US20110308191A1 - Panel capture frame - Google Patents
Panel capture frame Download PDFInfo
- Publication number
- US20110308191A1 US20110308191A1 US12/816,839 US81683910A US2011308191A1 US 20110308191 A1 US20110308191 A1 US 20110308191A1 US 81683910 A US81683910 A US 81683910A US 2011308191 A1 US2011308191 A1 US 2011308191A1
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- US
- United States
- Prior art keywords
- frame component
- frame
- channel
- component
- lip
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/30—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure
- E04C2/38—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure with attached ribs, flanges, or the like, e.g. framed panels
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F11/00—Stairways, ramps, or like structures; Balustrades; Handrails
- E04F11/18—Balustrades; Handrails
- E04F11/181—Balustrades
- E04F11/1851—Filling panels, e.g. concrete, sheet metal panels
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F11/00—Stairways, ramps, or like structures; Balustrades; Handrails
- E04F11/18—Balustrades; Handrails
- E04F11/181—Balustrades
- E04F11/1851—Filling panels, e.g. concrete, sheet metal panels
- E04F11/1855—Wire mesh panels
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49616—Structural member making
- Y10T29/49623—Static structure, e.g., a building component
- Y10T29/49629—Panel
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T403/00—Joints and connections
- Y10T403/60—Biased catch or latch
- Y10T403/606—Leaf spring
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T403/00—Joints and connections
- Y10T403/71—Rod side to plate or side
- Y10T403/7176—Resilient clip
Definitions
- framed panels are often used to provide a decorative appearance to walls, ceilings, and railing systems.
- the panels may be solid, perforated or mesh and may be constructed from a number of different materials such as metal, plastic or glass.
- the frames around the panels hold the panels in place and often include additional structural elements that allow the frames to be mounted to part of a building.
- a frame for a panel is constructed from two frame components.
- One of the frame components has a first wall and a first channel and the second frame component has a second wall and a second channel.
- the first frame component is mated to the second frame component with the first wall of the first frame component inserted in the second channel of the second frame component and the second wall of the second frame component inserted in the first channel of the first frame component.
- Portions of the panel are held between and make contact with the first frame component and the second frame component such that an end of the panel is located within a chamber defined between the first frame component and the second frame component.
- the first frame component and the second frame component remain connected together based on the contact between the second wall and sides of the first channel and the first wall and the sides of the second channel.
- FIG. 1 is a front view of a framed mesh panel installed in a railing system.
- FIG. 2 is a cross-sectional view of a portion of a frame and panel under one embodiment.
- FIG. 3 is an exterior bottom view of the frame and panel of FIG. 2 .
- FIG. 4 is a cross-sectional side view of a frame component under one embodiment.
- FIG. 5 is a bottom view of the frame component of FIG. 4 .
- FIG. 6 is a back-view of the frame component of FIG. 4 .
- FIG. 7 is a bottom view of a frame component of the frame of FIG. 2 without notches.
- FIG. 8 is a flow diagram for forming a framed mesh panel.
- FIG. 9 is a front view of a framed perforated panel under one embodiment.
- FIG. 10 is a cross-sectional side view of a frame member and panel of the embodiment of FIG. 9 .
- FIG. 11 is a front view of an embodiment of two framed perforated panels with a center frame section.
- FIG. 12 is a cross-sectional side view of a center frame section with two panels.
- FIG. 13 is a front view of an embodiment of a framed perforated panel with mounting bolts.
- FIG. 14 is a cross-sectional side view of a portion of a frame with a panel and mounting bolts.
- FIG. 15 is a flow diagram for forming a framed panel.
- FIG. 1 provides a front view of a framed panel 110 .
- framed panel 110 is mounted to a railing system 100 .
- Railing system 100 is simply one example of a location where a framed panel may be mounted. Other possible locations include ceilings, walls and facades, for example.
- Railing system 100 includes two posts 102 and 104 , a top railing 106 and a bottom railing 108 .
- Framed panel 110 includes a mesh panel 112 formed of a first set of strands such as vertical strands 114 and 115 and a second set of strands such as horizontal strands 116 and 316 that cross each other.
- the vertical strands and horizontal strands are shown as being woven together. However, such weaving is not necessary. Further, in other embodiments, only the vertical strands or only the horizontal strands may be present.
- Framed panel 110 also includes a frame 118 that comprises horizontal frame members 120 and 122 and vertical frame members 124 and 126 .
- Frame members 120 , 122 , 124 , and 126 each accept and contain the ends of strands from mesh panel 112 .
- vertical members 124 and 126 are welded to horizontal members 120 and 122 and horizontal members 120 and 122 are bolted to posts 102 and 104 through brackets 130 , 132 , 134 , and 136 , which are welded to posts 102 and 104 .
- FIG. 2 provides a cross-sectional side view of vertical frame member 126 showing horizontal strand 116 and vertical strand 114 .
- Vertical frame member 126 includes front frame component 200 and back frame component 202 .
- An end 204 of strand 116 is located within a chamber 206 formed between front frame component 200 and back frame component 202 .
- Front frame component 200 is latched to back frame component 202 through the interaction of a shaped wall or tongue 210 of front frame component 200 and the side walls of a channel 212 of back frame component 202 as well as the interaction of a shaped wall or tongue 214 of back frame component 202 with the side walls defining channel 216 in front frame component 200 .
- shaped walls or tongues 210 and 214 have a “Christmas tree” cross-sectional shape and channels 212 and 216 have “Christmas tree” cut-out shapes.
- the channels 212 and 216 provide ribbed portions that are in frictional contact with the bottom of flared portions of the shaped tongues or walls 210 and 214 .
- channel 216 is defined in part by ribbed portions 220 , 221 , 224 and 225 , which are in frictional contact with flared portions 222 , 262 , 226 , and 260 , respectively, of wall 214 .
- channel 212 is defined in part by ribbed portions 270 , 271 , 272 and 273 , which are in frictional contact with flared portions 274 , 275 , 276 , and 277 , respectively of wall 210 .
- the frictional contact between the flared portions and the ribbed portions keep the wall sections within the respective channels, thereby latching front frame component 200 to back frame component 202 .
- Channel 216 is formed within a strut 230 and channel 212 is formed within a strut 232 .
- a lip 234 of back frame component 202 extends over strut member 230 and a lip 236 of front frame component 200 extends over strut member 232 .
- a shoulder 240 extends from strut member 230 of frame component 200 .
- a similar shoulder 242 extends from strut member 232 of frame component 202 .
- Shoulders 240 and 242 are optional and may not be present in all embodiments.
- the ends 250 and 252 of strut 230 are in direct contact with an interior surface of frame component 202 .
- the ends 254 and 256 of strut 232 are in direct contact with an interior surface of frame component 200 .
- FIG. 3 provides a bottom view of frame 126 and shows strut member 230 and shoulder 240 of frame component 200 as well as lip 234 of framed component 202 .
- Mesh strand 116 and an additional mesh strand 316 are shown in cross-section.
- Mesh strand 116 is shown as passing through an opening 300 and mesh strand 316 is shown as passing through an opening 302 .
- Opening 300 is defined by the perimeter of a notch 304 and the edge of lip 234 .
- Opening 302 is defined by the perimeter of a notch 306 and the edge of lip 234 .
- Notches 304 and 306 are cut to accommodate the size and shape of strands 116 and 316 .
- larger notches will be cut into strut 230 and for smaller strands, smaller notches will be cut into strut 230 .
- strands 116 and 316 are shown as having a circular cross-sectional shape, other cross-sectional shapes may be possible, including any desired polygonal shape. For such shapes, the notches may be milled to match the shape of the strand.
- Frame members 120 , 122 , and 124 have a similar construction to frame member 126 .
- frame member 120 is constructed of a third frame component mated to a fourth frame component to form a second chamber
- frame member 122 is constructed of a fifth frame component mated to a sixth frame component to form a third chamber
- frame 124 is constructed of a seventh frame component mated to an eighth frame component to form a fourth chamber.
- frame components 200 and 202 are welded to the third and fourth frame components of frame member 120 and the fifth and sixth frame components of frame member 122 .
- the seventh and eighth frame components of frame member 124 are welded to the third and fourth frame components of frame member 120 and the fifth and sixth frame components of frame member 122 .
- Each strand in the second set of strands has one end in the second chamber and one end in the third chamber and each strand in the first set of strands has one end in fourth chamber and one end in chamber 206 .
- FIG. 4 shows a cross-sectional side view of frame component 200 in isolation.
- frame component 200 includes a face plate 400 having an exterior surface 402 with lip 236 extending from the face plate at a first end 404 of the face plate.
- Face plate 400 has a width 401 , which under one embodiment, is equal to 1 5/32 inches.
- Lip 236 extends in a direction opposite the exterior surface 402 .
- Shaped wall 210 extends from face plate 400 in the same direction as lip 236 and has a top that is a height 406 above a point 408 from which the shaped wall extends.
- Strut 230 extends from face plate 400 in the same direction as shaped wall 210 and has ends 250 and 252 opposite face plate 400 .
- Channel 216 defined between ends 250 and 252 of strut 230 has a depth 410 from the bottom 412 of channel 216 to the surface of ends 250 and 252 of strut 230 that is at least as great as the height 406 of the shaped wall 210 .
- height 406 is 5/32 inch and depth 410 is 3/16 inch, for example.
- Lip 236 has a width 414 and extends a height 416 from exterior surface 402 . Under one embodiment, width 414 is 1/16 inch and height 416 is 15/64 inch, for example. Strut 230 extends a distance 417 from exterior surface 402 with shoulder 240 extending a distance 418 from exterior surface 402 . Under one embodiment, distance 417 is 11/16 inch and distance 418 is 15/32 inch. Strut 230 has a width 419 and shoulder 240 extends an additional width 420 . Under one embodiment, width 419 is 1 ⁇ 4 inch and additional width 420 is 5/64 inch, for example.
- Shaped wall 210 includes flared portions 422 , 423 , 424 , and 425 . Flared portions 422 and 423 are at a same height from surface 408 and flared portions 424 and 425 are at a same height from surface 408 . Under one embodiment, a width 426 between the outer extents of flared portions 424 and 425 is 7/64 inch. Under some embodiments, the distance between the exterior extents of flared portions 422 and 423 is equal to width 426 . In other embodiments, the distance between the exterior extents of flared portions 422 and 423 is less than width 426 .
- Channel 216 is shaped to include flared cutouts 430 , 432 , 434 , and 436 .
- a distance 438 between the walls defining flared cutout 434 and flared cutout 436 is equal to distance 426 between the extents of flare 424 and flare 425 .
- the distance 440 between ribs 224 and 225 of channel 216 is smaller than distance 438 such that channel 216 is narrower at a point further from bottom 412 of channel 216 than at a point closer to bottom 412 of channel 216 .
- a lateral distance 444 between an interior facing surface 442 of lip 236 and a surface of flared portion 425 is equal to or smaller than a lateral distance 446 from an exterior sidewall 448 of strut 230 to the wall defining flared cutout 436 of channel 216 .
- lateral distance 444 is 11/128 inch and lateral distance 446 9/128 inch.
- an end 460 of a cutout or notch in strut 230 is located a distance 462 from end 250 of strut 230 .
- distance 462 is 27/64 inch.
- frame component 200 The elements and dimensions described for frame component 200 are also found in frame component 202 with the possible exception of cutouts/notches 304 and 306 .
- fame component 202 will include such notches and in other embodiments frame component 202 will not include notches.
- frame component 200 and frame component 202 have identical cross-sectional shapes in at least the areas without notches.
- FIG. 5 shows a bottom view of frame component 200 without frame component 202 and without strands 116 and 316 .
- FIG. 5 more clearly shows the shape of notches 304 and 306 .
- FIG. 6 shows a back view of frame component 200 showing lip 236 , shaped wall 210 , strut ends 250 and 252 , channel 216 , and ribs 224 and 225 .
- cutouts 304 and 306 pass through the entire width of strut 230 and separate channel 216 into a plurality of channel segments such as channel segments 600 , 602 , and 604 .
- FIG. 7 shows a top view of frame component 202 showing shoulder 242 wherein the embodiment of FIG. 7 provides a frame component without any cutouts or notches.
- FIG. 8 provides a method of forming a framed mesh.
- frame components are extruded through a die to produce the cross-sectional shape shown in FIG. 4 without any notches.
- the frame components are extruded aluminum.
- the frame components are cut to length and notches for the mesh strands are milled or punched into at least one frame component at step 804 .
- a mesh is then formed to size at step 806 producing a mesh with free strand ends.
- two frame components are aligned by aligning the shaped wall and channel of one of the frame components with the channel and shaped wall of the other frame component. The ends of the strands are then inserted in the milled openings of the frame components at step 810 . Note that the order in which steps 808 and 810 are performed may be reversed if desired.
- the frame components are compressed together to mate or latch the frame components together while maintaining the ends of the mesh strands between the frame components such that the ends of the mesh strands are contained within a chamber defined by the two frame components.
- 1000 pounds per square inch of pressure is used to compress the two frame components together such that the flared portions of the shaped walls move in to the flared cutouts in the respective channels.
- Steps 800 - 812 are performed for each horizontal and each vertical side of the frame.
- the vertical frame components are welded to the horizontal frame components to form the framed mesh.
- FIG. 9 provides a front view of a framed perforated panel 900 .
- Framed perforated panel 900 includes perforated panel 902 , which is framed by frame members 904 , 906 , 908 , and 910 .
- Perforated panel 902 is a sheet of material with a plurality of perforations such as perforation 912 , 914 , and 916 .
- Perforated panel 902 is inserted within frame members 904 , 906 , 908 , and 910 , and under some embodiments is held in place through frictional contact with one or more of frame members 904 , 906 , 908 , and 910 .
- frame members 904 and 908 are welded to frame members 906 and 910 .
- FIG. 10 provides a cross-sectional side view of frame member 904 and panel 902 .
- Frame member 904 includes front frame component 1000 and back frame component 1002 .
- An end 1004 of panel 902 is located within a chamber 1006 formed between front frame component 1000 and back frame component 1002 .
- Front frame component 1000 is latched to back frame component 1002 through the interaction of a shaped wall or tongue 1010 of front frame component 1000 and the side walls of a channel 1012 of back frame component 1002 as well as the interaction of a shaped wall or tongue 1014 of back frame component 1002 with the side walls defining a channel 1016 in front frame component 1000 .
- shaped walls or tongues 1010 and 1014 have a “Christmas tree” cross-sectional shape and channels 1012 and 1016 have “Christmas tree” cut-out shapes.
- the channels 1012 and 1016 provide ribbed portions that are in frictional contact with the bottom of flared portions of the shaped tongues or walls 1010 and 1014 . The frictional contact between the flared portions and the ribbed portions keep the wall sections within the respective channels, thereby latching front frame component 1000 to back frame component 1002 .
- Channel 1016 is formed within a strut 1030 and channel 1012 is formed within a strut 1032 .
- the ends 1050 and 1052 of strut 1030 are in direct contact with an interior surface of frame component 1002 .
- the ends 1054 and 1056 of strut 1032 are in direct contact with an interior surface of frame component 1000 .
- a lip 1034 of back frame component 1002 and a lip 1036 of front frame component 1000 extend toward each other. Under one embodiment, lips 1034 and 1036 are both in frictional contact with panel 902 . Under some embodiments, lips 1034 and 1036 include respective nubs 1080 and 1082 on their ends. Nubs 1080 and 1082 press into panel 902 and/or are crushed by panel 902 as frame components 1000 and 1002 are compressed together to latch shaped walls 1010 and 1014 in respective channels 1012 and 1016 .
- Frame component 1000 includes an exterior surface 1060 and frame component 1002 includes an exterior surface 1062 .
- Lip 1036 , strut 1030 , and shaped wall 1010 extend in a direction opposite exterior surface 1060 .
- Lip 1034 , strut 1032 and shaped wall 1014 extend in a direction opposite exterior surface 1062 .
- Channel 1012 defined within strut 1032 has a depth 1070 that is at least as great as a height 1072 of the shaped wall 1010 .
- channel 1016 defined within strut 1030 has a depth 1074 that is at least as great as a height 1076 of the shaped wall 1014 .
- FIG. 11 is a front view of an embodiment of two framed perforated panels with a center frame member 1114 .
- perforated panel 1100 is framed by a portion of top frame member 1106 , a portion of bottom frame member 1108 , side frame member 1110 and center frame member 1114 .
- Perforated panel 1102 is framed by a portion of top frame member 1106 , a portion of bottom frame member 1108 , side frame member 1112 and center frame member 1114 .
- Perforated panels 1100 and 1102 are two separate sheets of material, each with a plurality of perforations such as perforation 1120 , 1122 , and 1124 .
- Perforated panel 1000 is inserted within frame members 1106 , 1108 , 1110 , and 1114 , and under some embodiments is held in place through frictional contact with one or more of frame members 1106 , 1108 , 1110 , and 1114 .
- Perforated panel 1002 is inserted within frame members 1106 , 1108 , 1112 , and 1114 , and under some embodiments is held in place through frictional contact with one or more of frame members 1106 , 1108 , 1112 , and 1114 .
- frame members 1106 , and 1108 are welded to frame members 1110 , 1112 and 1114 .
- FIG. 12 provides a cross-sectional side view of frame member 1114 and panels 1100 and 1102 .
- Frame member 1114 includes front frame component 1200 and back frame component 1202 .
- An end 1204 of panel 1100 is located within a chamber 1206 formed between front frame component 1200 and back frame component 1202 .
- An end 1207 of panel 1102 is located within a chamber 1208 formed between front frame component 1200 and back frame component 1202 .
- Front frame component 1200 is latched to back frame component 1202 through the interaction of a shaped wall or tongue 1210 of front frame component 1200 with the side walls of a channel 1212 of back frame component 1202 as well as the interaction of a shaped wall or tongue 1214 of back frame component 1202 with the side walls defining a channel 1216 in front frame component 1200 .
- shaped walls or tongues 1210 and 1214 have a “Christmas tree” cross-sectional shape and channels 1212 and 1216 have “Christmas tree” cut-out shapes.
- the channels 1212 and 1216 provide ribbed portions that are in frictional contact with the bottom of flared portions of the shaped tongues or walls 1210 and 1214 . The frictional contact between the flared portions and the ribbed portions keep the wall sections within the respective channels, thereby latching front frame component 1200 to back frame component 1202 .
- Channel 1216 is formed within a strut 1230 and channel 1212 is formed within a strut 1232 .
- the ends 1250 and 1252 of strut 1230 are in direct contact with an interior surface of frame component 1202 .
- the ends 1254 and 1256 of strut 1232 are in direct contact with an interior surface of frame component 1200 .
- a lip 1234 of back frame component 1202 and a lip 1236 of front frame component 1200 extend toward each other. Under one embodiment, lips 1234 and 1236 are in frictional contact with panel 1100 . Under some embodiments, lips 1234 and 1236 include respective nubs 1280 and 1282 on the ends of the lips. Nubs 1280 and 1282 press into panel 1100 and/or are crushed by panel 1100 as frame components 1200 and 1202 are compressed together to latch shaped walls 1210 and 1214 in respective channels 1212 and 1216 .
- a lip 1238 of back frame component 1202 and a lip 1240 of front frame component 1200 extend toward each other.
- lips 1238 and 1240 are in frictional contact with panel 1102 .
- lips 1238 and 1240 include respective nubs 1284 and 1286 on the ends of the lips. Nubs 1284 and 1286 press into panel 1102 and/or are crushed by panel 1102 as frame components 1200 and 1202 are compressed together to latch shaped walls 1210 and 1214 in respective channels 1212 and 1216 .
- Frame component 1200 includes an exterior surface 1260 and frame component 1202 includes an exterior surface 1262 .
- Lip 1236 , lip 1240 , strut 1230 , and shaped wall 1210 extend in a direction opposite exterior surface 1260 .
- Lip 1234 , lip 1238 , strut 1232 and shaped wall 1214 extend in a direction opposite exterior surface 1262 .
- Channel 1212 defined within strut 1232 has a depth 1270 that is at least as great as a height 1272 of the shaped wall 1210 .
- channel 1216 defined within strut 1230 has a depth 1274 that is at least as great as a height 1276 of the shaped wall 1214 .
- frame component 1200 and frame component 1202 have identical cross-sectional shapes as shown in FIG. 12 .
- FIG. 13 is a front view of an embodiment of a framed panel with mounting hardware extending from a top frame member.
- perforated panel 1300 is framed by top frame member 1306 , bottom frame member 1308 , side frame member 1310 and side frame member 1312 .
- Perforated panels 1300 is a sheet of material with a plurality of perforations such as perforation 1320 , 1322 , and 1324 .
- Perforated panel 1300 is inserted within frame members 1306 , 1308 , 1310 , and 1312 , and under some embodiments is held in place through frictional contact with one or more of frame members 1306 , 1308 , 1310 , and 1312 .
- frame members 1306 , and 1308 are welded to frame members 1310 and 1312 .
- Mounting hardware 1340 , 1342 , and 1344 are inserted within frame 1306 and extend out of frame 1306 .
- Mounting hardware 1340 , 1342 , and 1344 can be used to mount the framed panel to a wall, ceiling, rail or other structural element.
- FIG. 14 provides a cross-sectional side view of frame member 1306 , panel 1300 , and mounting hardware 1340 .
- Frame member 1306 includes front frame component 1400 and back frame component 1402 .
- An end 1404 of panel 1300 is located within a chamber 1406 formed between front frame component 1400 and back frame component 1402 .
- mounting hardware 1340 comprises a threaded bolt 1490 , having a head 1492 positioned within a chamber 1409 formed between front frame component 1400 and back frame component 1402 and a post 1491 extending between and in contact with lip 1434 and lip 1436 .
- a washer 1494 and a nut 1496 are threaded on post 1491 such that head 1492 and washer 1494 press against a lip 1436 of front frame component 1400 and a lip 1434 of back frame component 1402 .
- Bolt 1490 may be any desired length.
- Front frame component 1400 is latched to back frame component 1402 through the interaction of a shaped wall or tongue 1410 of front frame component 1400 and the side walls of a channel 1412 of back frame component 1402 as well as the interaction of a shaped wall or tongue 1414 of back frame component 1402 with the side walls defining a channel 1416 in front frame component 1400 .
- shaped walls or tongues 1410 and 1414 have a “Christmas tree” cross-sectional shape and channels 1412 and 1416 have “Christmas tree” cut-out shapes.
- the channels 1412 and 1416 provide ribbed portions that are in frictional contact with the bottom of flared portions of the shaped tongues or walls 1410 and 1414 . The frictional contact between the flared portions and the ribbed portions keep the wall sections within the respective channels, thereby latching front frame component 1400 to back frame component 1402 .
- Channel 1416 is formed within a strut 1430 and channel 1412 is formed within a strut 1432 .
- the ends 1450 and 1452 of strut 1430 are in direct contact with an interior surface of frame component 1402 .
- the ends 1454 and 1456 of strut 1432 are in direct contact with an interior surface of frame component 1400 .
- Lip 1434 of back frame component 1402 and lip 1436 of front frame component 1400 extend toward each other. Under one embodiment, lips 1434 and 1436 are in frictional contact with panel bolt 1490 . Under some embodiments, lips 1434 and 1436 include respective nubs 1480 and 1482 on the ends of the lips. Nubs 1480 and 1482 press into bolt 1490 and/or are crushed by bolt 1490 as frame components 1400 and 1402 are compressed together to latch shaped walls 1410 and 1414 in respective channels 1412 and 1416 .
- a lip 1438 of back frame component 1402 and a lip 1440 of front frame component 1400 extend toward each other. Under one embodiment, lips 1438 and 1440 are in frictional contact with panel 1300 . Under some embodiments, lips 1438 and 1440 include respective nubs 1484 and 1486 on the ends of the lips. Nubs 1484 and 1486 press into panel 1300 and/or are crushed by panel 1300 as frame components 1400 and 1402 are compressed together to latch shaped walls 1410 and 1414 in respective channels 1412 and 1416 .
- Frame component 1400 includes an exterior surface 1460 and frame component 1402 includes an exterior surface 1462 .
- Lip 1436 , lip 1440 , strut 1430 , and shaped wall 1410 extend in a direction opposite exterior surface 1460 .
- Lip 1434 , lip 1438 , strut 1432 and shaped wall 1414 extend in a direction opposite exterior surface 1462 .
- Channel 1412 defined within strut 1432 has a depth 1470 that is at least as great as a height 1472 of the shaped wall 1410 .
- channel 1416 defined within strut 1430 has a depth 1474 that is at least as great as a height 1476 of the shaped wall 1414 .
- frame component 1400 and frame component 1402 have identical cross-sectional shapes as shown in FIG. 14 .
- FIG. 15 provides a method of forming a framed panel.
- frame components are extruded through a die to produce the cross-sectional shapes shown in FIG. 10 , 12 or 14 .
- the frame components are extruded aluminum.
- the frame components are cut to length.
- a panel is then formed to size at step 1506 and at step 1508 , two frame components are aligned by aligning the shaped wall and channel of one of the frame components with the channel and shaped wall of the other frame component. The ends of the panel are then inserted in the frame components at step 1510 .
- the frame components are compressed together to mate or latch the frame components together while maintaining the ends of the panel between the frame components such that the ends of the panel are contained within a chamber defined by the two frame components.
- 1000 pounds per square inch of pressure is used to compress the two frame components together such that the flared portions of the shaped walls move in to the flared cutouts in the respective channels.
- Steps 1500 - 1512 are performed for each horizontal and each vertical portion of the frame as well as any center member of the frame.
- the vertical frame components are welded to the horizontal frame components to form the framed panel.
- mesh panels and perforated panels are provided above, the invention is not limited to such panels and other types of panels may be used such as solid panels, for example.
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Panels For Use In Building Construction (AREA)
- Photovoltaic Devices (AREA)
Abstract
A frame for a panel is constructed from two frame components. One of the frame components has a first wall and a first channel and the second frame component has a second wall and a second channel. The first frame component is mated to the second frame component with the first wall of the first frame component inserted in and making frictional contact with the second channel of the second frame component and the second wall of the second frame component inserted in and making frictional contact with the first channel of the first frame component. Portions of the panel are held between and make contact with the first frame component and the second frame component such that an end of the panel is located within a chamber defined between the first frame component and the second frame component.
Description
- In architectural design, framed panels are often used to provide a decorative appearance to walls, ceilings, and railing systems. The panels may be solid, perforated or mesh and may be constructed from a number of different materials such as metal, plastic or glass. The frames around the panels hold the panels in place and often include additional structural elements that allow the frames to be mounted to part of a building.
- A frame for a panel is constructed from two frame components. One of the frame components has a first wall and a first channel and the second frame component has a second wall and a second channel. The first frame component is mated to the second frame component with the first wall of the first frame component inserted in the second channel of the second frame component and the second wall of the second frame component inserted in the first channel of the first frame component. Portions of the panel are held between and make contact with the first frame component and the second frame component such that an end of the panel is located within a chamber defined between the first frame component and the second frame component. The first frame component and the second frame component remain connected together based on the contact between the second wall and sides of the first channel and the first wall and the sides of the second channel.
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FIG. 1 is a front view of a framed mesh panel installed in a railing system. -
FIG. 2 is a cross-sectional view of a portion of a frame and panel under one embodiment. -
FIG. 3 is an exterior bottom view of the frame and panel ofFIG. 2 . -
FIG. 4 is a cross-sectional side view of a frame component under one embodiment. -
FIG. 5 is a bottom view of the frame component ofFIG. 4 . -
FIG. 6 is a back-view of the frame component ofFIG. 4 . -
FIG. 7 is a bottom view of a frame component of the frame ofFIG. 2 without notches. -
FIG. 8 is a flow diagram for forming a framed mesh panel. -
FIG. 9 is a front view of a framed perforated panel under one embodiment. -
FIG. 10 is a cross-sectional side view of a frame member and panel of the embodiment ofFIG. 9 . -
FIG. 11 is a front view of an embodiment of two framed perforated panels with a center frame section. -
FIG. 12 is a cross-sectional side view of a center frame section with two panels. -
FIG. 13 is a front view of an embodiment of a framed perforated panel with mounting bolts. -
FIG. 14 is a cross-sectional side view of a portion of a frame with a panel and mounting bolts. -
FIG. 15 is a flow diagram for forming a framed panel. -
FIG. 1 provides a front view of a framedpanel 110. InFIG. 1 , framedpanel 110 is mounted to arailing system 100.Railing system 100 is simply one example of a location where a framed panel may be mounted. Other possible locations include ceilings, walls and facades, for example. -
Railing system 100 includes twoposts top railing 106 and abottom railing 108. Framedpanel 110 includes amesh panel 112 formed of a first set of strands such asvertical strands horizontal strands FIG. 1 , the vertical strands and horizontal strands are shown as being woven together. However, such weaving is not necessary. Further, in other embodiments, only the vertical strands or only the horizontal strands may be present. Framedpanel 110 also includes aframe 118 that compriseshorizontal frame members vertical frame members Frame members mesh panel 112. Under one embodiment,vertical members horizontal members horizontal members posts brackets posts -
FIG. 2 provides a cross-sectional side view ofvertical frame member 126 showinghorizontal strand 116 andvertical strand 114.Vertical frame member 126 includesfront frame component 200 andback frame component 202. Anend 204 ofstrand 116 is located within achamber 206 formed betweenfront frame component 200 andback frame component 202.Front frame component 200 is latched toback frame component 202 through the interaction of a shaped wall ortongue 210 offront frame component 200 and the side walls of achannel 212 ofback frame component 202 as well as the interaction of a shaped wall ortongue 214 ofback frame component 202 with the sidewalls defining channel 216 infront frame component 200. Under one embodiment, shaped walls ortongues channels channels walls channel 216 is defined in part by ribbedportions portions wall 214. Similarly,channel 212 is defined in part by ribbedportions portions wall 210. The frictional contact between the flared portions and the ribbed portions keep the wall sections within the respective channels, thereby latchingfront frame component 200 toback frame component 202. - Channel 216 is formed within a
strut 230 andchannel 212 is formed within astrut 232. Alip 234 ofback frame component 202 extends overstrut member 230 and alip 236 offront frame component 200 extends overstrut member 232. Ashoulder 240 extends fromstrut member 230 offrame component 200. Asimilar shoulder 242 extends fromstrut member 232 offrame component 202.Shoulders ends strut 230 are in direct contact with an interior surface offrame component 202. Similarly, theends strut 232 are in direct contact with an interior surface offrame component 200. -
FIG. 3 provides a bottom view offrame 126 and showsstrut member 230 andshoulder 240 offrame component 200 as well aslip 234 offramed component 202.Mesh strand 116 and anadditional mesh strand 316 are shown in cross-section. Meshstrand 116 is shown as passing through an opening 300 andmesh strand 316 is shown as passing through an opening 302.Opening 300 is defined by the perimeter of anotch 304 and the edge oflip 234.Opening 302 is defined by the perimeter of anotch 306 and the edge oflip 234. -
Notches strands strut 230 and for smaller strands, smaller notches will be cut intostrut 230. Further, althoughstrands -
Frame members frame member 126. As such,frame member 120 is constructed of a third frame component mated to a fourth frame component to form a second chamber;frame member 122 is constructed of a fifth frame component mated to a sixth frame component to form a third chamber; andframe 124 is constructed of a seventh frame component mated to an eighth frame component to form a fourth chamber. Further,frame components frame member 120 and the fifth and sixth frame components offrame member 122. Similarly, the seventh and eighth frame components offrame member 124 are welded to the third and fourth frame components offrame member 120 and the fifth and sixth frame components offrame member 122. Each strand in the second set of strands has one end in the second chamber and one end in the third chamber and each strand in the first set of strands has one end in fourth chamber and one end inchamber 206. -
FIG. 4 shows a cross-sectional side view offrame component 200 in isolation. - As shown in
FIG. 4 ,frame component 200 includes aface plate 400 having anexterior surface 402 withlip 236 extending from the face plate at afirst end 404 of the face plate.Face plate 400 has awidth 401, which under one embodiment, is equal to 1 5/32 inches. -
Lip 236 extends in a direction opposite theexterior surface 402. Shapedwall 210 extends fromface plate 400 in the same direction aslip 236 and has a top that is aheight 406 above apoint 408 from which the shaped wall extends.Strut 230 extends fromface plate 400 in the same direction as shapedwall 210 and has ends 250 and 252opposite face plate 400.Channel 216 defined between ends 250 and 252 ofstrut 230 has adepth 410 from thebottom 412 ofchannel 216 to the surface ofends strut 230 that is at least as great as theheight 406 of the shapedwall 210. Under one embodiment,height 406 is 5/32 inch anddepth 410 is 3/16 inch, for example. -
Lip 236 has awidth 414 and extends aheight 416 fromexterior surface 402. Under one embodiment,width 414 is 1/16 inch andheight 416 is 15/64 inch, for example.Strut 230 extends adistance 417 fromexterior surface 402 withshoulder 240 extending adistance 418 fromexterior surface 402. Under one embodiment,distance 417 is 11/16 inch anddistance 418 is 15/32 inch.Strut 230 has awidth 419 andshoulder 240 extends anadditional width 420. Under one embodiment,width 419 is ¼ inch andadditional width 420 is 5/64 inch, for example. - Shaped
wall 210 includes flared portions 422, 423, 424, and 425. Flared portions 422 and 423 are at a same height fromsurface 408 and flared portions 424 and 425 are at a same height fromsurface 408. Under one embodiment, awidth 426 between the outer extents of flared portions 424 and 425 is 7/64 inch. Under some embodiments, the distance between the exterior extents of flared portions 422 and 423 is equal towidth 426. In other embodiments, the distance between the exterior extents of flared portions 422 and 423 is less thanwidth 426. -
Channel 216 is shaped to include flaredcutouts distance 438 between the walls defining flaredcutout 434 and flaredcutout 436 is equal to distance 426 between the extents of flare 424 and flare 425. Thedistance 440 betweenribs channel 216 is smaller thandistance 438 such thatchannel 216 is narrower at a point further frombottom 412 ofchannel 216 than at a point closer tobottom 412 ofchannel 216. - A lateral distance 444 between an interior facing
surface 442 oflip 236 and a surface of flared portion 425 is equal to or smaller than alateral distance 446 from anexterior sidewall 448 ofstrut 230 to the wall defining flaredcutout 436 ofchannel 216. Under some embodiments, lateral distance 444 is 11/128 inch andlateral distance 446 9/128 inch. - In
FIG. 4 , anend 460 of a cutout or notch instrut 230 is located adistance 462 fromend 250 ofstrut 230. Under one embodiment,distance 462 is 27/64 inch. - The elements and dimensions described for
frame component 200 are also found inframe component 202 with the possible exception of cutouts/notches fame component 202 will include such notches and in otherembodiments frame component 202 will not include notches. Thus,frame component 200 andframe component 202 have identical cross-sectional shapes in at least the areas without notches. -
FIG. 5 shows a bottom view offrame component 200 withoutframe component 202 and withoutstrands FIG. 5 more clearly shows the shape ofnotches FIG. 6 shows a back view offrame component 200 showinglip 236, shapedwall 210, strut ends 250 and 252,channel 216, andribs FIG. 6 ,cutouts strut 230 andseparate channel 216 into a plurality of channel segments such aschannel segments -
FIG. 7 shows a top view offrame component 202 showingshoulder 242 wherein the embodiment ofFIG. 7 provides a frame component without any cutouts or notches. -
FIG. 8 provides a method of forming a framed mesh. Instep 800 ofFIG. 8 , frame components are extruded through a die to produce the cross-sectional shape shown inFIG. 4 without any notches. Under one embodiment, the frame components are extruded aluminum. Instep 802, the frame components are cut to length and notches for the mesh strands are milled or punched into at least one frame component at step 804. - A mesh is then formed to size at
step 806 producing a mesh with free strand ends. Atstep 808, two frame components are aligned by aligning the shaped wall and channel of one of the frame components with the channel and shaped wall of the other frame component. The ends of the strands are then inserted in the milled openings of the frame components atstep 810. Note that the order in which steps 808 and 810 are performed may be reversed if desired. - At
step 812, the frame components are compressed together to mate or latch the frame components together while maintaining the ends of the mesh strands between the frame components such that the ends of the mesh strands are contained within a chamber defined by the two frame components. Under one embodiment, 1000 pounds per square inch of pressure is used to compress the two frame components together such that the flared portions of the shaped walls move in to the flared cutouts in the respective channels. - Steps 800-812 are performed for each horizontal and each vertical side of the frame. At
step 814, the vertical frame components are welded to the horizontal frame components to form the framed mesh. -
FIG. 9 provides a front view of a framed perforated panel 900. Framed perforated panel 900 includesperforated panel 902, which is framed byframe members Perforated panel 902 is a sheet of material with a plurality of perforations such asperforation Perforated panel 902 is inserted withinframe members frame members frame members 904 and 908 are welded to framemembers -
FIG. 10 provides a cross-sectional side view offrame member 904 andpanel 902.Frame member 904 includesfront frame component 1000 andback frame component 1002. Anend 1004 ofpanel 902 is located within achamber 1006 formed betweenfront frame component 1000 andback frame component 1002.Front frame component 1000 is latched to backframe component 1002 through the interaction of a shaped wall ortongue 1010 offront frame component 1000 and the side walls of achannel 1012 ofback frame component 1002 as well as the interaction of a shaped wall ortongue 1014 ofback frame component 1002 with the side walls defining a channel 1016 infront frame component 1000. Under one embodiment, shaped walls ortongues channels 1012 and 1016 have “Christmas tree” cut-out shapes. In particular, thechannels 1012 and 1016 provide ribbed portions that are in frictional contact with the bottom of flared portions of the shaped tongues orwalls front frame component 1000 to backframe component 1002. - Channel 1016 is formed within a
strut 1030 andchannel 1012 is formed within a strut 1032. The ends 1050 and 1052 ofstrut 1030 are in direct contact with an interior surface offrame component 1002. Similarly, theends frame component 1000. Alip 1034 ofback frame component 1002 and alip 1036 offront frame component 1000 extend toward each other. Under one embodiment,lips panel 902. Under some embodiments,lips respective nubs panel 902 and/or are crushed bypanel 902 asframe components walls respective channels 1012 and 1016. -
Frame component 1000 includes anexterior surface 1060 andframe component 1002 includes anexterior surface 1062.Lip 1036,strut 1030, and shapedwall 1010 extend in a direction oppositeexterior surface 1060.Lip 1034, strut 1032 and shapedwall 1014 extend in a direction oppositeexterior surface 1062.Channel 1012 defined within strut 1032 has adepth 1070 that is at least as great as aheight 1072 of the shapedwall 1010. Similarly, channel 1016 defined withinstrut 1030 has adepth 1074 that is at least as great as aheight 1076 of the shapedwall 1014. -
FIG. 11 is a front view of an embodiment of two framed perforated panels with acenter frame member 1114. InFIG. 11 , perforatedpanel 1100 is framed by a portion oftop frame member 1106, a portion ofbottom frame member 1108,side frame member 1110 andcenter frame member 1114.Perforated panel 1102 is framed by a portion oftop frame member 1106, a portion ofbottom frame member 1108,side frame member 1112 andcenter frame member 1114.Perforated panels perforation Perforated panel 1000 is inserted withinframe members frame members Perforated panel 1002 is inserted withinframe members frame members frame members members -
FIG. 12 provides a cross-sectional side view offrame member 1114 andpanels Frame member 1114 includesfront frame component 1200 andback frame component 1202. Anend 1204 ofpanel 1100 is located within achamber 1206 formed betweenfront frame component 1200 andback frame component 1202. Anend 1207 ofpanel 1102 is located within achamber 1208 formed betweenfront frame component 1200 andback frame component 1202. -
Front frame component 1200 is latched to backframe component 1202 through the interaction of a shaped wall ortongue 1210 offront frame component 1200 with the side walls of achannel 1212 ofback frame component 1202 as well as the interaction of a shaped wall ortongue 1214 ofback frame component 1202 with the side walls defining achannel 1216 infront frame component 1200. Under one embodiment, shaped walls ortongues channels channels walls front frame component 1200 to backframe component 1202. -
Channel 1216 is formed within astrut 1230 andchannel 1212 is formed within astrut 1232. The ends 1250 and 1252 ofstrut 1230 are in direct contact with an interior surface offrame component 1202. Similarly, theends strut 1232 are in direct contact with an interior surface offrame component 1200. - A
lip 1234 ofback frame component 1202 and alip 1236 offront frame component 1200 extend toward each other. Under one embodiment,lips panel 1100. Under some embodiments,lips respective nubs panel 1100 and/or are crushed bypanel 1100 asframe components walls respective channels - A
lip 1238 ofback frame component 1202 and alip 1240 offront frame component 1200 extend toward each other. Under one embodiment,lips panel 1102. Under some embodiments,lips respective nubs panel 1102 and/or are crushed bypanel 1102 asframe components walls respective channels -
Frame component 1200 includes anexterior surface 1260 andframe component 1202 includes anexterior surface 1262.Lip 1236,lip 1240,strut 1230, and shapedwall 1210 extend in a direction oppositeexterior surface 1260.Lip 1234,lip 1238,strut 1232 and shapedwall 1214 extend in a direction oppositeexterior surface 1262.Channel 1212 defined withinstrut 1232 has adepth 1270 that is at least as great as aheight 1272 of the shapedwall 1210. Similarly,channel 1216 defined withinstrut 1230 has adepth 1274 that is at least as great as a height 1276 of the shapedwall 1214. - Under one embodiment,
frame component 1200 andframe component 1202 have identical cross-sectional shapes as shown inFIG. 12 . -
FIG. 13 is a front view of an embodiment of a framed panel with mounting hardware extending from a top frame member. InFIG. 13 , perforatedpanel 1300 is framed bytop frame member 1306,bottom frame member 1308,side frame member 1310 andside frame member 1312.Perforated panels 1300 is a sheet of material with a plurality of perforations such asperforation Perforated panel 1300 is inserted withinframe members frame members frame members members hardware frame 1306 and extend out offrame 1306. Mountinghardware -
FIG. 14 provides a cross-sectional side view offrame member 1306,panel 1300, and mountinghardware 1340.Frame member 1306 includesfront frame component 1400 andback frame component 1402. Anend 1404 ofpanel 1300 is located within achamber 1406 formed betweenfront frame component 1400 andback frame component 1402. In the embodiment ofFIG. 14 , mountinghardware 1340 comprises a threadedbolt 1490, having ahead 1492 positioned within achamber 1409 formed betweenfront frame component 1400 andback frame component 1402 and apost 1491 extending between and in contact withlip 1434 andlip 1436. Awasher 1494 and anut 1496 are threaded onpost 1491 such thathead 1492 andwasher 1494 press against alip 1436 offront frame component 1400 and alip 1434 ofback frame component 1402.Bolt 1490 may be any desired length. -
Front frame component 1400 is latched to backframe component 1402 through the interaction of a shaped wall ortongue 1410 offront frame component 1400 and the side walls of achannel 1412 ofback frame component 1402 as well as the interaction of a shaped wall ortongue 1414 ofback frame component 1402 with the side walls defining achannel 1416 infront frame component 1400. Under one embodiment, shaped walls ortongues channels channels walls front frame component 1400 to backframe component 1402. -
Channel 1416 is formed within astrut 1430 andchannel 1412 is formed within astrut 1432. The ends 1450 and 1452 ofstrut 1430 are in direct contact with an interior surface offrame component 1402. Similarly, theends strut 1432 are in direct contact with an interior surface offrame component 1400. -
Lip 1434 ofback frame component 1402 andlip 1436 offront frame component 1400 extend toward each other. Under one embodiment,lips panel bolt 1490. Under some embodiments,lips respective nubs bolt 1490 and/or are crushed bybolt 1490 asframe components walls respective channels - A
lip 1438 ofback frame component 1402 and alip 1440 offront frame component 1400 extend toward each other. Under one embodiment,lips panel 1300. Under some embodiments,lips respective nubs panel 1300 and/or are crushed bypanel 1300 asframe components walls respective channels -
Frame component 1400 includes anexterior surface 1460 andframe component 1402 includes anexterior surface 1462.Lip 1436,lip 1440,strut 1430, and shapedwall 1410 extend in a direction oppositeexterior surface 1460.Lip 1434,lip 1438,strut 1432 and shapedwall 1414 extend in a direction oppositeexterior surface 1462.Channel 1412 defined withinstrut 1432 has adepth 1470 that is at least as great as aheight 1472 of the shapedwall 1410. Similarly,channel 1416 defined withinstrut 1430 has adepth 1474 that is at least as great as a height 1476 of the shapedwall 1414. - Under one embodiment,
frame component 1400 andframe component 1402 have identical cross-sectional shapes as shown inFIG. 14 . -
FIG. 15 provides a method of forming a framed panel. Instep 1500 ofFIG. 15 , frame components are extruded through a die to produce the cross-sectional shapes shown inFIG. 10 , 12 or 14. Under one embodiment, the frame components are extruded aluminum. Instep 1502, the frame components are cut to length. - A panel is then formed to size at
step 1506 and atstep 1508, two frame components are aligned by aligning the shaped wall and channel of one of the frame components with the channel and shaped wall of the other frame component. The ends of the panel are then inserted in the frame components atstep 1510. - At
step 1512, the frame components are compressed together to mate or latch the frame components together while maintaining the ends of the panel between the frame components such that the ends of the panel are contained within a chamber defined by the two frame components. Under one embodiment, 1000 pounds per square inch of pressure is used to compress the two frame components together such that the flared portions of the shaped walls move in to the flared cutouts in the respective channels. - Steps 1500-1512 are performed for each horizontal and each vertical portion of the frame as well as any center member of the frame. At
step 1514, the vertical frame components are welded to the horizontal frame components to form the framed panel. - Although examples of mesh panels and perforated panels are provided above, the invention is not limited to such panels and other types of panels may be used such as solid panels, for example.
- Although the present invention has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the invention.
Claims (21)
1. An apparatus comprising:
a first frame component having a plurality of notches, a first wall, and a first channel;
a second frame component having a second wall and a second channel, wherein the first frame component is mated to the second frame component with the first wall of the first frame component inserted in the second channel of the second frame component and the second wall of the second frame component inserted in the first channel of the first frame component, the first frame component and the second frame component forming a chamber;
a mesh comprising a first set of strands crossing a second set of strands wherein each strand in the first set of strands passes through a respective opening defined by a perimeter of a respective notch of the first frame component and part of the second frame component such that an end of the strand is located in the chamber formed by the first frame component and the second frame component.
2. The apparatus of claim 1 wherein each of the plurality of notches intersect the first channel such that the plurality of notches define a plurality of first channel segments, with each first channel segment extending between two respective notches.
3. The apparatus of claim 1 wherein the first wall comprises at least one flared portion and wherein the second channel comprises at least one rib such that the flared portion and the rib portion are in frictional contact with each other so as to keep the first wall within the second channel.
4. The apparatus of claim 3 wherein the second wall comprises at least one flared portion and wherein the first channel comprises at least one rib such that the flared portion of the second wall and the rib portion of the first channel are in frictional contact with each other so as to keep the second wall within the first channel.
5. The apparatus of claim 1 wherein the first channel is defined within a first strut member of the first frame component and wherein the part of the second frame component that defines the openings comprises a lip portion that extends over the first strut member.
6. The apparatus of claim 5 wherein an end of the first strut member is in direct contact with the second frame component.
7. The apparatus of claim 1 wherein the first frame component and the second frame component have identical cross-sectional shapes in at least areas without notches.
8. The apparatus of claim 1 further comprising a third frame component and a fourth frame component that are mated together to form a second chamber, a fifth frame component and a sixth frame component that are mated together to form a third chamber, and a seventh frame component and an eighth frame component that are mated together to form a fourth chamber, wherein each strand of the second set of strands has one end in the second chamber and one end in the third chamber and wherein each strand in the first set of strands has an end in the fourth chamber.
9. A method comprising:
forming a mesh of elements, each element having two free ends;
aligning two components of a frame, wherein at least one of the components comprises a plurality of openings;
inserting into each of the plurality of openings a respective free end of an element of the mesh; and
compressing the components of the frame together so that the free ends of the elements inserted into the openings are located between the components of the frame and such that the components of the frame are latched together.
10. The method of claim 9 further comprising:
aligning two additional components of the frame, wherein at least one of the two additional components comprises a plurality of openings;
inserting into each of the plurality of openings a respective free end of an element of the mesh; and
compressing the two additional components of the frame together so that the free ends of the elements inserted into the openings of the additional component of the frame are located between the two additional components of the frame and such that the two additional components of the frame are latched together.
11. The method of claim 9 wherein the two components comprise first component and a second component and wherein aligning the two components of the frame comprises inserting a tongue of the first component in a channel of the second component and inserting a tongue of the second component in a channel of the first component.
12. A frame component comprising:
a face plate having an exterior surface;
a lip extending from the face plate at a first end of the face plate, the lip extending in a direction opposite the exterior surface;
a shaped wall extending from the face plate in the same direction as the lip and having a top that is a height above the point on the face plate that the shaped wall extends from; and
a strut, extending from the face plate in the same direction as the shaped wall and having an end opposite the face plate, the strut having a channel defined in the end opposite the face plate wherein the channel has a depth from the bottom of the channel to the end of the strut opposite the face plate that is at least as great as the height of the shaped wall.
13. The frame component of claim 12 wherein the strut comprises an exterior sidewall located a lateral distance from a wall defining the channel wherein the lateral distance is less than a distance from an interior surface of the lip facing the shaped wall to a surface of the shaped wall facing the lip.
14. The frame component of claim 12 wherein a side of the shaped wall comprises a flared portion.
15. The frame component of claim 14 wherein the channel comprises a flare cutout such that the channel is narrower at a point further from the bottom of the channel than at a point closer to the bottom of the channel.
16. The frame component of claim 12 further comprising a plurality of cutouts in the strut, each cutout passing through an entire width of the strut.
17. The frame component of claim 12 further comprising a second lip extending from the face plate at a second end of the face plate, the second lip extending in a direction opposite the exterior surface.
18. An apparatus comprising:
a first frame component comprising a first lip, a first shaped wall, and a first strut having defined therein a first channel;
a second frame component comprising a second lip, a second shaped wall, and a second strut having defined therein a second channel, wherein the first frame component is mated to the second frame component with the first shaped wall of the first frame component inserted in the second channel of the second frame component and the second shaped wall of the second frame component inserted in the first channel of the first frame component, the first frame component and the second frame component forming a chamber; and
a panel wherein a portion of the panel extends between and is in contact with the first lip and the second lip such that an end of the panel is positioned in the chamber.
19. The apparatus of claim 18 wherein:
the first frame component further comprises a third lip;
the second frame component further comprises a fourth lip;
the first and second frame component further forming a second chamber.
20. The apparatus of claim 19 further comprising a second panel having a portion that extends between and is in contact with the third lip and the fourth lip such than an end of the second panel is positioned in the second chamber.
21. The apparatus of claim 19 further comprising a bolt having a head positioned in the second chamber and a post extending between and in contact with the third lip and the fourth lip.
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US13/768,667 US8769909B2 (en) | 2010-06-16 | 2013-02-15 | Panel capture frame |
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US9045905B2 (en) * | 2013-03-15 | 2015-06-02 | Bellwether Design Technologies, Llc | Skylight and method of fabricating the same |
WO2018032054A1 (en) * | 2016-08-19 | 2018-02-22 | Decoview Pty Ltd | Security screen assembly |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2015084792A1 (en) * | 2013-12-05 | 2015-06-11 | The Coca-Cola Company | Systems and methods for a door assembly for a refrigerated merchandizer |
Also Published As
Publication number | Publication date |
---|---|
US8769909B2 (en) | 2014-07-08 |
US20130152501A1 (en) | 2013-06-20 |
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Legal Events
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |