, 6,349,516, 6,378,255, 6,389,773, 6,446,396, 6,726,034, 6,772,567, 7,908,805, and 8,967,054.
An enclosure assembly apparatus and methods of the making and using the same are provided herein. Embodiments can be configured to facilitate a relatively quick assembly that can allow for adjustments to account for uneven, non-level flooring. Some embodiments can also be configured to facilitate securing portions of an enclosure apparatus to a floor in a relatively quick assembly process.
We have determined that some enclosure assembly systems can be time consuming to utilize to form an enclosure. Further, such systems can be relatively difficult to assemble due to a number of assembly related complications associated with such system designs. Embodiments of our enclosure assembly apparatus and methods of making and using the same can help address such problems.
In some embodiments, an enclosure assembly apparatus can include a rail for attachment to a floor and a rail connector that includes a first part and a second part where the first part is separable from the second part. The rail can have a channel for facilitating attachment of the rail connector to the rail. The channel can be sized and configured so that the first part and the second part are positionable in the channel when separated such that the first part is positionable adjacent to the second part in the channel to form an assembled body of the rail connector.
In some embodiments, the first part can have at least one foot and the second part can have at least one foot. The rail can have sidewalls that extend from opposite sides of a bottom of the rail to define the channel. Each sidewall can define a side slot that is in communication with the channel. Each side slot sized to receive a foot of the first part or a foot of the second part.
The first part and the second part can define a top hole when the assembled body of the rail connector is formed. A base element fastener can be extendable through the top hole.
Embodiments of the enclosure assembly apparatus can also include other components. For instance, there can be a column mounting device and a column connector. The column connector can have a first end for being received within the channel and a second end for being received within an opening of the column mounting device to attach the column mounting device to the rail. The column connector can include a plurality of interlockable parts to adjustably define a height of the column connector. Each interlockable part can be positionable to lock the part to another part to directly attach immediately adjacent parts.
In some embodiments, an enclosure assembly apparatus can include a rail for attachment to a floor and a rail connector. The rail connector can include a first part having a first foot and a second part having a second foot. The rail can have a channel for facilitating attachment of the rail connector to the rail. The channel can be sized and configured so that the first part and the second part are positionable in the channel when separated such that the first part is positionable adjacent to the second part in the channel to form an assembled body of the rail connector. The rail can have first and second sidewalls that extend from opposite sides of a bottom of the rail to define the channel, the first sidewall and the second sidewall can each define a side slot that is in communication with the channel. The side slot of the first sidewall can be sized to receive the first foot of the first part and the side slot of the second sidewall can be sized and configured to receive the foot of the second part. The first part and the second part can define a top hole when the assembled body of the rail connector is formed. A base element fastener can be extendable vertically through the top hole. A rail connector fastener can extending horizontally between the first part and the second part for maintaining the assembly body of the rail connector in an assembled state.
Embodiments of the apparatus can also include a panel having a hole. The base element fastener can extend into the hole for attachment of the panel to the rail. Embodiments can utilize multiple rail connectors for attachment to one or more panels or other base elements via the base element fasteners extending from the rail connectors.
Embodiments of the apparatus can also include column mounting devices. For instance, there can be a first column mounting device positionable adjacent a first end of the rail. A first column connector can have a first end for being received within the channel adjacent the first end of the rail. The first column connector can have a second end for being received within the opening of the first column mounting device to attach the first column mounting device to the rail. There can also be a second column mounting device positionable adjacent a second end of the rail. A second column connector can have a first end for being received within the channel adjacent the second end of the rail and also have a second end for being received within the opening of the second column mounting device to attach the second column mounting device to the rail.
In other embodiments, the enclosure assembly apparatus can include a base element connector positioned adjacent a second end of the rail. The base element connector can have a projection that extends vertically from a body for positioning within a base element for attachment of the base element to the rail. The base element connector can also have a rail end connector positionable within the channel adjacent the second end of the rail for attachment of the base element connector to the rail.
A method for assembling an enclosure is also provided. Embodiments of the method can include utilization of at least one embodiment of an enclosure assembly apparatus. In some embodiments, the method can include positioning a rail on a floor, fastening the rail to the floor, positioning a first part of a rail connector in a channel of the rail so that a foot of the first part extends into a first side slot defined by a first sidewall of the rail, positioning a second part of the rail connector in a channel of the rail so that a foot of the second part extends into a second side slot defined by a second sidewall of the rail that is opposite the first sidewall of the rail, and positioning a base element fastener adjacent to the first part and/or the second part during the positioning of the first part and the positioning of the second part so that when the first part and the second part are positioned in the channel the rail connector is placed into an assembled state that has a top hole through which the base element fastener extends.
Embodiments of the method can also include other steps. For instance, embodiments of the method can include attaching a column mounting device to a first end of the rail, and adjusting a height of the column mounting device. The column mounting device can be comprised of a plurality of interlockable parts. Each interlockable part can be positionable to lock the part to another part to directly attach immediately adjacent parts.
The method can also include positioning the column connector to attach the column connector to the rail. The column connector can have a bottom part that has an opening to receive an end of a column connector that extends from a first end of the rail.
Other details, objects, and advantages of the invention will become apparent as the following description of certain exemplary embodiments thereof and certain exemplary methods of practicing the same proceeds.
Exemplary embodiments of our enclosure assembly apparatus are shown in the accompanying drawings and certain exemplary methods of making and practicing the same are also illustrated therein. It should be appreciated that like reference numbers used in the drawings may identify like components.
Referring to
The enclosure assembly can include a number of columns 7. The columns can be vertically elongated members. In some embodiments, the columns 7 can be structured as beams, rods, or supports that extend vertically from adjacent a floor to an upper frame element. The upper frame element can be a beam, rod or other type of horizontally extending member. Ceiling elements can be attached between upper frame elements to define the ceiling 3. In other embodiments, the enclosures defined by the enclosure assembly apparatus 1 may not have a ceiling 3. Instead, the top of the formed work area defined enclosure can be open so personnel can look through the top to see other parts of the room (e.g. ceiling of the room of the building, etc.).
Panels 11 can be positioned to define walls of the enclosure. One or more panels 11 can be positioned between spaced apparat columns 7, for example, to define walls of an enclosure that is configured to define at least one work space enclosure. Each panel can have a rectangular shape (e.g. be a rectangular panel or plate etc.). Each panel 11 can alternatively have a different type of shape (e.g triangular, hexagonal, irregular shape, etc.).
The enclosure formed by the enclosure assembly apparatus 1 can include a base 9. The base 9 can be utilized to facilitate attachment of the panels 11 and/or columns 7 to a floor 10 of the room of a building in which the work space enclosure(s) are to be defined. Such attachment can help improve the safety of the work space enclosure(s) by providing a secure positioning of the enclosure assembly in an assembled state in the room of the building.
The enclosure assembly can also be configured to include moveable panels 13. Each moveable panel 13 can be configured to move relative to an upper frame element and/or a lower frame element of the base 9. For example, moveable panels 13 can slide along upper and/or lower frame elements for moving to different positions along a defined path. Such moveable panels can provide a tackable surface that is moveable, for example. It is also contemplated that the moveable panels 13 can alternatively be configured to function as a door in some embodiments.
We have determined that floors are not always level and that this deficiency can affect the structure and assembly of an enclosure. For instance, when a floor is not level, it can require a significant amount of assembly steps to address such an issue when assembling an enclosure. To avoid such significant amounts of time and effort, we have determine that a floor attachment system can be utilized to help provide for level positioning of at least some elements of the enclosure assembly apparatus 1.
Additionally, it can take a significant amount of time to mount parts of the base 9 to a floor 10. We have determined that a base attachment system can be utilized to facilitate a quicker and easier assembly to account for such an issue.
The base 9 of the enclosure assembly apparatus 1 can include a rail 9a that has sidewalls 9d that extend above a bottom 9c and extend between opposite first and second ends 9f. The body of the rail can include pre-drilled holes in the bottom 9c to facilitate positioning of fasteners for attachment of the rail 9a to the floor 10. The rail can be structured to define a channel 9b between the spaced apart sidewalls 9d and bottom 9c. The channel 9b can be in communication with side slots 9s that can be defined at the opposite sides of the rail via the sidewalls 9d. For example, each side slot 9s can be defined by a top of a respective sidewall 9d that extends inwardly over the bottom 9c of the rail 9a to define a side slot 9s having a side mouth defining the interface between the channel 9b and the side slot 9s. Each side slot 9s can be configured to help retain a foot or other type of projection to prevent a structure being positioned into the rail 9 via channel 9b from being easily dislodged out of the rail 9 during assembly.
A first end 9f of the rail can be configured to receive a first end 23b of a column connector 23. The first end 23b of the column connector can include opposite side portions that extend into the side slots 9s for attachment to the rail 9a via the channel 9b. The column connector 23 can be configured to attach a column mounting device 21 to the first end 9f of the rail 9a. For instance, the column connector 23 can have a second end 23a that is configured to be matingly received within an opening 21a of a column mounting device 21. The column mounting device 21 can be configured for attachment to a bottom of a column 7 to facilitate attachment of the bottom of the column 7 to the floor 10.
The second end 9f of the rail can be configured to receive a first end 23b of another column connector 23 for attachment with another column mounting device 21. The second end 9f of the rail 9a can also be configured to receive a rail end connector 26 for attachment to a base element connector 35. The rail end connector 26 can include at least one hole 26a through which a fastener can be passed for attachment of the rail end connector 26 to the rail 9a and/or the floor 10.
The rail end connector 26 can also be defined as a part of a base component of a base element attachment body 41 that can be connected to an end 9f of the rail 9a. The rail end connector 26 can include a body that is sized to slide along the bottom of the rail 9a in the channel 9b so that opposite sides of the body of the rail end connector 26 are positionable within the side slots 9s while a middle part of the body is within the channel 9b. Such a base element attachment body 41 can include a base 43 having a rail end connector 26 extending from at least one side of the base 43 for attachment to the rail 9a. The base element attachment body 41 can also include a projection 45 that extends upwardly for receipt into a hole of a base element for being matingly received therein to facilitate attachment of a base element to the rail 9a (e.g. via the mating interference fit between projection 45 and a corresponding hole in the base element and/or via use of one or more fastening mechanisms such as a screw, adhesive, etc.).
Embodiments of the base element connector 35 can include a base 35a and a projection 37 that extends vertically upwardly from the base 35a for insertion into and/or attachment to a panel 11 or other base element of the frame of the enclosure. For example, the base element connector 35 can be positioned so that the projection 37 is inserted into an intermediate base support element to help affix that element to the rail 9a. The projection 37 can be integral to a body of the base element connector 35 or can be a fastener (e.g. bolt, screw) that is insertable through the base element connector 35 for fastening with a base element.
The channel 9b of the rail 9a can be configured to receive at least one rail connector 31. Each rail connector 31 can include a first part 31a that is separable from a second part 31b. A rail connector fastener 33a can be passed through assembly holes 31c in the first and second parts 31a and 31b to form a body of the assembled rail connector 31. The rail connector fastener 33a can extend horizontally between the first part 31a and the second part 31b for maintaining the assembled body of the rail connector 31 in an assembled state. The formed, assembled body of the rail connector 31 can have a top hole 31d that is sized to permit a base element fastener 33b to be extend through top hole 31d for attachment to a panel 11 (e.g. a bottom of the panel 11) or a bottom panel element to which a panel 11 is attached. The first part 31a and the second part 31b of the rail connector 31 can each include a horizontally extending foot 31e that is sized to mate within a side slot 9s that is in communication with the channel 9b of the rail 9a.
As can be appreciated from
The separable first and second parts 31a and 31b can be configured to permit the rail connectors to be positioned for attachment to the rail 9a after the rail is affixed to a floor 10 by use of a rail connector attachment process. Each rail connector 31 can be attached to the rail 9a at a desired location via the channel 9b and side slots 9s utilizing this same rail connector attachment process.
For instance, fasteners can be passed through the bottom 9c of the rail to attach the rail to a floor 10 (e.g. subflooring, or other floor structure of a room of a building). Thereafter, the first and second parts 31a and 31b of each rail connector 31 can be in a separate state so each individual part can be positioned in the channel 9b with foot 31e inserted into a respective side slot 31s. Each part can be positioned adjacent to each other while their foot 31e is in its respective side slot 9s to define an assembled body of the rail connector 31 in its assembled state. In this position, the assembly hole(s) 31c in a sidewall of the first part 31a can be aligned with the assembly hole(s) 31c of the second part 31b. The assembly holes 31c can be positioned so that they are positioned above the sidewalls 9d of the rail 9a when the feet 31e of the rail connector body are within the side slots 9s of the rail. This positioning of the assembly holes 31c can permit at least one rail connector fastener 33a to be easily passed through the aligned assembly holes 31c while the rail 9a is mounted to the floor 10 to place the rail connector 31 into its assembled state. This can facilitate attachment of the rail connector 31 to the rail 9a while also permitting rail connectors 31 to be easily positioned in spaced apart locations along a length of the rail 9a without having to slide each rail connector along the length of the rail in a series due to the separable parts that are alignable and integratable with each other via the rail connector fastener 33a. The ease with which the rail connectors 31 can be positioned along a length of a rail 9a can greatly improve the speed and efficiency of the formation of an enclosure.
Before the rail connector fastener (s) 33a is passed through the assembly holes 33c, a base element fastener 33b can be positioned in the top hole 31d of the rail connector 31. Such positioning of the base element fastener can allow the base element fastener 33b to be attached to the rail connector 31 when the rail connector 31 is adjusted into its assembled state. The base element fastener can be positioned adjacent an aperture of the first part 31a or the second part 31b during the positioning of these parts next to each other so that when the top hole 31d is formed when those parts are positioned to from the rail connector body 31 via their feet 31e being within side slots 31e, the base element fastener is located in the formed top hole 31d. After the first and second parts 31a and 31b are aligned to form the top hole 31d and the base element fastener 33b is positioned to extend from that top hole 31d, the rail connector fastener 33a can be passed through the aligned assembly holes 31c to place the rail connector in its assembles state.
After the rail connectors 31 are attached to the rail 9a, panels 11 can be attached to the rail via the base element fasteners 33b of the rail connectors 31. The base element fasteners 33b can be inserted into holes in the bottom of panels or the bottom of panel elements to which the panels 11 are attached. A wrench or other tool could be utilized to rotate the base element fasteners for facilitating attachment. In other embodiments, the linear sliding of the base element fasteners 33b into corresponding holes of base elements (e.g. panels 11, etc.) can be sufficient for the attachment.
The positioning of the base element fasteners 33b can permit each base element to which it is attached to be selectively positioned to account for a non-level floor 10 to which the rail 9a can be attached. For example, some panels 11 or bottom panel elements attached to the panels 11 can be at different locations on base element fasteners 33b (e.g. at different heights along the base element fasteners 33b) so that the panels 11 can be positioned in a level manner even though the floor 10 may not be level. A gap 9e defined between the bottom of the panels 11 or bottom panel elements to which the panels 11 may be attached and the rail 9a can then be covered by a covering or insert. Such a covering or insert may be, for example, a relatively thin foam material having a pre-selected color (e.g. a black color) or an elastomeric bulb seal element to fill the gap. As another example, the covering or insert can be structured as strips sized to fit within the defined gap for attachment to the rail and bottom of the panels 11 for covering the gap.
Columns 7 can be positioned at perimeter corners of an enclosure and attached to ends 9f of different rails 9a via column mounting devices 21. Each mounting device 21 can include an opening 21a on each of its sides to facilitate attachment to different rails 9a. Each mounting device 21 can be configured to include multiple different separable interlockable parts to provide a mounting device 21 that has an adjustable height. This adjustable height can account for floor leveling issues so that different mounting devices 21 have different heights for attachment of different columns to account for a non-level floor 10.
For instance, as can be appreciated from
Embodiments of the enclosure assembly apparatus 1 can facilitate a quicker and easier assembly of work space enclosures. For example, in some embodiments, rails 9a can be attached to a floor to define a pre-selected work space enclosure shape. The rail connectors 31 and column mounting devices 21 can then be attached to the rails 9a. Base element connectors 35 and/or 41 can also be attached to the rails 9a. Then, columns 7 and panels 11 can be attached to the rails 9a via these mounting devices and connectors while also taking into account issues that may arise due to a non-level floor 10. After the columns 7 and panels are attached, inserts or coverings can be positioned to cover any gap that may be present between the rails 9a and the bottom of panels 11 or bottom panel elements. The cover can include an elongated covering element that extends along a length of the rail to cover the gap and hide the gap from view. The covering element can be configured to be comprised of a foam-type material, or other type of resilient material that can be compressible for providing a resilient interference fit between the rail 2 and bottoms of panels 11 and/or other bottom elements within the gap to cover the gap, which may not have a uniform height. For example, the covering element can be configured as a rubber bulb seal or an elastomeric bulb seal in some embodiments. A ceiling 3 can also be formed after the columns and panels are positioned for enclosures in which a ceiling is desired.
It should be appreciated that some embodiments of the enclosure assembly apparatus can include a rail 9a for attachment to a floor and a plurality of rail connectors 31. Each of the rail connectors 31 can include a first part 31a having a first foot 31e and a second part 31b having a second foot 31e. The rail 9a can have a channel 9b for facilitating attachment of the rail connector 31 to the rail 9a. The channel 9b can be sized and configured so that the first part 31a and the second part 31b of each rail connector 31 are positionable in the channel 9b when separated such that the first part 31a is positionable adjacent to the second part 31b in the channel 9b to form an assembled body of the rail connector 31.
The rail 9a can have first and second sidewalls 9d that extend from opposite sides of a bottom of the rail 9a to define the channel 9b. The first sidewall 9d and the second sidewall 9d can each define a side slot 9s that is in communication with the channel 9b. The side slot 9s of the first sidewall can be sized to receive the first foot 31e of the first part 31a and the side slot 9s of the second sidewall 9d can be sized and configured to receive the foot 31e of the second part 31b. The first part 31a and the second part 31b can define a top hole when the assembled body of the rail connector 31 is formed. A base element fastener 33b can be extendable vertically through the top hole. A rail connector fastener 33a can extending horizontally between the first part 31a and the second part 31b for maintaining the assembly body of the rail connector in an assembled state.
The assembly can include multiple spaced apart rail connectors. The rail connectors 31 can be positioned so that the spaced apart base element fasteners 33b extend vertically for attachment to one or more base elements (e.g. panels, horizontally extending bottom rail of an enclosure to which panels are attachable, a bottom frame element, etc.).
There can be a first column mounting device 21 positionable adjacent a first end of the rail. A first column connector 23 can have a first end for being received within the channel adjacent the first end of the rail. The first column connector 23 can have a second end for being received within the opening of the first column mounting device 21 to attach the first column mounting device to the rail 9a. In some embodiments, there can also be a second column mounting device 21 positionable adjacent a second end of the rail 9a. A second column connector 23 can have a first end for being received within the channel adjacent the second end of the rail and also have a second end for being received within the opening of the second column mounting device 21 to attach the second column mounting device to the rail.
In other embodiments, the enclosure assembly apparatus can include a base element connector 35 positioned adjacent the second end of the rail 9a. The base element connector 35 can have a projection 37 that extends vertically from a body for positioning within a base element for attachment of the base element to the rail. The base element connector 35 can also have a rail end connector 26 positionable within the channel adjacent the second end of the rail for attachment of the base element connector to the rail.
A resilient covering member can also be provided to cover a gap that may have a variable height between the rail 9a and the bottom(s) of the one or more base elements attached to the rail. The resilient covering can be compressible to facilitate covering an entirety of the gap while also accommodating the non-uniform height of the gap.
It should be understood that other modifications to the enclosure assembly apparatus can be made to meet a particular set of design criteria. For example, it is contemplated that a particular feature described, either individually or as part of an embodiment, can be combined with other individually described features, or parts of other embodiments. The elements and acts of the various embodiments described herein can therefore be combined to provide further embodiments. As another example, the size, shape and weight of a partition body or frame element can be any size or shape to meet a particular set of design criteria. As yet another example, the type of mounting connector that is utilized in an embodiment of the enclosure assembly apparatus may utilize other types of connector structure geometry that may facilitate use of a pre-selected fastening mechanism (e.g. bolts, screws, etc.) to meet a particular set of design criteria.
Therefore, while certain exemplary embodiments of our enclosure assembly apparatus and methods of making and using the same have been discussed and illustrated herein, it is to be distinctly understood that the invention is not limited thereto but may be otherwise variously embodied and practiced within the scope of the following claims.
The present application is a continuation of U.S. patent application Ser. No. 16/887,582 filed on May 29, 2020, which claims priority to U.S. Provisional Patent Application No. 62/858,379, which was filed on Jun. 7, 2019. The entirety of this provisional patent application is incorporated by reference herein.
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|---|---|---|
| 2389508 | Dec 2002 | CA |
| Number | Date | Country | |
|---|---|---|---|
| 20220349178 A1 | Nov 2022 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62858379 | Jun 2019 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 16887582 | May 2020 | US |
| Child | 17864501 | US |
