US20260022558A1
CEILING SYSTEM
Publication
Application
Classifications
IPC Classifications
CPC Classifications
Applicants
ARMSTRONG WORLD INDUSTRIES, INC.
Inventors
Eric D. Kragness
Abstract
A ceiling system is disclosed that comprises a grid frame and a ceiling panel. The grid frame comprises a first grid member and a second grid member. The ceiling panel comprises a top side, a bottom side, a first lateral edge, a second lateral edge, a corner defined between the first lateral edge and the second lateral edge, and a registration guide mounted to the top side comprising a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge, wherein the first projection comprises a first registration face adjacent the first lateral edge configured to engage the first grid member, and wherein the second projection comprises a second registration face adjacent the second lateral edge configured to engage the second grid member.
Figures
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001]The present invention is a United States Non-Provisional Patent Application claiming priority to U.S. Provisional Patent Application No. 63/673,784, filed on Jul. 21, 2024, the entirety of which is incorporated by reference herein.
FIELD OF THE INVENTION
[0002]The present invention relates to suspended ceiling systems, and more particularly to a ceiling system with detachable ceiling panels.
BACKGROUND
[0003]Numerous types of suspended ceiling systems and methods for mounting ceiling panels have been used. One type of system includes a suspended support grid including an array of intersecting grid support members configured to hang a plurality of individual ceiling panels therefrom. An improved ceiling system is desired which can facilitate mounting individual panels to the support grid in an aligned manner.
SUMMARY
[0004]The present invention provides, in one form, a ceiling system including grid support members, ceiling panels having torsion springs mounted thereto for hanging the panels, and spring clips configured to snap-lock onto the grid support members for coupling the torsion springs and attached panels to the grid support members. The spring clips are axially slideable along the grid support members to a desired position for attaching the torsion springs to the clips. The spring clips are snap-locked onto the grid support members to prevent the clips from falling off during ceiling installation, and the need for fasteners for this purpose is eliminated. Advantageously, this translates into a less cumbersome ceiling panel installation and reduced installation costs.
[0005]The present invention provides, in one form, a ceiling system comprising a grid frame, a ceiling panel, and a mount mounted to the grid frame. The grid frame comprises a first grid member and a second grid member extending orthogonally to the first grid member. The ceiling panel comprises a ceiling panel comprising a top side, a bottom side opposite the top side, a first lateral edge, a second lateral edge, a corner defined between the first lateral edge and the second lateral edge, a registration guide mounted to the top side, wherein the registration guide comprises a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge, and a torsion spring mounted on the ceiling panel. The torsion spring is engageable with the mount to support the ceiling panel from the grid frame, wherein the first projection of the registration guide comprises a first registration face adjacent the first lateral edge configured to engage the first grid member when the ceiling panel is mounted to the grid frame, and wherein the second projection comprises a second registration face adjacent the second lateral edge configured to engage the second grid member when the ceiling panel is mounted to the grid frame.
[0006]The present invention provides, in one form, a ceiling system comprising a grid frame, a ceiling panel, and a mount mounted on the grid frame. The grid frame comprises a first grid member and a second grid member extending orthogonally to the first grid member. The ceiling panel comprises a planar body comprising a top side, a bottom side opposite the top side, a first lateral edge, a second lateral edge, a corner defined between the first lateral edge and the second lateral edge, an integral registration guide integrally formed with the planar body, wherein the integral registration guide comprises a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge, and a torsion spring mounted on the ceiling panel. The torsion spring is engageable with the mount to support the ceiling panel from the grid frame, wherein the first projection of the integral registration guide comprises a first registration face adjacent the first lateral edge that faces the first grid member when the ceiling panel is mounted to the grid frame, and wherein the second projection of the integral registration guide comprises a second registration face adjacent the second lateral edge that faces the second grid member when the ceiling panel is mounted to the grid frame.
[0007]The present invention provides, in one form, a ceiling panel for use with a grid frame having a first grid member and a second grid member, the ceiling panel comprising a top side, a bottom side opposite the top side, a first lateral edge, a second lateral edge, a corner defined between the first lateral edge and the second lateral edge, a registration guide mounted to the top side, wherein the registration guide comprises a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge, and a connector configured to attach the ceiling panel to the grid frame. The first projection of the registration guide comprises a first registration face adjacent the first lateral edge configured to engage the first grid member when the ceiling panel is mounted to the grid frame, and the second projection comprises a second registration face adjacent the second lateral edge configured to engage the second grid member when the ceiling panel is mounted to the grid frame.
[0008]The present invention provides, in one form, a ceiling panel for use with a grid frame having a first grid member and a second grid member, the ceiling panel comprising a top side, a bottom side opposite the top side, a first lateral edge, a second lateral edge, a corner defined between the first lateral edge and the second lateral edge, an integral registration guide comprising a first projection adjacent the first lateral edge and a second projection adjacent the second lateral edge, and a connector configured to attach the ceiling panel to the grid frame. The first projection of the registration guide comprises a first registration face adjacent the first lateral edge configured to engage the first grid member when the ceiling panel is mounted to the grid frame, and the second projection comprises a second registration face adjacent the second lateral edge configured to engage the second grid member when the ceiling panel is mounted to the grid frame.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009]The features of the exemplary embodiments of the present invention will be described with reference to the following drawings, where like elements are labeled similarly, and in which:
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[0035]Parts given a reference numerical designation in one figure may be considered to be the same parts where they appear in other figures without a numerical designation for brevity unless specifically labeled with a different part number and described herein.
DETAILED DESCRIPTION
[0036]The features and benefits of the invention are illustrated and described herein by reference to exemplary embodiments. This description of exemplary embodiments is intended to be read in connection with the accompanying drawings, which are to be considered part of the entire written description. Accordingly, the disclosure expressly should not be limited to such exemplary embodiments illustrating some possible non-limiting combination of features that may exist alone or in other combinations of features.
[0037]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,” “affixed,” “connected,” “coupled,” “interconnected,” and similar 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.
[0038]
[0039]In at least one embodiment, the grid support members 202 and 204 may be oriented horizontally when installed. It will be appreciated, however, that other suitable mounted orientations of the grid support members 202, 204, such as angled or slanted (i.e. between 0 and 90 degrees to horizontal), for example, are possible. Accordingly, although the support members 202, 204 may be described herein as being installed horizontally in one exemplary orientation, the invention is not limited to this orientation and other orientations may be used.
[0040]The longitudinal and lateral grid support members 202, 204 intersect to form an array of grid openings 208 which become essentially closed by ceiling panels 300 positioned below or within the openings 208. In some embodiments, the grid support members 202, 204 may be arranged in an orthogonal pattern wherein the grid support members 202, 204 intersect at right angles to form rectilinear grid openings 208 such as squares or rectangles (in top plan view). The terminal ends of the lateral grid support members 204 may be configured to interlock with the transversely oriented longitudinal grid support members 202 at right angles to form the rectilinear grid pattern in any manner used in the art. Any suitable interlocking mechanism and configuration may be used such as, without limitation, interlocking tabs and slots, brackets, clips, etc., for example.
[0041]The longitudinal and lateral grid support members 202, 204 are T-shaped (e.g. T-rails) in transverse cross section, for example, but can comprise any suitable cross-section. The grid support members 202, 204 have an inverted T-shaped configuration when in an installed position suspended from an overhead building ceiling support structure. The grid support members 202, 204 may be suspended from the building ceiling support structure via a hanger mechanism 203 such as, without limitation, fasteners, hangers, wires, cables, rods, struts, etc., for example.
[0042]Referring to
[0043]The grid support members 202, 204 may be made of any suitable metallic and/or non-metallic materials structured to support the dead weight or load of ceiling panels 300 without undue deflection. In some embodiments, the grid support members 202, 204 may be made of metal including aluminum, titanium, steel, and/or other materials, for example. In at least one embodiment, the grid support members 202, 204 may be a standard heavy-duty 15/16 inch aluminum T-rail, for example.
[0044]Further to the above, the ceiling panel 300 has a generally flat body with a substantially greater horizontal width and length than vertical thickness, as shown. The ceiling panel 300 includes a top surface 302, a bottom surface positioned opposite the top surface 302, and lateral sides 306 extending therebetween along four sides of the panel 300. The top and bottom surfaces 302, 304 may be generally planar and arranged parallel to each other in at least one embodiment. In one non-limiting embodiment, the lateral sides 306 may be planar forming opposing pairs of parallel lateral sides.
[0045]It will be appreciated that the top and bottom surfaces 302, 304 of the ceiling panels 300 may have other configurations and/or surface profiles rather than planar. In other possible configurations, the top and bottom surfaces 302, 304 may have irregular surfaces including various undulating patterns, designs, textures, perforations, ridges/valleys, wavy raised features, and/or other configurations for aesthetic and/or acoustic (e.g. sound reflection or dampening) purposes. Accordingly, the top and bottom surfaces 302, 304 are not limited to any particular surface profile or configuration.
[0046]The ceiling panels 300 may be constructed of any suitable material including without limitation mineral fiber board, fiberglass, jute fiber, metals, polymers, wood, and/or other materials, for example. In addition, the ceiling panels 300 may have any suitable dimensions and shapes including, without limitation, square or rectangular as viewed from the top, for example.
[0047]The ceiling panels 300 are mounted to the support grid 200 using torsion springs 400 and snap-on slideable slotted spring clips 350 which are movably mounted on the support grid 200. Each torsion spring 400 includes a coil 402 and two upwardly-projecting arms 404 which are disposed at angle in relation to each other forming a characteristic V-shape. Arms 404 may be arranged tangentially to the circular coil 402 which defines a mounting axis SA. The arms 404 have recurved or hooked ends 406 configured to engage the spring clips 350, as further described herein. The torsion springs 400 may be formed of a suitable spring material such as, without limitation, steel wire having an elastic memory, for example.
[0048]Referring primarily to
[0049]Referring to
[0050]The flanges 356 each include a laterally-open and elongate slot 358 which receives the arms 404 of a torsion spring 400 therein. The slots 358 extend in the longitudinal direction parallel to the longitudinal axis LA of grid support members 202. A lateral opening 359 in each flange 356 communicates with the slots 358 to facilitate the insertion of the spring arms 404 into the slots. Lateral opening 359 has a shorter longitudinal width (measured along the longitudinal axis LA) than the longitudinal length (measured along the longitudinal axis LA) of the slots 358 in one embodiment. The slots 358 define opposing ends 357 configured to engage and retain arms 404 of torsions spring 400, as further described herein.
[0051]Advantageously, the spring clips 350 are configured to slide in axial directions along the grid support members 202 when mounted thereon. This arrangement permits the clips 350 to be located and maintained in a continuum of possible mounting positions along the grid support members 202. Accordingly, an installer need not pre-measure and pre-mount the spring clips 350 in a precise location on the grid support members 202 to coincide with the fixed mounting positions of the torsion springs 400 on the ceiling panels 300. The spring clips 350 may easily be adjusted in axial position to match the fixed torsion spring locations while mounting the ceiling panel 300 to the support grid 200. The need for pre-measuring and a precise layout of the spring clips 350 on the grid support members 202 in advance are therefore obviated. Overall, this arrangement makes hanging the ceiling panels 300 more convenient and less time consuming, thereby advantageously reducing installation costs.
[0052]Referring to
[0053]The locking tabs 360 project horizontally inwardly from each lateral flange 356 into the receptacle 355 and are disposed at an angle A1 to the lateral flanges 356, in at least one embodiment. The locking tabs 360 have longitudinally-extending upturned edges 364 that engage the bottom surface 361 and bottom edge 363 on the grid support member bulbous top stiffening channel 220. This arrangement locks the spring clip 350 onto the grid support member 202 to prevent vertical or transverse detachment of the spring clip 350 from the support member 202. In non-limiting exemplary embodiments, angle A1 may be between 0 and 45 degrees, for example. The angled orientation of the locking tabs 360 further facilitates smooth engagement with the top slanted surfaces 366 of the top stiffening channel 220 of grid support member 202 and initiation of lateral deflection of the locking tabs 360 when the spring clip 350 is mounted on the support member 202, as further described herein.
[0054]The locking tabs 360 are spaced laterally apart by a distance D1 small enough to engage the opposing sidewalls 367 of the bulbous top stiffening channel 220 and displace or deflect the tabs 360 laterally outwardly when the channel is inserted into the spring clip receptacle 355, as best shown in
[0055]In at least one embodiment, the locking tabs 360 are configured to snap into a position beneath and proximate to the bottom surface 361 of the top stiffening channel 220 on a grid support member 202. The locking tabs 360 are each positioned vertically below and trapped beneath the bottom surface 361 such that the spring clip 350 cannot be vertically or transversely withdrawn from the grid support member 202 after installation of the spring clip 350. In such an arrangement, the spring clip 350 is freely slidable in opposing axial directions on the grid support member 202.
[0056]In another embodiment, the locking tabs 360 may be configured to frictionally engage the grid support member 202 (i.e. the bottom surface 361 of the bulbous top stiffening channel 220) creating a slight compressive force between the locking tabs 360 and the grid support member 202. This arrangement assists with retaining the locking tabs 361 in a desired axial mounting position on longitudinal grid support members 202 during the ceiling installation process. The locking tabs 360 are preferably configured, however, to not create a frictional force so great as to preclude the spring clip 350 from moving slideably in axial position along the grid support members 202. The locking tabs 360 therefore create a snug, but slideable fit and attachment between the spring clips 400 and the grid support members 202 capable of maintaining the axial position of the spring clips 400 during the installation of the ceiling panels 300.
[0057]The entire spring clip 350 may be made of an elastically-deformable resilient material to facilitate installing the clip 350 on the grid support members 202. In non-limiting exemplary embodiments, the spring clip 350 may be made of metal such as, without limitation, galvanized steel, cold rolled steel, spring steel, stainless steel, aluminum, etc., for example, and/or a non-metal material such as a suitable polymer with sufficient strength and flexibility, for example. The U-shaped geometry of the spring clip 350 when constructed of such a resilient material allows the opposing flanges 356 of the clip to spread apart horizontally and laterally outwardly when the bulbous top stiffening channel 220 is inserted vertically upwards into the receptacle 355 of the grid support member 202. Angled or slanted opposing top surfaces 366 on the top of the top stiffening channel 220 engage the locking tabs 360 to spread the sidewalls 351, 353 and flanges 356 apart, as further described in the mounting method disclosed herein.
[0058]In at least one embodiment, the spring clip 350 may have a unitary structure being formed of a single piece of material which may be bent, molded, or otherwise formed to produce the foregoing features of the clip. Accordingly, the flanges 356, locking tabs 360, sidewalls 351, 353, and top wall 365 may be integrally formed as part of the unitary spring clip structure. In other possible embodiments, one or more of these features may be formed as separate elements and assembled in the spring clip 350 by any suitable method (e.g. welding, soldering, fasteners, etc.).
[0059]In other contemplated embodiments, the locking tabs 360 need not be arranged in a laterally opposing in relationship to each other. Accordingly, each locking tab 360 may be axially offset or staggered in position from the other locking tab on flanges 356 in some embodiments. In addition, more than two locking tabs 360 may be provided including even and odd numbers of locking tabs. For example, in one possible alternative embodiment, a single centrally located locking tab 360 may be provided on one flange 356 and two axially spaced apart locking tabs may be provided on the other flange on opposite sides of the single tab. Numerous arrangements of locking tabs 360 are therefore possible. The locking tabs 360 have an axial length less than the axial length of the spring clip 350 in one embodiment, as shown (see, e.g.
[0060]An exemplary method for installing spring clips 350 on longitudinal grid support members 202 will now be described. Reference is made to
[0061]A spring clip 350 is provided and positioned above the top of grid support member 202. The receptacle 355 of the spring clip 350 is vertically aligned with the bulbous top stiffening channel 220 of grid support member 202 along the vertical centerline Cv defined by the support member. The spring clip 350 is then lowered into engagement with (if not already) the grid support member 202 wherein top stiffening channel 220 partially enters a lower portion of the receptacle 355, as shown in
[0062]The spring clip 350 is then pressed downward against the stiffening channel 220 of grid support member 202 with sufficient force to cause the locking tabs 360 and flanges 356 of the spring clip 350 to be progressively deflected and displaced laterally outwardly in opposing directions (see arrows) as the edges 364 of the locking tabs 360 slide farther downward and outward respectively along the slanted top surfaces 366 of the stiffening channel 220. The locking tabs 360 are deflected and displaced from an inward position to an outward position. Distance DI between the locking tabs 360 concomitantly increases from the undeflected position of the tabs shown in
[0063]Eventually, in the continued downward movement of spring clip 350, the locking tabs 360 will leave the top slanted surfaces 366 and slideably engage the vertical sidewalls 367 of bulbous top stiffening channel 220, thereby reaching a maximum lateral deflection position (i.e. outward position) as shown in
[0064]The locking tabs 360 continue to slide downward while maintaining contact with sidewalls 367 until they eventually reach a vertical position below the sidewalls 367 of the bulbous top stiffening channel 220 on the grid support member 202. The elastic memory of the spring clip 350 now causes the sidewalls 351, 353 and locking tabs 360 to snap back and move inwardly to their original undeflected inward position as shown in
[0065]The top stiffening channel 220 of the grid support member 202 is fully inserted into the upper and lower portions of the spring clip receptacle 355. The spring clip 350 is now fully mounted on the grid support member 202 (see, e.g.
[0066]It will be appreciated that numerous variations in the foregoing ceiling panel installation process and sequence are possible. In addition, it is possible to vertically or transversely detach or withdraw the spring clips 350 from the grid support member 202 by forcing or prying the flanges 356 and locking tabs 360 laterally apart with a tool, and then sliding the spring clip 350 upwardly back off the grid support member 202. This will disengage the locking tabs 360 from underneath the bottom surface 361 of the top stiffening channel 220 to unlock the spring clips 350.
[0067]In some embodiments, it will be appreciated that spring clips 350 may also be mounted on the lateral grid support members 204 in the same manner described above either in addition to or instead of the longitudinal grid support members 202 to support the ceiling panels 300.
[0068]Multiple spring clips 350 may be provided to satisfactorily support a single ceiling panel 300 from the overhead support grid 200. In one non-limiting embodiment, four spring clips 350 may be provided as shown in
[0069]After the spring clips 350 have been installed on the support grid 200, the ceiling panels 300 with pre-installed torsion springs 400 (see, e.g.
[0070]Referring now to
[0071]To complete the installation of the ceiling panel 300, the panel is raised vertically toward the grid support members 202. The torsion springs 400 are pushed upwards further through the slot 358, thereby allowing the spring arms 404 to spread farther apart. In at least one embodiment, the ceiling panel 300 is raised until top surface 302 abuts the bottom surface 206 of the grid support member 202 as shown in
[0072]In various embodiments, as discussed above, the torsion springs 400 hold the ceiling panels 300 to the support grid 200. In many instances, the torsion springs 400 hold the ceiling panels 300 of a ceiling system 100 in alignment with the support grid 200 and in alignment with one another. In such instances, the bottom surfaces 304 of the ceiling panels 300 can lie flat in the same horizontal plane. Also, in such instances, the gaps between the lateral sides of the ceiling panels 300 can be constant, or consistent, around the perimeter of the ceiling panels 300. Such alignment between the ceiling panels 300 can be aesthetically pleasing. In other instances, however, the ceiling panels 300 may be misaligned. For instance, the bottom surfaces 304 of the ceiling panels 300 may not all lie flat in the same horizontal plane. Also, for instance, a gap between one lateral side of a ceiling panel 300 and an adjacent ceiling panel 300 may be larger than a gap between another lateral side of the ceiling panel 300 and another adjacent ceiling panel 300. Another way of saying the above is that the ceiling panels 300 can be mis-registered with one another and/or with the support grid 200. Such misalignment, or mis-registration, may not be aesthetically pleasing. Discussed below are registration guides, or aligners, that can assist in maintaining the alignment, or registration, between the ceiling panels 300 and/or between the ceiling panels 300 and the support grid 200.
[0073]A registration guide 600 is illustrated in
[0074]The attachment portion 601 comprises a through hole 609 defined therein that is configured to receive a fastener therethrough. Referring primarily to
[0075]Referring primarily to
[0076]Notably, the first projection 602 of the registration guide 600 is recessed laterally inwardly from a lateral side of the ceiling panel 500, such as a lateral side 506 or 508, and the second projection 604 is also recessed laterally inwardly from another lateral side 506 or 508 of the ceiling panel 500. The first projection 602 comprises a first registration face 603 configured to engage a longitudinal grid support member 202 or a lateral grid support member 204, depending on the orientation of the registration guide 600 on the ceiling panel 500, and the second projection 604 comprises a second registration face 605 configured to engage a longitudinal grid support member 202 or a lateral grid support member 204, again depending on the orientation of the registration guide 600 on the ceiling panel 500. More specifically, referring again to
[0077]Moreover, as a result of the above, the registration guides 600 control the position, or registration, of the ceiling panels 500 relative to one another within a ceiling system 1100 via the engagement between the registration guides 600 and the support grid 200. Moreover, as a result of the above, the registration faces 603, 605 create friction interfaces between the ceiling panels 500 and the support grid 200 which can hold the ceiling panels 500 in a proper orientation within the support grid 200.
[0078]In many instances, referring again to
[0079]As discussed above, a ceiling panel 500 comprises four registration guides 600—one attached to the ceiling panel 500 at each corner 505. Such an arrangement can control the position, or registration, of the ceiling panel 500 relative to the support grid 200 at all four corners 505 of the ceiling panel 500. Other embodiments are envisioned with less than four registration guides 600. For instance, at least one embodiment is envisioned in which a ceiling panel 500 comprises two registration guides 600 attached to the ceiling panel 500—each registration guide 600 being mounted at a diagonally opposite corner 505 of the ceiling panel 500. Stated another way, the two registration guides 600 are caddy-corner to one another. In such embodiments, the two registration guides 600 are engaged with the support grid 200 and can be sufficient to control the position of the ceiling panel 500 relative to the support grid 200 and control the position of the ceiling panels 500 relative to one another.
[0080]Referring again to
[0081]As discussed above, each corner point 515 is defined between a first lateral side 506 and a second lateral side 508 of the ceiling panel 500 and by a 90 degree corner angle, or an at least substantially 90 degree corner angle. The bifurcation axis 519 of a corner 505 evenly splits the corner angle into halves. For instance, the corner angle is divided into two 45 degree halves by the bifurcation axis 519 when the corner angle is 90 degrees. As a result, the bifurcation axis 519 of a corner 505 evenly divides the corner 505 into two halves, i.e., first and second halves 526, 528. The above being said, a corner can be defined by any suitable angle.
[0082]Further to the above, each registration guide 600 brackets a corner 505 of the ceiling panel 500. With reference to the registration guide 600 in
[0083]Notably, referring primarily to
[0084]In various instances, further to the above, both of the first and second registration faces 603, 605 of the registration guides 600 engage the support grid 200 when a ceiling panel 500 is assembled to the support grid 200. In such instances, a first reaction force is transmitted through the first projection 602 of a registration guide 600 and, concurrently, a second reaction force is transmitted through the second projection 604 of the registration guide 600. In various other instances, only one of the first and second registration faces 603, 605 of a registration guide 600 may engage the support grid 200 when a ceiling panel 500 is assembled to the support grid 200 owing to various manufacturing and assembly variations. In such instances, a reaction force will be transmitted through one of the first and second projections 602, 604 but not the other. In some such instances, the registration guide 600 may tend to rotate about the fastener 610 holding the registration guide 600 to the ceiling panel 500. Even though the registration guide 600 may, or may not, rotate in such instances, the rotation of the registration guide 600, if it does occur, does not prevent the assembly of the ceiling panel 500 to the support grid 200. In various instances, the pocket 625 defined in the registration guide 600 provides a clearance window that allows the registration guide 600 to rotate, at least slightly, with respect to the top face 502 of the ceiling panel 500 without a portion of the registration guide 600 blocking the assembly of the ceiling panel 500 the support grid 200.
[0085]Further to the above, referring again to
[0086]In various embodiments, a registration guide is comprised of bent metal. In at least one such embodiment, a piece of sheet metal is cut and bent into a shape that generally approximates the shape of the registration guide 600. For instance, the piece of bent metal comprises a flat, or an at least substantially flat, attachment portion, similar to the attachment portion 601, a first projection extending from the attachment portion, and a second projection extending from the attachment portion. The first projection comprises a bent leg that extends upwardly and away from the attachment portion and then back downwardly to form a first registration face, similar to the first registration face 603. Similarly, the second projection comprises a bent leg that extends upwardly and away from the attachment portion and then back downwardly to form a second registration face, similar to the second registration face 605.
[0087]As discussed above, the first registration face 603 of first projection 602 is recessed laterally inwardly from a lateral side of the ceiling panel 500, such as a lateral side 506 or 508, and the second registration face 605 of the second projection 604 is also recessed laterally inwardly from another lateral side 506 or 508 of the ceiling panel 500. As a result, the first registration face 603 and the second registration face 605 are positioned over the top side of the ceiling panel 500. In various alternative embodiments, the first registration face 603 and/or the second registration face 605 is positioned laterally outwardly with respect to a lateral side 506, 508 of the ceiling panel 500. As such, the first registration face 603 and/or the second registration face 605 are not positioned over the top side of the ceiling panel 500.
[0088]Referring again to
[0089]In various embodiments, as discussed above, registration guides 600 are attached to the top side 502 of the ceiling panel 500 by fasteners 610. In various other embodiments, the ceiling panel 500 comprises a panel body and at least one of the registration guides 600 is integrally formed with the panel body. In at least one such embodiment, the panel body is comprised of material that is pressed into shape during a manufacturing process and, during this process, one or more registration guides 600 are pressed into, or molded into, the top face 502 of the ceiling panel 500. In various embodiments, all of the registration guides 600 are integrally formed with the panel body. In at least one embodiment, at least one of the registration guides 600 is integrally formed with the panel body while at least one of the registration guides 600 is attached to the panel body by a fastener 610. In at least one embodiment, at least one of the registration guides 600 is integrally formed with the panel body of a ceiling panel 500 which also includes at least one registration guide 600′ adjustably mounted to the panel body. In such embodiments, the at least one registration guide 600′ can be adjusted to fine tune the fit of the ceiling panel 500 with the support grid 200. In at least one embodiment, a ceiling panel 500 can include at least one integrally-formed registration guide 600, at least one registration guide 600, and at least one adjustable registration guide 600′.
[0090]
[0091]As discussed above, the registration guides 600 and 600′, for example, can orient the ceiling panels 500 of a ceiling system 1100 relative to one another by orienting the ceiling panels 500 relative to a support grid 200, for example. In various instances, the registration guides 600 and 600′ can control the rotational, or angular, orientation of the ceiling panels 500 relative to the support grid 200. More specifically, the support grid 200 comprises grid openings 208 defined therein by grid support members 202, 204 that are engaged by the registration guides 600, 600′ when a ceiling panel 500 is attached to the support grid 200 that can control the rotational orientation of the ceiling panel 500 relative to the grid opening 208. Further to the above, the proximity of the registration faces 603, 605 of the registration guides 600 and 600′ to the corners 505 of the ceiling panels 500 provides a high degree of control over the rotational orientation of the ceiling panels 500 relative to the grid openings 208, and to one another.
[0092]Further to the above, referring to
[0093]Further to the above, a ceiling panel 700′ is illustrated in
[0094]Referring again to
[0095]Referring again to
[0096]As depicted in connection with the embodiments of
Claims
What is claimed is:
1. A ceiling system, comprising:
a grid frame, comprising:
a first grid member; and
a second grid member extending orthogonally to the first grid member;
a ceiling panel, comprising:
a top side;
a bottom side opposite the top side;
a first lateral edge;
a second lateral edge;
a corner defined between the first lateral edge and the second lateral edge;
a registration guide mounted to the top side, wherein the registration guide comprises a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge; and
a torsion spring mounted on the ceiling panel; and
a spring clip mounted on the grid frame, wherein the torsion spring is engageable with the spring clip to support the ceiling panel from the grid frame, wherein the first projection of the registration guide comprises a first registration face adjacent the first lateral edge configured to engage the first grid member when the ceiling panel is mounted to the grid frame, and wherein the second projection comprises a second registration face adjacent the second lateral edge configured to engage the second grid member when the ceiling panel is mounted to the grid frame.
2. The ceiling system according to
3. The ceiling system according to
4. The ceiling system according to
5. The ceiling system according to
6. The ceiling system according to
7. The ceiling system according to
8. The ceiling system according to
9. The ceiling system according to
10. The ceiling system according to
11. A ceiling system, comprising:
a grid frame, comprising:
a first grid member; and
a second grid member extending orthogonally to the first grid member;
a ceiling panel, comprising:
a planar body, comprising:
a top side;
a bottom side opposite the top side;
a first lateral edge;
a second lateral edge;
a corner defined between the first lateral edge and the second lateral edge;
an integral registration guide integrally formed with the planar body, wherein the integral registration guide comprises a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge; and
a torsion spring mounted on the ceiling panel; and
a mount mounted on the grid frame, wherein the torsion spring is engageable with the mount to support the ceiling panel from the grid frame, wherein the first projection of the integral registration guide comprises a first registration face adjacent the first lateral edge that faces the first grid member when the ceiling panel is mounted to the grid frame, and wherein the second projection of the integral registration guide comprises a second registration face adjacent the second lateral edge that faces the second grid member when the ceiling panel is mounted to the grid frame.
12. The ceiling system according to
13. The ceiling system according to
14. The ceiling system according to
15. A ceiling panel for use with a grid frame having a first grid member and a second grid member, the ceiling panel comprising:
a top side;
a bottom side opposite the top side;
a first lateral edge;
a second lateral edge;
a corner defined between the first lateral edge and the second lateral edge;
a registration guide mounted to the top side, wherein the registration guide comprises a first projection extending from a first side of the corner adjacent the first lateral edge and a second projection extending from a second side of the corner adjacent the second lateral edge; and
a connector configured to attach the ceiling panel to the grid frame,
wherein the first projection of the registration guide comprises a first registration face adjacent the first lateral edge configured to engage the first grid member when the ceiling panel is mounted to the grid frame, and wherein the second projection comprises a second registration face adjacent the second lateral edge configured to engage the second grid member when the ceiling panel is mounted to the grid frame.
16. The ceiling panel according to
17. The ceiling panel according to
18. The ceiling panel according to
19. The ceiling panel according to
20. The ceiling panel according to