Ceiling system and mounting bracket for use with the same

Abstract

A ceiling system having a perimeter frame; a grid configured to support a plurality of substrates; and a plurality of bracket assemblies coupling the grid to the perimeter frame, the plurality of bracket assemblies adjustable between a plurality of states in which the grid is supported at a different height relative to the perimeter frame in each of the plurality of states.

Claims

1. A ceiling system comprising: a perimeter frame; a grid configured to support a plurality of substrates; and a plurality of bracket assemblies coupling the grid to the perimeter frame, the plurality of bracket assemblies adjustable between a plurality of states in which the grid is supported at a different height relative to the perimeter frame in each of the plurality of states.

2. The ceiling system according to claim 1 further comprising the plurality of substrates, the plurality of substrates supported by the grid, wherein when the plurality of bracket assemblies are in each of the plurality of states, the plurality of substrates are supported in a substantially horizontal plane.

3. The ceiling system according to claim 1 wherein each of the plurality of bracket assemblies comprises: a frame bracket coupled to the perimeter frame; and a grid bracket, the grid bracket comprising a first portion coupled to the frame bracket and a second portion coupled to the grid, the first portion of the grid bracket configured to be coupled to the frame bracket at a selected one of a plurality of different positions relative to the frame bracket, wherein each of the plurality of different positions corresponds to one of the plurality of states of the bracket assembly.

4. The ceiling system according to claim 3 wherein for each of the plurality of bracket assemblies, the first portion of the grid bracket comprises a first plate and the second portion of the grid bracket comprises a second plate arranged substantially orthogonal to the first plate.

5. The ceiling system according to claim 4 wherein for each of the plurality of bracket assemblies, the first plate extends along a longitudinal axis from a first end to a second end, the second plate of the grid bracket comprises a grid mounting section extending from the first plate adjacent the first end of the first plate, wherein the grid bracket is configured to be mounted to the frame bracket in a selected one of: (1) a first arrangement in which the first end of the first plate is facing downward; and (2) a second arrangement in which the second end of the first plate is facing downward.

6. The ceiling system according to claim 3 wherein for each of the plurality of bracket assemblies, the frame bracket comprises a guide element that contacts the grid bracket to maintain relative orientation between the frame bracket and the grid bracket.

7. The ceiling system according to claim 3 wherein for each of the plurality of bracket assemblies, the first portion of the grid bracket comprises an elongated slot; and wherein each of the plurality of bracket assemblies comprises a threaded fastener extending through the elongated slot and threadily engaging the frame bracket, the threaded fastener alterable between: (1) a free state in which the grid bracket can be moved relative to the frame bracket between the plurality of different positions; and (2) a locked state in which the grid bracket is fixed relative to the frame bracket in the selected one of the plurality of different positions.

8. The ceiling system according to claim 7 wherein for each of the plurality of bracket assemblies, the elongated slot comprises an undulating edge that forms a plurality of nesting regions for receiving a widened portion of the threaded fastener, and wherein when the widened portion of the threaded fastener is in a selected one of the nesting regions, the undulating edge prohibits relative translation between grid bracket and the frame bracket.

9. The ceiling system according to claim 3 wherein for each of the plurality of bracket assemblies, the grid bracket can be coupled to the frame bracket at the plurality of different positions incrementally.

10. The ceiling system according to claim 3 wherein the second portion of the grid bracket comprises a grid mounting section and a tab section, the tab section separated from the grid mounting section by a pre-weakened line so as to be alterable from: (1) a first one of the plurality of states in which the tab section is coupled to the grid mounting section and the grid is supported at a first height relative to the perimeter frame; and (2) a second one of the plurality of states in which the tab section is removed from the grid mounting section and the grid is supported at a second height relative to the perimeter frame, the second height being different than the first height.

11. The ceiling system according to claim 3 wherein for each of the plurality of bracket assemblies, the frame bracket comprises a sliding portion that is movable relative to a main portion of the frame bracket, the sliding portion having a guide element that contacts the main portion of the frame bracket to maintain relative orientation between the sliding portion and the main portion of the frame bracket, wherein the second engaging portion of the bracket assembly is fixed to the sliding portion of the frame bracket.

12. The ceiling system according to claim 1 wherein the perimeter frame has a plurality of engagement portions, and each of the bracket assemblies has a first engaging portion that engages a first one of the engagement portions, and a second engaging portion that engages a second one of the engagement portions, such that the bracket assembly is positionally fixed relative to the perimeter frame by the engagement of the first and second engaging portions with the first and second engagement portions, wherein the second engaging portion of the bracket assembly is movable relative to the first engaging portion of the bracket assembly.

13. The ceiling system according to claim 1 wherein the perimeter frame is symmetrical about a horizontal plane when the perimeter frame is in an installed position.

14. The ceiling system according to claim 1 wherein each of the plurality of bracket assemblies comprises: a frame bracket having a first portion coupled to the perimeter frame and a second portion coupled to the grid, wherein the second portion comprises a grid mounting section and a tab section, the tab section being separated from the grid mounting section by a pre-weakened line so as to be alterable from: (1) a first one of the plurality of states in which the tab section is coupled to the grid mounting section and the grid is supported at a first height relative to the perimeter frame; and (2) a second one of the plurality of states in which the tab section is removed from the grid mounting section and the grid is supported at a second height relative to the perimeter frame, the second height being different than the first height.

15. The ceiling system according to claim 14 wherein the second portion of the frame bracket is arranged substantially orthogonal to the first portion of the frame bracket.

16. The ceiling system according to claim 14 wherein the second portion of the frame bracket is vertically offset relative to a vertical center point of the first portion of the frame bracket.

17. The ceiling system according to claim 1, wherein each of the plurality of bracket assemblies comprises: a frame bracket coupled to the perimeter frame; and a grid bracket configured to be coupled to the frame bracket, wherein the frame bracket remains fixed relative to the perimeter frame.

18. The ceiling system according to claim 1, wherein the grid bracket is coupled to the grid and the grid bracket is adjustable to various heights relative to the perimeter frame.

19. A bracket assembly for use with a ceiling system having a perimeter frame and a grid that supports a plurality of substrates, the bracket assembly comprising: a frame bracket comprising a first engaging portion configured to engage the perimeter frame and a second engaging portion configured to engage the perimeter frame, the frame bracket configured to be coupled to the perimeter frame by the first and second engaging portions; and a grid bracket, the grid bracket comprising a first portion coupled to the frame bracket and a second portion configured to be coupled to the grid, the first portion of the grid bracket being configured to be coupled to the frame bracket at a selected one of a plurality of different positions relative to the frame bracket such that the grid is supportable at a different height relative to the perimeter frame in each of the plurality of different positions.

20. The bracket assembly according to claim 19 wherein the first portion of the grid bracket comprises a first plate and the second portion of the grid bracket comprises a second plate arranged substantially orthogonal to the first plate.

21. A bracket assembly for use with a ceiling system having a perimeter frame and a grid that supports a plurality of substrates, the bracket assembly comprising: a frame bracket having a first portion configured to be coupled to the perimeter frame, and a second portion configured to be coupled to the grid, wherein the second portion comprises a grid mounting section and a tab section, the tab section being separated from the grid mounting section by a pre-weakened line so as to be alterable from: (1) a first state in which the tab section is coupled to the grid mounting section and the grid is supportable at a first height relative to the perimeter frame; and (2) a second state in which the tab section is removed from the grid mounting section and the grid is supportable at a second height relative to the perimeter frame, the second height being different than the first height.

22. The bracket assembly according to claim 21 wherein the second portion of the frame bracket is arranged substantially orthogonal to the first portion of the frame bracket.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:

(2) FIG. 1 is a side cross-section view of a plurality of ceiling structures suspended in an interior space to form a ceiling system;

(3) FIG. 2 is a perspective view of perimeter frame, three-piece mounting bracket, and ceiling grid;

(4) FIG. 3 is a side view of the structure shown in FIG. 2;

(5) FIG. 4 is a perspective view of a three-piece mounting bracket;

(6) FIG. 5 is a front view of the three-piece mounting bracket shown in FIG. 4;

(7) FIG. 6 is a side view of the three-piece mounting bracket shown in FIG. 4;

(8) FIG. 7 is a top view of the three-piece mounting bracket shown in FIG. 4;

(9) FIG. 8 is a perspective view of a part of the three-piece mounting bracket shown in FIG. 4;

(10) FIG. 9 is a perspective view of a two-piece mounting bracket;

(11) FIG. 10 is a front view of the two-piece mounting bracket shown in FIG. 9;

(12) FIG. 11 is a side view of the two-piece mounting bracket shown in FIG. 9;

(13) FIG. 12 is a top view of the two-piece mounting bracket shown in FIG. 9;

(14) FIG. 13 is a side view of a mounting bracket attached to a perimeter frame of a first size;

(15) FIG. 14 is a side view of a mounting bracket attached to a perimeter frame of a second size;

(16) FIG. 15 is a side view of a three-piece mounting bracket attached to a perimeter frame in a first position;

(17) FIG. 16 is a side view of a three-piece mounting bracket attached to a perimeter frame in a second position;

(18) FIG. 17 is a side view of a three-piece mounting bracket attached to a perimeter frame in a third position; and

(19) FIG. 18 is a side view of a three-piece mounting bracket attached to a perimeter frame in two different positions.

DETAILED DESCRIPTION

(20) The following description of embodiments is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.

(21) As used throughout, ranges are used as shorthand for describing each and every value that is within the range. Any value within the range can be selected as the terminus of the range. In addition, all references cited herein are hereby incorporated by referenced in their entireties. In the event of a conflict in a definition in the present disclosure and that of a cited reference, the present disclosure controls.

(22) In the description of embodiments disclosed herein, any reference to direction or orientation is merely intended for convenience of description and is not intended in any way to limit the scope of the present invention. Relative terms such as lower, upper, horizontal, vertical,, above, below, up, down, top and bottom as well as derivative thereof (e.g., horizontally, downwardly, upwardly, etc.) should be construed to refer to the orientation as then described or as shown in the drawing under discussion. These relative terms are for convenience of description only and do not require that the apparatus be constructed or operated in a particular orientation. Terms such as attached, coupled, affixed, connected, interconnected, and the like refer to a relationship wherein structures are secured or attached to one another either directly or indirectly through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.

(23) FIG. 1 illustrates a ceiling system 20 that spans from wall to wall to separate a building occupied space 10 from a plenum space 30. In this example, ceiling system 20 is a grid system that includes a number of intersecting rails that support a number of panels or substrates. The rails are attached at their wall ends to a perimeter frame 100. The grid may or may not be additionally supported by wires, cables, tie rods, hangers, struts, or the like at positions remote from the walls of the building occupied space.

(24) FIG. 2 shows an example of ceiling system 10 that includes a bracket assembly 400 mounted in position on a perimeter frame 100 and holding a grid member 600 in position. Also shown is a portion of a substrate, or ceiling panel, 700 that is connected to and/or supported by grid member 600. In this example grid member 600 is a rail 610 that is part of a grid system that supports a plurality of substrates 700. Perimeter frame 100 can be attached to a perimeter, or other, wall that encloses a building space. In a rectangular room, for example, perimeter frame 100 would be attached to each wall to form a rectangular perimeter of the ceiling grid. Perimeter frame 100 can also be attached to walls that are located inside, or project into, the building space in order to support grid members at their ends. In some embodiments perimeter frame 100 provides support for some or all of the weight of the ceiling system. In other embodiments perimeter frame 100 provides only a locating function for the ends of the grid members and provide no structural support of the ceiling system. Support or supplemental support for the ceiling system can come from wires, cables, tie rods, hangers, struts, or the like.

(25) In this example, perimeter frame 100 is symmetrical with respect to a horizontal plane that bisects perimeter frame 100 at its vertical center. This is useful in that perimeter frame 100 can be installed with either flange 110 facing down. If, for example, one of the flanges 110 gets damaged, that section of perimeter frame 100 can be installed with the damaged flange 110 facing upward where it is not visible to users of the building space. In this example, perimeter frame 100 has four engagement portions, or recesses, 102, 104, 106, 108 for receiving bracket assembly 400. Perimeter frame 100 can have more or fewer engagement portions and can also include other recesses, attachment points, holes, etc., for facilitating attachment of other elements to perimeter frame 100 or for attaching perimeter frame 100 to a wall or other structure. For example, in FIG. 2, perimeter frame 100 has a fabric attachment recess 112 on each of its flanges 110. These feature can also be seen in FIG. 3.

(26) The bracket assembly 400 shown in FIGS. 2-8 is a three-part bracket assembly. Bracket assembly 400 has a grid bracket 510 that attaches to grid member 600 and a frame bracket main portion 410 that attaches to perimeter frame 100. Frame bracket main portion 410 is attached to perimeter frame 100 with the help of a frame bracket sliding portion 440 that includes a second engaging portion 442. In this example, second engaging portion 442 is a stamped, bent portion of frame bracket sliding portion 440. In other embodiments, second engaging portion 442 can be a machined lip or other engaging feature. As shown in FIG. 4, frame bracket sliding portion 440 is held to frame bracket main portion 410 with a screw 450 such that frame bracket sliding portion 440 is movable in a vertical direction relative to frame bracket main portion 410. Although a slot and a screw are used in this embodiment, other attachment methods can be used. To attach frame bracket main portion 410 to perimeter frame 100, frame bracket main portion 410 is moved toward perimeter frame 100 such that a first engaging portion 416 engages one of the engagement portions 104, 108 while frame bracket sliding portion 440 (and therefore second engaging portion 442) is held in an upper position. In this example, first engaging portion 416 is a stamped louvered flange. In other embodiments, first engaging portion 416 can be a machined lip or other engaging feature. In this example, first engaging portion 416 engages engagement portion 104. Then frame bracket main portion 410 and frame bracket sliding portion 440 are tilted toward perimeter frame 100 until second engaging portion 442 contacts perimeter frame 100 right above engagement portion 102. Then frame bracket sliding portion 440 is moved downward so that second engaging portion 442 engages engagement portion 102, as shown in FIG. 3. Screw 450 is then tightened to hold frame bracket sliding portion 440 and frame bracket main portion 410 securely in place on perimeter frame 100. In order to keep the proper orientation of frame bracket sliding portion 440 relative to frame bracket main portion 410, frame bracket sliding portion 440 has a guide element that rests against an edge of frame bracket main portion 410 when frame bracket sliding portion 440 is tightened against frame bracket main portion 410. This guiding element helps ensure that second engaging portion 442 is squarely in engagement portion 102.

(27) Now turning to grid bracket 510, FIG. 4 shows that grid bracket 510 has a first portion 514 and a second portion 512 that are, in this example, arranged orthogonally. First portion 514 attaches to grid member 600 with one or more screws 620 though one or more holes 518, or other attachment method. Second portion 514 is attached to frame bracket main portion 410 with a screw 610. As can be seen best in FIGS. 2, 4 and 5, screw 610 extends through a slot 516 in first portion 514 of grid bracket 510. As a result of slot 516, grid bracket 510 can be attached to frame bracket 410 in a plurality of different positions along a vertical axis. It is this adjustability that allows grid member 600 to be attached to perimeter frame 100 in a plurality of different positions.

(28) In the example shown in the Figures, slot 516 has undulating edges that form a plurality of wide spots in slot 516. Each of the wide spots in slot 516 is sized to receive a widened portion of screw 610 so that a particular relative position of frame bracket main portion 410 and grid bracket 510 can be set similarly for all bracket assemblies used in the ceiling system. Setting all of the bracket assemblies at the same position is important to maintain a level ceiling assembly. Although slot 516 has undulating edges in this embodiment, other embodiments have a slot with straight sides, which allows infinite adjustability in the relative positions of frame bracket main portion 410 and grid bracket 510. A slot with straight sides can be advantageous if the installation requires fine adjustments in the relative position of frame bracket main portion 410 and grid bracket 510. The sides and other parts of slot 516 can be any shape that permits screw 610 to hold frame bracket main portion 410 at the desired position relative to grid bracket 510. For example, the sides of slot 516 can have a shape that is in between straight and the undulating example shown in the drawings.

(29) In this embodiment, frame bracket main portion 410 has a flat area 412 that first portion 514 of grid bracket 510 rests against when grid bracket 510 is tightened against frame bracket main portion 410. In order to keep the proper orientation of grid bracket 510 relative to frame bracket main portion 410, frame bracket main portion 410 has a guide element 414 that an edge of first portion 514 of grid bracket 510 rests against when grid bracket 510 is tightened against frame bracket main portion 410. This is best seen in FIG. 4.

(30) FIGS. 4 and 5 show second portion 512 of grid bracket 510 having a weakened portion 522 that separates a tab 520 from the remainder of second portion 512. FIG. 6 shows an alternate size of tab 520. The purpose of weakened portion 522 is to make tab 520 easily separable from the remainder of second portion 512. This will be discussed further below.

(31) FIG. 5 shows a front view of bracket assembly 400, FIG. 6 shows a side view, and FIG. 7 shows a top view.

(32) FIGS. 9-12 show an example of a two-piece bracket assembly 200. Bracket assembly 200 has a first portion 210 that attaches to perimeter frame 100 and second portion 310 that attaches to grid member 600. First portion 210 has a flat portion 212 from which a first engaging portion 216 extends. First portion 210 is attached to perimeter frame 100 with the help of a bracket sliding portion 240 that includes a second engaging portion 242. As shown in FIG. 9, bracket sliding portion 240 is held to first portion 210 with a screw 250 such that bracket sliding portion 240 is movable in a vertical direction relative to first portion 210. Although a slot and a screw are used in this embodiment, other attachment methods can be used. Similarly to the example shown in FIGS. 4-8, to attach first portion 210 to perimeter frame 100, first portion 210 is moved toward perimeter frame 100 such that first engaging portion 216 engages a first engagement portion of perimeter frame 100 while bracket sliding portion 240 is held in an upper position. Then first portion 210 and bracket sliding portion 240 are tilted toward perimeter frame 100 until second engaging portion 242 contacts perimeter frame 100 right above a second engagement portion. Then bracket sliding portion 240 (and therefore second engaging portion 242) is moved downward so that second engaging portion 242 engages the second engagement portion, similarly to what is shown in FIG. 3. Screw 250 is then tightened to hold bracket sliding portion 240 and first portion 210 securely in place on perimeter frame 100. In this example, first engaging portion 216 is a stamped louvered flange. In other embodiments, first engaging portion 216 can be a machined lip or other engaging feature. In this example, second engaging portion 242 is a stamped, bent portion of bracket sliding portion 240. In other embodiments, second engaging portion 242 can be a machined lip or other engaging feature. In order to keep the proper orientation of bracket sliding portion 240 relative to first portion 210, bracket sliding portion 240 has a guide element that rests against an edge of first portion 210 when bracket sliding portion 240 is tightened against first portion 210. This guiding element helps ensure that second engaging portion 242 is squarely in the second engagement portion.

(33) FIG. 11 shows that second portion 310 and first portion 210 are, in this example, arranged orthogonally. A grid mounting section 312 of second portion 310 attaches to grid member 600 with one or more screws though one or more holes 218, or other attachment method.

(34) As shown in FIGS. 9 and 11, second portion 310 of bracket assembly 200 has a weakened portion 322 that separates a tab 320 from the remainder of second portion 310. The purpose of weakened portion 322 is to make tab 320 easily separable from the remainder of second portion 310. Weakened portion 322 allows bracket assembly 200 to be altered between a first state in which tab 320 is in place and the grid is supported at a first height relative to the perimeter frame, and a second state in which tab 320 is removed and the grid is supported at a second height relative to the perimeter frame, the second height being different than the first height. FIG. 13 shows bracket assembly 200, with tab 320 intact, attached to a perimeter frame 102. FIG. 14 shows bracket assembly 200, with tab 320 removed, attached to a perimeter frame 104. As can be seen from FIGS. 13 and 14, removal of tab 320 creates a greater distance between the bottom of second portion 310 and the lower flange of the perimeter frame. The greater distance can allow the grid member to be mounted higher relative to the perimeter frame. By removing tab 320, bracket assembly 200 can also be attached to grid members having a shorter vertical space available to receive second portion 310.

(35) FIGS. 15-18 show some of the possible arrangements of three-piece bracket assembly 400 attached to perimeter frame 102. These arrangements differ only in the position of grid bracket 510 relative to frame bracket 410. FIG. 15 shows grid bracket 510 in the highest position with tab 520 pointing downward. FIG. 17 shows grid bracket 510 in the lowest position with tab 520 pointing downward. FIG. 16 shows grid bracket 510 in an intermediate position with tab 520 pointing downward. Although three positions are shown in FIGS. 15-17, grid bracket 510 can be in other positions in between those shown in FIGS. 15 and 17. The number of available positions is determined by the shape and length of slot 516. A longer slot 516 will provide more positions and a smooth slot, as opposed to a slot with undulating edges, will provide infinite adjustability.

(36) FIG. 18 shows two different arrangements in which grid bracket 510 is mounted such that tab 520 is pointing upward. In these positions, grid bracket 510 is mounted upside down as compared to the orientation in FIGS. 2-7 and 15-17. Mounting grid bracket 510 such that tab 520 is pointing upward provides an additional range of mounting positions of the grid member. Positions A and B shown in FIG. 18 are just two of the positions possible.

(37) Similarly to tab 320 described above, tab 520 can be removed to provide even more possible mounting positions of the grid member. Given a slot 516 having 8 positions for screw 610 (as shown in FIG. 5), sixteen installation heights are possible with tab 520 pointing down, eight with the tab intact and eight with the tab removed. For example, if there are eight screw positions (undulations in slot 516), they are apart, and tab 520 is tall, there will be sixteen positions apart. Up to another eight positions can be available with tab 520 pointing upward.