Abstract
In a one aspect there is disclosed a formwork wall panel (10) having an operative inner surface (12) to face towards an inner space to be filed with building material and an opposing operative outer surface (14) having a surface finishing component (16) secured thereto. The operative inner surface (12) of the formwork wall panel (10) includes a brace coupling formation (18) operatively adapted to engage a wall panel coupling formation (20) of a brace (22) operatively extending between the formwork wall panel (10) and an opposing second formwork wall panel.
Claims
1. A formwork cavity panel including: a first formwork wall panel having an operative inner surface, to face towards a first inner space to be filed with building material, and an opposing operative outer surface, wherein (i) the operative inner surface of the formwork wall panel includes a brace coupling formation operatively adapted to engage a wall panel coupling formation of a brace operatively extending between the first formwork wall panel and a first opposing formwork wall panel; and a second formwork wall panel having an operative inner surface, to face towards an inner space to be filed with building material, and an opposing operative outer surface, wherein (i) the operative inner surface of the second formwork wall panel includes a brace coupling formation operatively adapted to engage a wall panel coupling formation of a brace operatively extending between the second formwork wall panel and a second opposing formwork wall panel, wherein the outer surface of the first formwork wall panel is spaced apart from the outer surface of the second formwork wall panel to form an insulation space, the first formwork wall panel being secured to the second formwork wall panel via spacer connectors which extend across the insulation space.
2. A formwork cavity panel according to claim 1, wherein the brace coupling formation of the first formwork panel includes a first outer coupling member, a second outer coupling member and a central coupling member located between the first outer coupling member and the second outer coupling member, the first outer coupling member, second outer coupling member and the central coupling member extending outwardly from the operative inner surface of the first formwork wall panel.
3. A formwork cavity panel according to claim 2, wherein the central coupling member includes (i) a central coupling member stem which extends outwardly from the operative inner surface of the formwork wall panel, and (ii) a transverse central coupling member flange.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0068] Preferred embodiments of the invention will be described hereinafter, by way of examples only, with reference to the accompanying drawings wherein:
[0069] FIG. 1 is a schematic perspective view a first embodiment formwork wall panel;
[0070] FIG. 2 is a schematic top view of the formwork wall panel of FIG. 1 ;
[0071] FIG. 3 is a schematic side view of a portion of an embodiment brace operatively adapted for attachment to the formwork panel of FIG. 1;
[0072] FIG. 4 is a schematic top view of the brace of FIG. 3;
[0073] FIG. 5 is a schematic top view of an embodiment formwork assembly formed with the formwork wall panel of FIGS. 1 and 2 and the brace of FIGS. 3 and 4;
[0074] FIG. 6 is a schematic perspective view of an embodiment services channel for use in the formwork assembly of FIG. 5;
[0075] FIG. 7 is a schematic perspective view of an embodiment panel joining member;
[0076] FIG. 8 is a schematic perspective view of an embodiment formwork base member;
[0077] FIG. 9 is a schematic perspective view of an embodiment end cap member;
[0078] FIG. 10 is a schematic perspective view of a second embodiment services channel;
[0079] FIG. 11 is a schematic perspective view of an embodiment formwork cavity panel;
[0080] FIG. 12 is a schematic top view of the formwork cavity panel of FIG. 11;
[0081] FIG. 13 is a schematic top view of a second embodiment formwork assembly;
[0082] FIG. 14 is a schematic perspective view of an embodiment of a cavity closure for use with the formwork cavity panel of FIG. 11;
[0083] FIG. 15 is a schematic perspective view of an embodiment edge closure;
[0084] FIG. 16 is a schematic top view of a third embodiment formwork assembly;
[0085] FIG. 17 is a schematic top view of a corner brace;
[0086] FIG. 18 is a schematic side view of the corner brace of FIG. 17;
[0087] FIG. 19 is a schematic perspective view of an embodiment corner connector;
[0088] FIG. 20 is a schematic end view of the corner connector of FIG. 19;
[0089] FIG. 21 is a schematic top view of a fourth embodiment formwork assembly;
[0090] FIG. 22 is a schematic perspective view of an embodiment joining member;
[0091] FIG. 23 is a schematic end view of the joining member of FIG. 22;
[0092] FIG. 24 is a schematic perspective view of a second embodiment joining member;
[0093] FIG. 25 is a schematic perspective view of an embodiment window frame assembly;
[0094] FIG. 26 is a schematic perspective view of a portion of a first embodiment window frame member of the window frame assembly of FIG. 25;
[0095] FIG. 27 is a schematic perspective view of a portion of a second embodiment window frame member of the window frame assembly of FIG. 25;
[0096] FIG. 28 is a schematic perspective view of a portion of a cavity member of the window frame assembly of FIG. 25;
[0097] FIG. 29 is a schematic perspective view of a shadow bar of the window frame assembly of FIG. 25;
[0098] FIG. 30 is a schematic perspective view of a portion of the window frame member of FIG. 30 and an embodiment stiffener;
[0099] FIG. 31 is a schematic perspective view of the stiffener of FIG. 29;
[0100] FIG. 32 is a schematic side view of an embodiment wall support assembly;
[0101] FIG. 33 is a side view of an embodiment wall brace assembly of the wall support assembly of FIG. 32 being collapsed / erected;
[0102] FIG. 34 is a schematic side view of the wall brace assembly of FIG. 33 in a collapsed condition;
[0103] FIG. 35 is a schematic top view of another embodiment brace;
[0104] FIG. 36 is a schematic top view of another embodiment corner brace;
[0105] FIG. 37 is a schematic top view of another embodiment end cap member;
[0106] FIG. 38 is a schematic top view of another embodiment end cap member;
[0107] FIG. 39 is schematic top view of another embodiment formwork wall panel;
[0108] FIG. 40 is a schematic end view of another embodiment services channel; and
[0109] FIG. 41 is a schematic end view of another embodiment panel joining member.
DESCRIPTION OF PREFERRED EMBODIMENTS
[0110] FIGS. 1 and 2 show an embodiment formwork wall panel 10 for use in constructing a formwork assembly to receive concrete during a building process. The formwork panel 10 includes an operative inner surface 12, to face towards a non-illustrated inner space to be filed with building material, and an opposing operative outer surface 14. The embodiment formwork wall panel 10 is produced from a polymer, here polyvinylchloride PVC, and has a surface finishing component 16 secured to the operative outer surface 14. By having a surface finishing component 16 in place, no further finishing is required to provide a formwork wall panel 10 with a finished appearance. It is envisaged that the surface finishing component 16 can be provided in a range of colors for different aesthetic appearances. It is further envisaged that the formwork wall panel 10 can, for example, be produced by placing a finishing component 16, typically a flat strip of colored material such a colored metal, inside a mold and have plastic molded onto the finishing component 16 to produce the formwork wall panel 10. The result of this is that surface finishing component 16 is embedded within the operative outer surface 14. In an alternative embodiment the surface finishing component 16 is produced from marble and the rest of the formwork wall 10 panel from aluminum. The marble finishing component 16 is secured to the operative outer surface 14 by way of an epoxy or equivalent adhesive. In a further alternative embodiment the surface finishing component 16 is provided in the form of a non-illustrated aluminum honeycomb panel.
[0111] The operative inner surface 12 of the formwork wall panel 10 includes a brace coupling formation 18 operatively adapted to engage a wall panel coupling formation 20 of a brace 22, shown in FIGS. 3 and 4. In use the brace 22 operatively extends between the formwork wall panel 10 and an opposing second formwork wall panel 10a.
[0112] The brace coupling formation 18 defines a plurality of panel slot arrangements 24 operatively adapted to slidably engage either of two slider members 26, 27 of the wall panel coupling formation 20 of the brace 22. The slider members 26, 27 are connected on opposite sides of a brace panel 28 of the brace 22. The brace panel 28 includes concrete cavities 30 to facilitate concrete flow across the brace panel 28. As shown, the panel slot arrangements 24 include a first and second panel slot 32, 34 which are respectively adapted to slidably engage the first and second slider members 26, 27 of the wall panel coupling formation 20 of the brace 22.
[0113] The brace coupling formation 18 includes a first outer coupling member 36, a second outer coupling member 38 and a central coupling member 40 located between the first outer coupling member 36 and the second outer coupling member 38. The first outer coupling member 36, second outer coupling member 38 and central coupling member 40 extends outwardly from the operative inner surface 12 of the formwork wall panel 10. The first outer coupling member 36 and the central coupling member 40 define the first panel slot 32. The central coupling member 40 and the second outer coupling member 38 define the second panel slot 34.
[0114] The first outer coupling member 36 includes (i) a first coupling member stem 42 which extends outwardly from the operative inner surface 12 of the formwork wall panel 10, and (ii) a transverse first coupling member flange 44 which extends towards the central coupling member 40. The outer coupling member stem 42 includes a transverse first outer coupling member rib 46 outwardly extending from the first coupling member stem 42 away from the central coupling member 40. In use the first outer coupling member rib 46 is adapted to engage a first slot 48 in a services channel 50, see FIG. 6, operatively located adjacent the operative inner surface 12 of the formwork wall panel 10.
[0115] The first coupling member flange 44 includes a transverse first coupling member lip 50 extending towards the operative inner surface 12 of the formwork wall panel 10. The purpose of the first coupling member lip 50 will become apparent from the below description.
[0116] The second outer coupling member 38 includes (i) a second coupling member stem 52 which extends outwardly from the operative inner surface 12 of the formwork wall panel 10, and (ii) a transverse second coupling member flange 54 which extends towards the central coupling member 40. The second outer coupling member stem 52 includes a transverse second outer coupling member rib 56 outwardly extending from the second coupling member stem 52 away from the central coupling member 40. In use the second outer coupling member rib 56 is adapted to engage a second slot 58 in the services channel 50 depicted in FIG. 6. In use the services channel 50 will enclose services conduits such as electrical cabling.
[0117] The second coupling member flange 54 includes a transverse second coupling member lip 60 extending towards the operative inner surface 12 of the formwork wall panel 10.
[0118] The central coupling member 40 includes (i) a central coupling member stem 62 which extends outwardly from the operative inner surface 12 of the formwork wall panel 10, and (ii) a transverse central coupling member flange 64. The central coupling member flange 64 includes at one end a transverse first lip 66 extending towards the operative inner surface 12 of the formwork wall panel 10. At an opposite second end the central coupling member flange 64 includes a transverse second lip 68 extending towards the operative inner surface 12 of the formwork wall panel 10.
[0119] The first panel slot 32 of the brace coupling formation 18 includes a first area 78 defined by the first coupling member stem 42, the first coupling member flange 44 and the first coupling member lip 50. The first panel slot 32 also includes a second area 80 defined by the central coupling stem 62, the central coupling member flange 64 and the transverse first lip 66. The second panel slot 34 of the brace coupling formation 18 includes a first area 82 defined by the second coupling member stem 52, the second coupling member flange 54 and the second coupling member lip 60. The second panel slot 34 also includes a second area 84 defined by the central coupling member stem 62, the central coupling member flange 64 and the second lip 68.
[0120] Referring to FIG. 4, the first slider member 26 includes a first slider stem 70 which extends outwardly from a slider connector 72. The slider connector 72 is transversely orientated relative to the brace panel 28 and attached to the brace panel 28. The second slider member 73 is attached to an opposite end of the slider connector 72. The first slider stem 70 is attached to a transverse first slider base 74. The first slider base 74 has two opposing first slider base lips 76.
[0121] The first panel slot 32 defines a first space 86 formed between the first coupling member lip 50 of the first outer coupling member 36 and the first lip 66 of the central coupling member 40. The first space 86 is operatively adapted to allow the first slider stem 70 to pass therethrough. In use one the first slider base lips 76 is located in the first area 78 of the first panel slot 32 and the other first slider base lip 76 is located within the second area 82 of the first panel slot 32 as illustrated in FIG. 5.
[0122] The second slider member 27 includes a second slider stem 90 which extends outwardly from the slider connector 72. The second slider stem 90 is attached to a transverse second slider base 92. The second slider base 92 has two opposing second slider base lips 94 outwardly extending from the second slider base 92.
[0123] The second panel slot 34 includes a first space 96 formed between the second coupling member lip 60 of the second outer coupling member 38 and the second lip 68 of the central coupling member 40. The first space 96 is adapted to allow the second slider stem 90 to pass therethrough.
[0124] The second panel slot 34 includes (i) a first area 98 defined by the second coupling member stem 52, the second coupling member flange 54 and the second coupling member lip 60, and (ii) a second area 100 defined by the central coupling member stem 62, the transverse central coupling member flange 64 and the second lip 68. In use one of the slider base lips 94 of the second slider member 27 is located in the first area 98 of the second panel slot 27 and the other slider base lip 94 of the second slider member 27 is located within the second area 100 of the second panel slot 34.
[0125] The formwork wall panel 10 at one end includes a first joining formation 102 and at a second opposite end a second joining formation 104. The first and second joining formations 100, 102 are operatively adapted to join the formwork wall panel 10 to two adjacent, non-illustrated formwork wall panels located on opposite sides of the formwork wall panel 10.
[0126] The first joining formation 102 includes a first joining stem 106 outwardly extending from the operative inner surface 12 of the formwork wall panel 10 and a transverse male member 108 outwardly extending from one side of the first joining stem 106. The first joining stem 106 includes a first transverse joining rib 110 extending outwardly in a direction opposite to the male member 108. The operative inner surface 12, the first joining stem 106 and the transverse joining rib 110 define a first flange opening 112 for slidably receiving a first flange 114 of a panel joining member 116 shown in FIG. 7.
[0127] The second joining formation 104 includes a second joining stem 118 outwardly extending from the operative inner surface 12 of the formwork wall panel 10 and a transverse female member 120 outwardly extending from one side of the second joining stem 118. The second joining stem 118 includes a second transverse joining rib 122 extending outwardly in a direction opposite to the female member 120. The operative inner surface 12, the second joining stem 118 and the second transverse joining rib 122 defines a second flange opening 124 for slidably receiving a second flange 126 of another panel joining member 116 as shown in FIG. 7.
[0128] The male member 108 of the formwork wall panel 10 is operatively adapted to be received and held by the female member 120 of a non-illustrated adjacent formwork wall panel. The male member 108 includes a male gripping formation 128 operatively associated with a complemental female gripping formation 130 of the female member 120.
[0129] The male gripping formation 128 is provided in the form of male teeth operatively adapted to engage female gripping teeth providing the female gripping formation 130.
[0130] Referring to FIG. 7, the panel joining member 116 includes a base 132. The base 132 will in use extend across a coupled male and female member 108, 120 to locate the first and second flanges 114, 126 within the first and second flanges openings 112, 124 of adjacent formwork wall panels 10. In effect the panel joining member 116 secures coupling between the male and female member 108, 120 and deters the ingress of moisture through the joint between adjoining formwork wall panels 10.
[0131] FIG. 5 shows a formwork assembly 140 which includes a first formwork wall panel 10 operatively associated with an opposing, spaced apart second formwork wall panel 10a. The operative opposing inner surfaces 12 of formwork wall panels define a cavity 142 to be filed with poured concrete. The formwork assembly 140 is supported by a formwork base member 144, shown in FIG. 8. The formwork base member 144 includes a central spine 146 having concrete openings 148. The formwork base member 144 includes two opposing support walls 150 to engage opposing formwork wall panels 10 of the formwork assembly to maintain the formwork assembly 140 in an upright orientation. The central spine 146 includes 2 parallel hollow ridges 152 through which non-illustrated reinforcing components can pass.
[0132] FIG. 9 shows a portion of an embodiment end cap member 160. The end cap member 160 includes an operative inner and an operative outer panel 162, 164 having a reinforcing formation 166 sandwiched between the inner and outer panels 162, 164. The end cap member 160 includes a number of slider members 168. The slider members 168 are operatively adapted to engage the brace coupling formation 18 of two opposing formwork wall panels in the same manner that the wall panel coupling formation 20 of the brace 22 engage the brace coupling formation 18 described above. The end cap member 160 further includes projections 170 operatively adapted to be slidably received within slots 172, 174, shown in FIG. 2, defined respectively between (i) the first outer coupling member rib 46 and the operative inner surface 12 and (ii) the second outer coupling member 56 and the operative inner surface 12. The end cap member 160 includes reinforcing 171 to strengthen the end cap member 160 against the weight of concrete working against it during use.
[0133] FIG. 10 shows a second embodiment services channel 180. The second embodiment services channel 180 has a closed side wall 182 as opposed to an open side wall 184 of the services channel 50 depicted in FIG. 6.
[0134] FIG. 11 shows an embodiment formwork cavity panel, generally indicated with the reference numeral 200. The formwork cavity panel 200 includes a first embodiment formwork wall panel 10 as described above. As above, the formwork wall panel 10 includes an operative inner surface 12, to face towards a first inner space to be filed with building material, and an opposing operative outer surface 14. The operative inner surface 12 of the formwork wall panel 10 includes a brace coupling formation 18 operatively adapted to engage a non-illustrated wall panel coupling formation of a brace operatively extending between the first formwork wall panel 10 and a non-illustrated opposing formwork wall panel. The formwork cavity panel 200 includes a second formwork wall panel 10a, configured as described above. The formwork wall panel 10a includes an operative inner surface 12, to face towards an inner space to be filed with building material, and an opposing operative outer surface 14. The operative inner surface 12 of the second formwork wall panel 10a includes a brace coupling formation 18 operatively adapted to engage a wall panel coupling formation of a non-illustrated brace operatively extending between the second formwork wall panel 10a and a non-illustrated opposing formwork wall panel.
[0135] The outer surface 14 of the first formwork wall panel 10 is spaced apart from the outer surface 14 of the second formwork wall panel 10a to form an insulation space 202. The first formwork wall panel 10 is secured to the second formwork wall panel 10a via spacer connectors 204 which extend across the insulation space 202. In use the insulation space 202 is not filled with building material to provide insulation between the first formwork wall panel 10 and the second formwork wall panel 10a.
[0136] FIG. 13 show a formwork assembly 210 utilizing an embodiment formwork cavity panel 200. The formwork cavity panel 200 is sandwiched between formwork wall panels 10a via braces 22.
[0137] FIG. 14 shows an embodiment cavity closure 220 operatively associated with the formwork cavity panel 200 of FIG. 13. The cavity closure 220 includes a closure base 222 having a plurality of closure projections 224 outwardly extending from the closure base 222. The closure projections 224 are operatively adapted to be slidingly received between opposing first and second outer coupling member ribs 46, 56 of the formwork cavity panel 200. With the cavity closure 220 coupled to the formwork cavity panel 200 the closure base 222 will prevent building material from filling the insulation space 202 during a concrete pour process.
[0138] FIG. 15 shows an embodiment edge closure 230 operatively associated with the formwork cavity panel 200 of FIG. 13. The edge closure 230 includes a closure base 232 having a plurality of closure projections 234 outwardly extending from the closure base 232. The closure projections 234 are operatively adapted to be slidingly received between opposing first and second outer coupling member ribs 46, 56 of the formwork cavity panel 200.
[0139] FIG. 16 shows a corner of a formwork assembly 240 including a plurality of opposing formwork wall panels 10. The formwork assembly 240 includes a corner adapter 242, shown in FIGS. 19 and 20, for securing the two outer formwork wall panels 10 at right angles. The corner adapter 242 includes a corner closure member 244 as well as an adapter coupling formation 246 operatively adapted to engage the brace coupling formations 18 of two adjacent formwork wall panels 10. The formwork assembly 40 includes a further corner adapter 248 for securing the two inner formwork wall panels 10 at right angles. The corner adapters 242, 248 are connected via a corner brace 250, shaped as shown in FIGS. 17 and 18, which is adapted to be slidingly received within adapter slots 252.
[0140] FIG. 21 shows a corner of another embodiment formwork assembly 260 including a plurality of formwork wall panels 10 which enclose embodiment formwork cavity panels 200. The formwork assembly 260 includes the corner adapter 242 of FIGS. 19 and 20. The formwork assembly 260 includes further corner adapters 262, 264, 266 for securing wall panels 10 and formwork cavity panels 200 at right angles as shown. The corner adapters 242, 262, 264, 266 are connected via a corner brace 268 which is adapted to be slidingly received within adapter slots 270.
[0141] FIGS. 22 and 23 show an embodiment joining member 280 for coupling adjoining formwork wall panels 10. The joining member 280 includes a joining member base 282 having outwardly extending joining sliding members 284 and a central sliding member 286. The joining sliding members 284 are operatively adapted to slidingly engage brace coupling formations 18 of two adjacent formwork wall panels 10. The central sliding member 286 is configured to be slidingly received within a slot defined by the outer coupling member ribs 46, 56 of two adjacent formwork wall panels 10.
[0142] FIG. 24 show an embodiment planar joining member 290. The joining member 290 is sized to be slidingly received within a non-illustrated slot defined by the outer coupling member ribs 46, 56 of two adjacent formwork wall panels 10.
[0143] FIG. 25 shows an embodiment window frame assembly, generally indicated with the reference numeral 300. The window frame assembly includes an operative upper window frame member 302, shown in FIG. 26, and three window frame members 304, shown in FIG. 27. The window frame members 302, 304 are adapted for operative location within a non-illustrated window cavity of a wall. Each window frame member 302, 304 includes a window cavity side 306, operatively facing a wall within which the window frame members 302, 304 are placed, and (ii) a window side 308, operatively facing a window pane held by the window frame members 302, 304. The window frame members 302, 304 include a plurality of window frame tracks 310 operatively adapted to be engaged by an elongate cavity member 312, shown in FIG. 28. In use the cavity member 312 will extend into a wall cavity of the wall to hold a respective window frame member 302, 304 in position and as a result secure the window frame assembly 300 in position.
[0144] Each window frame track 310 includes a track stem 314, outwardly extending from its window cavity side 306, and a transverse track member 316. The cavity member 312 defines a track slot 318 which is complemental to the shape of the window frame tracks 310 and is adapted to slidably receive a single window track 310. By providing a plurality of window frame tracks 310 the position of the cavity member 312 on the window frame members 302, 304 can be adjusted to accommodate differently positioned wall cavities of different walls.
[0145] The window frame members 302, 304 each includes a window attachment member 320 outwardly extending from the window side 38 of the window frame members 302, 304. In use a non-illustrated window pane will be secured to the window attachment member with suitable fasteners.
[0146] As shown in FIGS. 26 and 27 the window frame members 302, 304 include shadow line bar tracks 322 operatively adapted to engage a shadow line bar 324. In this embodiment the window frame members 302, 304 include a plurality of shadow line bar tracks 322 to provide for alternative positioning of the shadow line bar 324. In this embodiment the shadow line bar tracks 322 each include a shadow line track stem 326 and a transverse shadow line track member 328. The shadow line bare 324 defines a track cavity 330 configured to slidably receive a shadow line bar track 322. An assembled shadow line 332 is shown in FIG. 25. The shadow line 332 serves to provide an aesthetically pleasing finish to the window frame assembly 300.
[0147] Each window frame member 302, 304 includes a plurality of longitudinally extending support channels 334, 336 for strengthening the window frame members 302, 304. The operative upper window frame member 302 will take the place of a lintel and for this reason a window frame bracing formation 338 is provided for additional strength within its support channels 334.
[0148] Furthermore, stiffeners 340 are provided for location within the support channels 336 of the window frame members 302, 304. The stiffeners 340 include teeth 342 as shown. In use the stiffeners 340 not only provide added strength, they will also deter the ingress of moisture.
[0149] The embodiment window assembly 300 allows a builder to install a window pane towards the end of the construction process. This will avoid damage to the window pane and also reduce the amount of building dirt accumulating on the window panel during the building process.
[0150] FIG. 32 shows an embodiment wall support assembly 350 operatively adapted to support non-illustrated formwork to be filled with concrete. The wall support assembly 350 includes a wall brace assembly 352. The wall brace assembly 352 includes a wall brace upright 354 and a wall brace base 356. The wall brace assembly 352 further includes a cross-brace 358 extending between the wall brace upright 354 and the wall brace base 356. The cross-brace 358 includes an outer brace member 360 and an inner brace member 362 which are telescopically coupled to adjust the length of the cross-brace 358.
[0151] The cross-brace 358 includes an adjustment configuration 364 for adjusting the length of the cross-brace 358. The adjustment configuration 364 includes an outwardly extending pin 366 on the inner brace member 362 operatively located within an elongate slot 368 of the outer brace member 360. The outer brace member 360 includes an outer threaded portion 370. The threaded portion 370 includes threaded adjustment members 372 operatively adapted to engage the pin 366 so to adjust the cross-brace 358 to a desired length by telescopically moving the outer and inner brace members 360, 362.
[0152] The wall brace upright 354 and wall brace base 356 include adjustment holes 374 that enable adjustment of the position of the cross-brace 358. In a new position the cross-brace 358 is secured in place with suitable fasteners 376 which pass through the adjustment holes 374 and brace holes 378 of the cross-brace 358.
[0153] The wall support assembly 350 includes an upright 380 laterally spaced apart from the wall brace upright 354. As shown, the wall brace upright 354 is telescopically coupled to the upright 358 via a cross-member 382 so that the distance between the wall brace upright 354 and the upright 380 can be adjusted subject to the thickness of the formwork wall to be supported. The cross-member 382 includes a sleeve 383 which slidingly receives an upper portion of the wall brace upright 354. The wall brace upright 354 and the upright 360 include two sets of elongate, parallel co-extensive support beams 384 to support outer surfaces of the walls of a non-illustrated formwork assembly.
[0154] FIGS. 33 and 34 illustrate that the wall brace assembly 352 is collapsible. Specifically, the wall brace upright 354 and the cross-brace 354 are sized so that when the brace assembly 352 is collapsed, the wall brace upright 354 and the cross-brace 358 fit within the wall brace base 356. Such feature enables ease of transport to and from building sites.
[0155] It is envisaged that embodiment formwork wall panels could be produced from a range of different materials.
[0156] It will be appreciated that the formwork assembly described above could be employed in a variety of shapes without departing from the spirit of the invention. A number of such variations are depicted in FIG. 35 to FIG. 41. FIG. 34 shows an embodiment brace 22.1 having slider members 74.1 and 92.1 which are substantially arrow-shaped, but which operates in a manner similar to the brace 22 described above. FIG. 36 shows a corner brace 250.1 which operated in a manner similar to the corner brace 250 described above. FIG. 37 depicts another embodiment end cap 106.1 having slider members 168.1 shaped to engage a complementally shaped brace coupling formation. FIG. 38 shows an embodiment formwork cavity panel 200.1 having brace coupling formations 18.1 operatively adapted to be coupled with the brace 22.1 in a manner as described above. FIG. 39 shows a formwork wall panel 10.1 similar to the formwork wall panel 10 as described above, but having a brace coupling formation 18.1 adapted to coupled with the brace 22.1. FIG. 40 shows another embodiment services channel 180.1 having slots 48.1 which are adapted to co-operate with the brace coupling formation 18.1 in a manner as previously discussed. Finally FIG. 41 shows another embodiment panel joining member 116.1 having flanges 114.1 and 126.1 to engage the brace coupling formation 18.1 in the manner and for the purpose described above.
[0157] Although the invention is described above in relation to preferred embodiments, it will be appreciated by those skilled in the art that it is not limited to those embodiments, but may be embodied in many other forms.
