US3835614A

US3835614A - Suspension system

Info

Publication number: US3835614A
Application number: US00181121A
Authority: US
Inventors: L Downing
Original assignee: DONN PROD Inc
Current assignee: DONN PROD Inc
Priority date: 1971-09-16
Filing date: 1971-09-16
Publication date: 1974-09-17
Anticipated expiration: 1991-09-17

Abstract

A suspended ceiling system includes flanged runners having exposed surfaces in planes other than those of the flanges, and may have such runners intersected by similar or different members to form a supporting grid. The spaces between runners or grid members are filled with ceiling panels or light fixtures which may be planar or non-planar shapes, such as recessed truncated pyramids. Runners having recessed central planes are connected at intersections by lifting a vertical tongue into the space between folded metal sheets of the intersected runner and bending the tongue to lock the joint. Runners having projecting central planes are connected at intersections by cross-shaped inserts which may be weakened to accommodate excessive thermal expansion in case of fire. Special connecting clips are provided for joining dissimilar grid members and for joining the parts of truncated pyramid frames. Other clips are used to locate partition supporting channels.

Description

United States Patent [191 Downing, Jr.

[ SUSPENSION SYSTEM [75] Inventor: Lucien R. Downing, Jr., Avon Lake,

Ohio [73] Assignee: Donn Products, Inc., Westlake, Ohio [22] Filed: Sept. 16, 1971 [21] Appl. No.: 181,121

[52] U.S. Cl 52/666, 52/28, 52/475,

52/484, 98/40 D [51] Int. Cl E04b 5/52 [58] Field of Search 52/488, 495, 475, 484,

52/666, 667, 668, 496, 144; 287/189.36 A; 98/40 D, 40 DL, 29, 31, 32

[56] References Cited UNITED STATES PATENTS 2,221,001 11/1940 Lucius 98/40 D 3,190,208 6/1965 3,319,558 5/1967 3,409,766 11/1968 3,633,952 1/1972 3,668,826 6/1972 3,685,235 8/1972 Lang 52/39 FOREIGN PATENTS OR APPLICATIONS 1,252,366 12/1960 France 52/484 [451 Sept. 17, 1974 Primary ExaminerJohn E. Murtagh Attorney, Agent, or FirmAlan N. McCartney [57] ABSTRACT A suspended ceiling system includes flanged runners having exposed surfaces in planes other than those of the flanges, and may have such runners intersected by similar or different members to form a supporting grid. The spaces between runners or grid members are filled with ceiling panels or light fixtures which may be planar or non-planar shapes, such as recessed truncated pyramids.

Runners having recessed central planes are connected at intersections by lifting a vertical tongue into the space between folded metal sheets of the intersected runner and bending the tongue to lock the joint. Runners having projecting central planes are connected at intersections by cross-shaped inserts which may be weakened to accommodate excessive thermal expansion in case of fire.

Special connecting clips are provided for joining dissimilar grid members and for joining the parts of truncated pyramid frames. Other clips are used to locate partition supporting channels.

2 Claims, 21 Drawing Figures PATENIEB SE?! SHEET 2 OF 6 F'IG.3

ATTORNEYS i PAIENTED sum 3 or s INVENTOR. LUCIEN R. DOWNING. JR.

ATTORNEYS i PATENIED snwsure."

INVENTOR. LUCIEN R. D OWNINGJR. w", n Z MQ7 ATTORNEYS FATEN TED SEP I 71974 SHEET 6 OF 6 INVENTOR. 79 LUCIEN R. DOWN|NG.JR.

* FIG.2| Mk RNEYS AT TO SUSPENSION SYSTEM BACKGROUND OF THE INVENTION Ceilings of offices, schools, and commercial buildings are now frequently composed of suspended grids which support ceiling panels, some of the panels containing lighting fixtures or other functional devices, with the space between the suspended ceiling and the supporting structure serving to contain piping, ducts, electrical wiring, and the like.

The suspended grids which support the actual ceiling panels have sometimes been excessively flimsy so that they are difficult to install and maintain, sometimes excessively massive so that they are expensive and awkward to install, and generally lacking in esthetic qualities necessary to good architectural design. Those grid structures which are inherently attractive, because of exposed width permitting them to form a part of the architects decorative ceiling design, have often lacked the versatility required for accommodation to different structural needs and decorative plans.

SUMMARY OF THE INVENTION This invention involves a system of suspended ceiling elements, including grid elements of substantial width, and supported units especially designed for cooperation with the wide grid.

The main grid elements are made by folding of sheet metal to provide suitable flanges for receiving the supported units and to provide longitudinal surfaces for decorative, and optionally special functional, purposes. These decorative surfaces may be either recessed so that they lie above the plane of the supporting flanges or projecting so that they are below the plane of the supporting flanges.

The supported units may include transverse or intersecting grid elements, either similar to or different from the main grid elements.

The supported units will also include ceiling panels of some kind, either plain or of porous acoustic material, or transparent or translucent if light is to be supplied from above. Other kinds of supported units may include frames or panels, or combinations of frames and panels, to constitute non-planar ceiling elements such as pyramids, truncated pyramids, cones, cylinders, hemispheres, waves, prisms, and other decorative shapes. In addition, provision may be made for direct or indirect support of lighting fixtures, ventilating duct openings, sprinkler heads, sound transmission equipment, and the like.

Because of the inherent strength and rigidity of the grid elements of this invention, they have been found to be suitable for positioning and lateral bracing of the tops of partitions, and this invention includes connecting elements for that purpose.

All of the various kinds of elements mentioned may be brought together in a multitude of different arrangements, to provide for functional needs of different kinds, and also to provide scope for the creative imagination of the architect in providing functional and decoratively distinctive ceiling designs.

THE DRAWINGS FIG. 1 is a perspective view of one embodiment of a suspended ceiling according to this invention.

FIG. 2 is a bottom perspective view and FIG. 3 is a top perspective view of a crossing of the grid of the ceiling in FIG. 1. I

FIG. 4 is a sectional along line 44 of FIG. 5 and FIG. 5 shows a joint in one of the truncated pyramidal frames of FIG. 1, FIG. 6 is a section along the line 6-6 of FIG. 7 and FIG. 7 shows how the pyramidal frame is supported on the ceiling grid.

FIG. 8 is a plan view of another embodiment at a crossing of the ceiling grid. FIG. 9 is a cross-sectional detail of FIG. 8 on the line 9-9, FIG. 10 is a section on the line 1010 of FIG. 8, and FIG. 11 is a view partly in section on the line 1l-11 of FIG. 8. FIG. 12 is an exploded perspective view of the crossing.

FIG. 13 is a plan view on an enlarged scale of a part of the structure of FIG. 8 illustrating its accommodation to excessive expansional forces.

FIG. 14 is a sectional view along line l4-14 of FIG. 1 illustrating attachment of a partition along one of the grid members, and FIG. 15 is a perspective view of a fastening clip used in partition attachment.

FIG. 16 is a perspective view illustrating attachment of a partition transverse to the grid members.

FIG. 17 and FIG. 18 are sectional views with sections taken on lines l7l7 and 18l8 respectively on FIGS. 5 and 7, showing how ceiling panels are supported on the truncated pyramidal frames of FIG. 1.

FIG. 19 is a perspective view of a modification of the suspended ceiling arrangement shown in FIG. 1, in which one of the flat areas is subdivided.

FIG. 20 shows the manner in which a supplemental T-beam is connected to the main grid of FIG. 19, and FIG. 21 is a section on the line 2l2l.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG. 1, the suspended ceiling system of this invention in a preferred embodiment includes a rectangular grid composed of parallel main runners and cross runners 31 intersecting the main runners at desired intervals, which may be the same as the spacing between the main runners 30.

Supported on the grid of main runners 30 and cross runners 31 are ceiling elements of the appropriate size and shape to fill the openings in the grid, such ceiling elements in this case including flat ceiling panels 32. The panels 32 may be of any desired or suitable material such as porous or perforated sound-absorbing acoustic ceiling tile.

In the particular arrangement shown in FIG. 1, certain of the openings are provided with lighting fixtures which may be in any desired pattern, such as solid rows or blocks, to suit the needs of the particular design for intensity and distribution of illumination and for decorative appearance. In this instance, there are three rows of recessed truncated pyramids 33 between two rows of flat panels 32. Each truncated pyramid 33 consists of a rectangular frame 34 supported through splay legs 35 on the comers of intersecting main runners 30 and cross runners 31. The trapezoidal spaces between the frame members 34, splay legs 35, and main or

cross runners

30 or 31, are occupied by additional trapezoidal ceiling panels 36. The spaces in the rectangular frames 34 are filled by lighting fixtures, of which only the translucent diffuser panel 37 is visible.

The grid construction is shown in FIGS. 2 and 3, in which upper and lower perspective views are presented of an intersection of a main runner 30 and two opposing cross runners 31. In this construction the

runners

30 and 31 are identical in cross-sectional shape. Each runner is composed of a single sheet of metal folded to a symmetrical shape having a central horizontal portion 38, on each edge of which the sheet is folded upward to form a vertical inner web 39 and then folded downward to form a vertical outer web 40 extending below the horizontal portion 38. A short distance below the central horizontal portion 38 the sheet on each side is folded outward to form a horizontal flange 41, the edge of which is folded back over itself for stiffness and to form a smooth rounded margin 42.

At the location of each intersection holes 43 extend through the vertical inner web 39 and outer web 40 to receive the hooked ends 44 of a stiff wire stirrup 45, which in turn is hung from the structural ceiling by a flexible wire hanger 46. The several hangers 46 can be shortened or lengthened in the usual manner for precise leveling of the structure.

At each intersection the vertical outer web 40 is cut away to leave a notch with an upper edge 47 aligned with the top surface of the central horizontal portion 38 of the runner and with side edges 48 spaced the same distance as the space between the two vertical inner webs 39. In addition the notch extends through the width of each flange 41, but with a slightly greater width corresponding to the distance between the outer faces of outer webs 40. The flange 41 on either side of the notch is offset upward by the thickness of the sheet along a line extending outward at 45 from the intersection of flange 41 and outer web 40, so as to form a mitered shoulder 49. Preferably the margin 42 of the flange is omitted at this location to facilitate formation of the mitered shoulder 49. In addition, the material at the folded upper edge of vertical inner and

outer webs

39 and 40 is removed to provide an opening 0 into the space between

webs

39 and 40 on each side.

The ends of the cross runners 31 are shaped to match snugly with the main runners 30 at the intersection by a square cut of vertical inner and

outer webs

39 and 40 to fit accurately against the outer web 40 of the main runner 30. In addition, the flanges 41 on either side are mitered and the margin 42 is omitted above the mitered portion of each flange. The central horizontal portion 38 of each end is cut in the shape of a tongue with its base 51 of the same width as the space between the sides of the notch 48, and with its upper end narrowed to permit passage between the vertical inner and

outer webs

39 and 40 of the main runner 30 and out through the opening 50. The tongue is bent upward just beyond the squared ends of the inner and

outer webs

39 and 40 of the cross runner, and is weakened by a hole 52 at the location where it will protrude through opening 50.

Assembly of the cross runners 31 with the main runners 30 is accomplished quickly and accurately by placing the end of cross runner 31 below its final position and lifting it into position with the base 51 of the tongue positioned between sides 48 of the notch in the main runner, andwith the tongue lying in the space between inner and

outer webs

39 and 40 of the main runner and the tip of the tongue projecting through the opening 50. When the mitered flanges of the cross runner 31 are seated against the mitered shoulders 49 of the flanges of the main runner 30, the tip of the tongue is bent over at the location of the hole 52 as shown at 53 in FIG. 3 to lock the assembly together. This forms a strong and rigid joint.

A grid formed of main runners 30 and cross runners 31 intersecting in the manner just described, will present an attractive appearance because the flanges come together in neat mitered joints as shown in FIG. I and FIG. 2 and because the recessed central portion 38 presents a pleasing contrast of location. If desired, a contrast of appearance can also be provided by finishing the different portions of the runners in different colors or tones so as to accentuate the existence of different visible planes. In addition, a difference in color or texture can be provided between the visible lower surfaces of flanges 41 and the ceiling panels 32 which rest on the upper surfaces of the flanges.

In case it is desired to provide heating, cooling, or ventilation through the ceiling, inlets or outlets for the circulation of air can be provided in any or all of the supported panels, or in the supporting grid. Thus, if it is desired to use the space between the structural ceiling and the suspended ceiling as a plenum chamber for the circulating air, openings for the communication of the air with the room below the suspended ceiling are easily provided. As shown in FIGS. 2 and 3, ventilating slots 54 may be provided in the central horizontal portion 38 of some or all of the runners. Since the space above the suspended ceiling is generally completely dark, it will often be preferred to make the central horizontal portion 38, in which the ventilating slots are made, black or a dark color so that the existence and location of the slots will not be unnecessarily conspicuous.

The truncated pyramids 33 shown in FIG. I are constructed on a frame 34 resting on splay legs 35, as pre viously stated. Both the splay legs 35 and the members forming the frame 34 are preferably made from the known type of structural beam shown in FIGS. 17 and 18. This beam has the general shape of an inverted T so as to present flanges for supporting the several panels making up the truncated pyramidal surface.

This structural beam may be made from sheet metal folded to form a box-shaped stiffening bead 60 along one edge of a double web 61, and with the edges of the two thicknesses of metal forming the web 61 flared out to form two flanges 62. Separation of the flanges is prevented, and a finished appearance is provided by capping the flanges 62 with a metal strip 63 having the desired color and finish, applied below the flanges and with its edges folded over the top of the flanges. In this construction the several panels of the truncated pyramid meet at obtuse angles, and the flanges 62 along with the cap strip 63 form an obtuse angle approximating that of the adjoining panels. To permit a single size and kind of beam to be used both for the frame 34 and the splay legs 35, the members of the frame 34 are canted so that the symmetrically placed flanges 62 will lie respectively in the approximate plane of the central light diffuser panel 37 and trapezoidal panel 36, which means that the upper edges of the webs 61 will be tilted away from one another, as shown in FIG. 17. On the other hand, the splay legs 35 will have their webs 61 each in a vertical plane as shown in FIG. 18.

The assembly of a rectangular frame 34 with its splay legs 25 is accomplished by cutting off the bead 60 and the adjoining portion of the web 61 at both ends of each member of the frame 34 and both ends of each splay leg at an angle such as to form a sloping web end 64, and also making a pair of fastener holes 65 in the adjacent end portion of each web 61. At the same time, the flanges 62 are mitered at approximately 45 on the side of each member of the frame 34 turned toward the inside of the frame, so they will form a tight joint, and the flanges on the outside, as well as on both sides of the upper end of the splay legs 35, are cut off at an angle half that of the angle between the frame member and the splay leg.

Stiff metal intersection clips 66 are made by stamping the metal in a symmetrical shape about a plane of symmetry representing the plane of contact of a splay leg 35 and a member of the frame 34. Each end 67 of the clip 66 is a width to fit against the web 61 and between the bead and flange 62 of one of the members to be joined, and has holes corresponding in position to the holes in the webs. The portion of the clip extending over the sloping web end 64 is offset by half of the thickness of the web 61 (that is, by the thickness of one of the two thicknesses of metal making up the web) to fonn a shoulder 68 engaging the sloping web end 64. The offset portion is also provided with symmetrically located fastener holes 69, preferably four such holes, or still better, three holes with the location of the fourth occupied by a dimple 70 pressed out of the metal.

In assembly of the truncated pyramid, the four members of the rectangular frame 34 have an intersection clip 66 riveted to the outer side of each end through the fastener holes 65. The four members are then brought together with the protruding half of a clip 66 at each end of each member facing a protruding half of a corresponding clip 66 on the adjacent member, and the dimple 70 on one clip of each facing pair is slipped into the corresponding hole 69 of the other clip of each pair. With the adjoining parts thus properly located, the pair of clips at each corner of the frame 34 are fastened by a rivet through the other hole 69. This leaves two holes 69 unused in each clip 66, (or a hole and a dimple, as the case may be), these unused holes being provided simply for purpose of symmetry to avoid a need for right and left hand clips and to permit the clips to be put in place without troubling to determine whether the proper end is in the proper location. At this stage the frame 34 is complete and can be handled or shipped as a subassembly.

For completion of the assembly, it will be found that the protruding ends of the pairs of clips 66 at each corner of the frame 34 are spaced apart by exactly the thickness of the web 61 of the splay leg 35, because of the offset at the shoulder 68 of each clip. Consequently, the web 61 of the upper end of a splay leg 35 is slipped into the space between the ends of a pair of clips at a comer of the frame 34 until the sloping web end 64 engages the shoulders 68 and the fastener holes 65 match up, and is connected by riveting through the holes 65.

The lower end of each splay leg is provided with a splay clip 71 as shown in FIGS. 6 and 7. Each splay clip 71 is riveted to the end of the web 61 of the splay leg in a manner similar to that of fastening the intersection clips 66 to the frame 34. The free end 72 of the splay clip has a shape somewhat like a letter Z so that the very end can b slipped between the end face of inner and

outer web

39 and 40 of the cross runner 31 and the side of outer web 40 of the main runner 30, at a level above that of the tongue 51. Since the splay clip 71 is necessarily very thin to permit placement of its free end 72 in the space just mentioned, it is preferably stiffened by striking a welt 73 in the material.

The free end 72 of splay clip 71 is bent at a 45 angle because of the diagonal position of the splay leg 35 to which its other end is attached. Two of the four splay clips 72 needed for each truncated pyramid 33 will have a bend to the right and the other two will have a bend to the left to permit them to fit against the web of the main runner 30 at the intersection.

As mentioned above, it is not necessary that the grid be composed of members of identical appearance. This is particularly the case if it is desired to subdivide the area enclosed by a pair of main runners 30 and cross runners 31, as shown in FIG. 19. For example, it may be desired to alternate truncated pyramids in one row with subdivided flat areas having the subdivisions separated and supported by T-beams 75. The T-beams may be of any desired construction, but a preferred construction is similar to that of the rectangular frames 34 and splay legs 35 in FIGS. 17 and 18, except that the flanges are in a single plane perpendicular to the web.

When T-beams are used, there will be one or more T-beams 75 in any particular grid opening, depending on whether the opening is subdivided into two spaces, or three spaces as shown in FIG. 19, or even more. Also, cross runners 31 can be omitted entirely, with ceiling panels abutting one another along the length of the main runners 30, or if preferred, cross runners 31 can be replaced or supplemented by T-beams 75, supported on the main runners 30 rather than on the cross runners 31 as shown in FIG. 19. In any such arrangement, the ceiling panels or other supported units can be similar or different, to suit needs or preferences of the designers and users.

The support of the T-beams 75 is accomplished by end clips 76 fitting snugly between T-beam bead 77 and T-beam flange 78, and fastened to T-beam web 79. The part of end clip 76 projecting beyond the end of T- beam 75 has an offset 80 so that it forms a continuation of web 79 and will fit in a slot which is in exact alignment with the web 79. A vertical slot 81 is provided in the

webs

39 and 40 of a main runner 30 or cross runner 31, as the case may be, and the projecting end clip tip 81 is made of a width and location to fit the slot, and is bent at a right angle to hook against the face of the inner web 39 of the runner. The bottom edge 84 of the offset portion of the clip is so located as to rest on flange 41 of the runner with the bottom of T-beam flange 78 aligned with the bottom of runner flange 41. The top of the offset portion of the clip is also shaped to space the top of T-beam 75 from the outer web 40 of the runner by the exact amount required for precise horizontal alignment of the visible bottom faces of

flanges

78 and 41, which is easily accomplished by providing a vertical end surface 83 adjacent to the tip 82 of the end clip 76, with the end surface 83 spaced from the proximal face of the offset 80 by the width of runner flange 41.

The end clip 76 has its top and bottom edges bent over to form top and bottom stiffening flanges 85 which bear respectively against T-beam head 77 and T-beam flange 78. The proximal end 86 of the clip is of restricted width and is bent at right angles in the direction opposite to the stiffening flanges 85. In the body of the clip a U-shaped cut is made with the tips of the U midway between the proximal end 86 and the offset 80,

leaving a tab 87. Preferably, the base of tab 87 is weakened, to facilitate bending, by a hole 88, and the tab is bent at a right angle parallel to proximal end 86. Vertical slots 89 are placed in T-beam web 79 in locations corresponding to tab 87 and proximal end 86.

The T-beams are affixed to a pair of runners or 31 having slots 81 in directly opposed locations by hooking the free end or tip 82 of an end clip 76 in each of the slots and positoning the T-beam with its web 79 in alignment with the slots and its flange 78 in horizontal alignment with the runner flange 41. Each clip 76 is then swung toward the T-beam web 79 so that tab 87 and proximal end 86 can be slipped through the slots provided for them. When the clip is in firm contact with T-beam web 79, the tab 87 is bent through a 90 are into a position 90 engaging the opposite face of the web 79. All this takes only a moment to accomplish and locks Tbeam 75 into an accurate and immovable relationship to the

runner

30 or 31.

After assembly of the grid, consisting of main runners and cross runners, or main runners and T-beams, or main runners and cross runners plus subdividing T- beams, in the simple and rapidly accomplished procedures described above, the ceiling is completed by simply dropping a supported element such as a ceiling panel, light fixture, or other functional unit, having the proper size and shape, on the flanges circumscribing each opening in the grid.

As an alternative to the grid described above with a recessed center surface in the runners, a construction can be provided having a central horizontal portion of the runners projecting downward to a position below the flanges which support the ceiling panels, as shown in FIGS. 8, 9 and 10.

In this alternative construction, when the grid is composed of runners 101 of identical appearance in both directions, lengthwise and crosswise, it is presently preferred to supply the runners in lengths extending from one main intersection to another, and to join them by cross-shaped connectors 102 shown in assembled position in FIG. 8 and partly disassembled in FIG. 12.

The runners 101 in this embodiment are made of a strip of sheet metal folded to provide a central horizontal surface 103, on either edge of which is an upwardly extending inner web 104, which is folded tightly on itself to form an outer web 105, interrupted by a horizontal shoulder 106, so that the outer web bottom 107 is spaced from the inner web 104 by a downwardly opening groove. Each outer web bottom 107 terminates in a horizontal flange 108 at a level somewhat above that of the central horizontal portion 103 so that a significant portion of the inner web 104 is exposed. The edge of the sheet metal is folded back over itself for stiffness and to form a smooth rounded margin 109 on the flange 108.

If desired, a projecting continuation of the central horizontal portion may be turned up to form a closure 128 at each end of each runner 101. Near each end of each runner 101 a series of three slots 110 is cut through the combined thickness of inner web 104 and outer web 105 just above the shoulder 106 on both sides.

The cross-shaped connectors 102 are metal stampings consisting of a body with four arms 111, which are stiffened by having a rabbet 112 formed along the edges of the arms and particularly around the junctions of the arms. On both sides of each arm 11 1 downtumed flanges 113 have outer faces spaced by exactly the distance between the inner faces of inner webs 104 of the runners 101. Projecting beyond the outer faces of down-turned flanges 113 on either side of each arm are a pair of tongues 114 spaced to engage the first and last of each group of three slots 110. Where such a tongue 114 coincides in location with the top of downtumed flange 113, the corner of the flange 1 13 and edge of the rabbet 1 12 is interrupted by a U-shaped hole 115, leaving the tongue 114 projecting between the arms of the U-shaped hole. Where a tongue 114 does not coincide with the location of downtumed flange 113 the rabbet 112 should terminate near the tongue in an edge 116 lying in the same plane as flange 113.

It is preferred to modify the structure of tongues 114 to permit thermal expansion of runners 101 in the event of a fire as will be explained below. This modification may include all or several of the following. Rabbet 112 is relieved at the intersection 117 of the arms 111. One of the tongues on each side of each arm 11 1, in this case the tongue closest to intersection 117, is notched so as to leave a slender remnant 118 separated from the remainder of the tongue 114 by notch 119 of a width corresponding to the magnitude of the anticipated thermal expansion. The other tongue 114 has a corner 120 removed to the same width as notch 119.

The center of the cross-shaped connector 102 is provided with several openings. At the center is a hole 121 for a vertical supporting rod 122 which may have adjusting nuts 123 for precise leveling of the grid. Four slots 124 radiate from the center toward the intersections of arms 1 1 1, in order to receive splay leg supporting clips. Four slots 125 extend transversely of the arms 1 1 1 for supporting an intersection cover cap 126 whose bottom surface is in the same plane and of the same width as the central horizontal portion of runners 103. The cap 126 is box-shaped with each side having a tab 127 to tit one of the transverse slots 125, and at least two of the tabs are formed with dimples to snap into position behind the top of the connector 102, and to release the cap when pressed in the direction away from the dimple.

Assembly of the grid is easily accomplished by supporting the connectors 102 in approximately the proper final position on supporting rods 122 and lifting the runners 101 so that the inner webs 104 slip over the downtumed flanges 113 of the connector arms 111. The webs are then sprung slightly apart so they will slip over the tongues 114 until the tongues snap into the slots 110 in the webs. In this position the runners 101 are held rigidly in position by engagement of connector flanges 113 and rabbet edges 116 with inner webs 104, and by engagement of the tongues 114 in the slots 110, with the full width tongue 114 nearest the center (the one containing the notch 119) holding against longitudinal motion under normal stresses.

The assembly is then locked against accidental separation by means of metal straps 130, shown especially in FIG. 9. Each strap 130 has one end formed into a square hook 131. The opposite end 132 of the strap 130 is slipped from inside toward the outside through the middle slot 110 in a runner web until hook 131 enters the middle slot 110 in the opposing web from outside toward the inside. The end 132 of the strap is then pulled up tight and bent back over the top of the runner to prevent accidental separation of the webs and thus lock the assembly in position.

At this stage the grid may be leveled by use of the adjusting nuts 123, which are then hidden by snapping an intersection cap in place. The ceiling may be completed by placement of appropriate panels 135 on the runner flanges 108.

In those locations in which it may be desired to provide truncated pyramid ceiling units, rectangular frames 34 supported on splay legs 35 may be fabricated with the help of intersection clips 66 as previously described. In this instance, the bottom ends of splay legs 35 are provided with hooked splay clips 140 firmly riveted to web 61 of each splay leg, as shown in FIGS. 8 and 11. Each hooked splay clip is shaped to rest on the runner flange 108 with a vertical edge 141 in the corner of two adjoining runner outer webs 105, and with its hooked end 142 inserted in the closest one of the radiating slots 124. Preferably the clip 140 is stiffened by pressing a welt 143 along its length.

The truncated pyramids may be finished by application of trapezoidal panels 36 and lighting units 37 as described in connection with FIG. 1, or with any other appropriate units which will occupy the sloping side spaces and the rectangular top space of the truncated pyramid. 1

If it is desired to make special provision for ventilation, slots can be provided in the inner web 104 of the runners 101. Thus, if it is preferred to have ventilating air moving vertically in the groove between inner web 104 and outer web bottom 107, ventilating slots 145 are provided in the inner web 104 near the top of the groove. If it is preferred to have the air moving horizontally, ventilating slots 146 are provided in the bottom part of inner web 104 below the level of flange 108. In some situations, ventilating slots in both locations may be found desirable.

As was mentioned above, provision for thermal expansion in the event of fire is desirable, as the expansion would otherwise tend to buckle the runners of the grid and permit the ceiling panels to fall, which would permit access of heat and flames to the space between the suspended ceiling and the supporting structure and result in acceleration of spread of the fire. The manner in which thermal expansion is accommodated is shown in FIG. 13.

In this figure the runner 101A depicted in a vertical position in the drawing is shown in its position after thermal expansion or some other excessive force has moved its end toward the connector 102. This causes the end of combined inner and

outer webs

104A and 105A to project into the relieved corner of rabbet 117, while the mitered corner of flange 108A slips past the corresponding comer of the adjacent flange of the other runner. At the same time the portion of the webs containing slots 110A moves so as to occupy the space provided by removal of the corner 120A of one of the tongues 114A, and to bend over the remnant 118A of the other tongue 114A into the notch 119A. The same action takes place on both sides of the runner and may take place at both ends if the expansion is of sufficient magnitude. Thus, it is apparent that the remnant 118A of one of the tongues holds the parts in their normal position so long as only normal forces exist, but is weak enough to permit a shift to accommodate abnormal forces without collapse of the structure.

A further modification of structure involves use of the ceiling grid to locate and brace movable partitions. As is well known, movable partitions are commonly held to the floor by means of clips or fasteners, but are best held in position by some kind of fastener or brace also at ceiling level. This is easily accomplished in an attractive way by simple auxiliary elements such as those shown in FIGS. 14, 15 and 16.

FIG. 1 shows a ceiling grid with vertical walls along two intersecting runners. These walls may be movable partitions held in the manner shown in FIG. 14, in which a runner 30 has flat ceiling panels 32 or the sloping panels of a truncated pyramidal ceiling unit 33 on either side of a partition defined by a pair of wall panels 150. The wall panels are held against a metal channel 151 by means of cap strips 152 or in any other convenient manner.

In this particular combination the runner 30 has a recessed center, and the channel 151 fits into the recess. At intervals along the channel recessed partition clips 153 are fastened, as by sheet metal screws 154. Each clip 153, as shown in FIG. 15, is shaped to conform to the top surface of channel 151 and be held immovably by screw 154. In addition, each clip has two legs 155 spaced to fit between inner web 39 and outer web 40 on either side of runner 30, and of a thickness to be firmly held by frictional engagement with the web surfaces. Preferably the top of channel 151 is formed with a longitudinal groove 156 and clip 153 has a correspondingly depressed center, which provides space for the head of screw 154 and also holds the clip in position on the channel.

In case it should be desired to install a partition in a location other than longitudinally of a runner, that is accomplished with similar case using a slightly different box-shaped clip 160. The clip 160 (like the clip 153) has a pair of legs 161 so spaced and of such thickness as to be frictionally held in the proper position between inner webs 39 and outer webs 40 of the runner. The clip 160 also has a pair of turned up sides 162 fitting in the spaces between legs 161, but of a reduced height corresponding to the depth of the recessed center of the runner, so that the bottom of clip 160, when pushed home in the recessed part of the runner, will be flush with the bottoms of runner flanges 41. One of the clips 160 will accordingly be fastened to a partition locating channel 151 at each position where it is to cross under a runner, by a fastener such as screw 154.

The channel 151 is then supported below the runners by pressing or tapping the attached clips into place in the runners. The wall panels are then fastened in any desired manner, as by being slipped under wall panel cap strips 152 attached to the channel, as previously described.

In case partitions are to be attached to runners with projecting rather than recessed centers, all that is required is to make the partition locating channel 151 with a longitudinal groove 156 of such size and shape as to fit around the projecting portion of the runners. The channel is then easily held in place by separate clips or by screws or by any other desired type of fastenet.

The suspended ceiling system of this invention consists of simple, easily fabricated components, which can be assembled rapidly and easily by unskilled labor. The components are nevertheless attractive, so that they can be more than neutral structural units, but instead can form a definite part of a decorative ceiling design. At the same time, the system easily provides a great versatility in providing for a wide variety of functional needs while permitting the architect to combine the elements in many ways to provide a rich variety of ceiling designs to satisfy the decorative purposes of the particular ceiling in which the system is used.

I claim:

1. A suspended ceiling system comprising:

a. flanged suspended runners and ceiling elements resting on the flanges of the runner, the runners having exposed surfaces between the visible bottom surfaces of the flanges of the runners, at least one exposed surface being recessed in a plane above that of the flanges;

b. runners of identical cross section intersecting at right angles;

c. runners comprising of a single sheet of metal folded to provide an upwardly recessed central horizontal portion, an upwardly extending inner web and downwardly extending outer web on each side of the central portion, the inner and outer webs separated by a space equal to the thickness of a. flanged suspended runners and ceiling elements resting on the flanges of the runner, the runners having exposed surfaces between the visible bottom surfaces of the flanges of the runners, at least one exposed surface being recessed in a plane above that of the flanges;

b. runners of identical cross section intersecting at right angles;

c. runners comprising of a single sheet of metal folded to provide an upwardly recessed central horizontal portion, an upwardly extending inner web and downwardly extending outer web on each side of the central portion, the inner and outer webs separated by a space equal to the thickness of the sheet metal, the outer webs terminating in horizontal flanges in a plane below the recessed central horizontal position;

d. some runners having notches in the flanges to receive end portions of intersecting runners;

e. intersecting runners having ends shaped to fit notches in intersected runners and having up wardly extending transverse tongues located for reception into the space between inner and outer webs of intersected runners; and

f. the tops of webs of intersected runners having openings through which tongues of intersecting runners can protrude and tongues of intersecting runners protruding through the openings are bent to lock together the runners.

Claims

1. A suspended ceiling system comprising: a. flanged suspended runners and ceiling elements resting on the flanges of the runner, the runners having exposed surfaces between the visible bottom surfaces of the flanges of the runners, at least one exposed surface being recessed in a plane above that of the flanges; b. runners of identical cross section intersecting at right angles; c. runners comprising of a single sheet of metal folded to provide an upwardly recessed central horizontal portion, an upwardly extending inner web and downwardly extending outer web on each side of the central portion, the inner and outer webs separated by a space equal to the thickness of the sheet metal, the outer webs terminating in horizontal flanges in a plane below the recessed central horizontal position; d. some runners having notches in the flanges to receive end portions of intersecting runners; and, e. intersecting runners having ends shaped to fit notches in intersected runners and having upwardly extending transverse tongues located for reception into the space between inner and outer webs of intersected runners.

2. A suspended ceiling system comprising: a. flanged suspended runners and ceiling elements resting on the flanges of the runner, the runners having exposed surfaces between the visible bottom surfaces of the flanges of the runners, at least one exposed surface being recessed in a plane above that of the flanges; b. runners of identical cross section intersecting at right angles; c. runners comprising of a single sheet of metal folded to provide an upwardly recessed central horizontal portion, an upwardly extending inner web and downwardly extending outer web on each side of the central portion, the inner and outer webs separated by a space equal to the thickness of the sheet metal, the outer webs terminating in horizontal flanges in a plane below the recessed central horizontal position; d. some runners having notches in the flanges to receive end portions of intersecting runners; e. intersecting runners having ends shaped to fit notches in intersected runners and having upwardly extending transverse tongues located for reception into the space between inner and outer webs of intersected runners; and, f. the tops of webs of intersected runners having openings through which tongues of intersecting runners can protrude and tongues of intersecting runners protruding through the openings are bent to lock together the runners.