WO2023180752A1 - Système architectural permettant de créer un réseau de panneaux - Google Patents

Système architectural permettant de créer un réseau de panneaux Download PDF

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Publication number
WO2023180752A1
WO2023180752A1 PCT/GB2023/050743 GB2023050743W WO2023180752A1 WO 2023180752 A1 WO2023180752 A1 WO 2023180752A1 GB 2023050743 W GB2023050743 W GB 2023050743W WO 2023180752 A1 WO2023180752 A1 WO 2023180752A1
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WO
WIPO (PCT)
Prior art keywords
runner
panel
hook
support
plane
Prior art date
Application number
PCT/GB2023/050743
Other languages
English (en)
Inventor
John Edward SPICER
Gary Joseph Hall
Gert Jakob TRAUERNICHT
Sebastian HÄRDER
Max Richard SCHMITT
Original Assignee
Zentia Limited
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Zentia Limited filed Critical Zentia Limited
Publication of WO2023180752A1 publication Critical patent/WO2023180752A1/fr

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/06Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by constructional features of the supporting construction, e.g. cross section or material of framework members
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/06Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by constructional features of the supporting construction, e.g. cross section or material of framework members
    • E04B9/12Connections between non-parallel members of the supporting construction
    • E04B9/16Connections between non-parallel members of the supporting construction the members lying in different planes
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/22Connection of slabs, panels, sheets or the like to the supporting construction
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/22Connection of slabs, panels, sheets or the like to the supporting construction
    • E04B9/225Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like hanging at a distance below the supporting construction
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/22Connection of slabs, panels, sheets or the like to the supporting construction
    • E04B9/24Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto
    • E04B9/26Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto by means of snap action of elastically deformable elements held against the underside of the supporting construction
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/34Grid-like or open-work ceilings, e.g. lattice type box-like modules, acoustic baffles
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/06Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by constructional features of the supporting construction, e.g. cross section or material of framework members
    • E04B9/065Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by constructional features of the supporting construction, e.g. cross section or material of framework members comprising supporting beams having a folded cross-section
    • E04B9/067Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by constructional features of the supporting construction, e.g. cross section or material of framework members comprising supporting beams having a folded cross-section with inverted T-shaped cross-section
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B9/00Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
    • E04B9/18Means for suspending the supporting construction
    • E04B9/183Means for suspending the supporting construction having a lower side adapted to be connected to a channel of the supporting construction

Definitions

  • a typical way of attaching a canopy panel to a ceiling is to suspend the panel from the ceiling using four separate suspension wires.
  • One end of the suspension wires is attached to the upper surface of the panel, towards one of its corners, and the other end of the suspension wires is attached to the ceiling.
  • the length of the suspension wires is then adjusted so that the panel is horizontal. Consequently, to install an array of six canopy panels, it is necessary to install twenty-four separate suspension wires and to individually adjust the length of the suspension wires so that each panel is horizontal and so that each panel is in the same plane as all of the other panels.
  • the present invention provides in a first aspect a support framework for supporting an array of at least two panels, the support framework comprising a first support runner and a second support runner which are parallel to each other and which are located within a first plane, a first panel runner and a second panel runner which are parallel to each other and which are located within a second plane, wherein each of the first support runner and the second support runner are perpendicular to each of the first panel runner and the second panel runner, and wherein the first plane is parallel to the second plane, wherein the first support runner and the second support runner are each provided along their lengths with a series of alignment apertures that are spaced apart from each other at regular distances and the alignment apertures on the first support runner are opposite to the alignment apertures on the second support runner in a direction that is perpendicular to the first support runner and the second support runner, wherein the first panel runner and the second panel runner are each provided along their lengths with a series of alignment apertures that are spaced apart
  • the present invention increases the freedom of a designer to makes arrays of panels.
  • the panel runners can readily be arranged in many different ways, once the support runners have been fitted in place.
  • the support runners and the panel runners can have any suitable cross-sectional profile, for example a T- shaped profile, or a U-shaped profile, and each panel hook having a panel attachment means for attachment to a panel.
  • the first support runner, the second support runner, the first panel runner and the second panel runner each have a top rail connected to a bottom flange by a web section, wherein the alignment apertures provided in the first support runner and in the second support runner are provided in the web section.
  • each runner hook has an internal profile that is complementary to the external profile of the top rail of the first support runner and the second support runner.
  • each panel hook has an internal profile that is complementary to the external profile of the top rail of the first panel runner or the second panel runner.
  • each panel hook has a locking member which is engaged with one of the alignment apertures in a panel runner.
  • the alignment apertures on the first panel runner are opposite to the alignment apertures on the second panel runner in a direction that is perpendicular to the first panel runner and the second support runner.
  • the first support runner, the second support runner, the first panel runner, the second panel runner, the first plane and the second plane are all horizontal and the first plane is located above the second plane, the support framework further comprising two runner suspension members attached to, and extending upwardly from, each of the first support runner and the second support runner, and wherein the runner hooks are hung on to each of the first support runner and the second support runner, wherein the engagement means of each runner hook is a hanger from which the runner hook hangs from a support runner.
  • the panel hooks are hung on to each of the first panel runner and the second panel runner, wherein the engagement means of each panel hook is a hanger from which the panel hook hangs from a panel runner.
  • the first support runner and the second support runner are provided along their length with suspension rod apertures that are spaced at regular distances from each other.
  • a support framework for supporting an array of at least two panels, the support framework comprising a first panel runner and a second panel runner, the first panel runner and the second panel runner having a top rail connected to a bottom flange by a web section, wherein the web section is provided with a plurality of alignment apertures that are spaced at regular intervals from each other along the first panel runner and the second panel runner, two panel hooks attached to each of the first panel runner and the second panel runner, each panel hook having an engagement means for attaching the panel hook to a panel runner, the engagement means of each panel hook having an internal profile that is complementary to the external profile of the top rail, each panel hook having a locking member which is engaged with one of the alignment apertures, wherein the first panel runner and the second panel runner are parallel to each other and are located within the same plane and wherein the alignment apertures on the first panel runner are opposite to the alignment apertures on the second support panel in a direction that is per
  • the first panel runner and the second panel runner are horizontal and two panel runner suspension members are attached to each of the first panel runner and the second panel runner and extend upwardly away from the first panel runner and the second panel runner, and wherein the panel hooks are hung on to each of the first panel runner and the second panel runner, wherein the engagement means of each panel hook is a hanger from which the panel hook hangs from a panel runner .
  • a hook for a support framework comprising an upper hanger section attached to a lower support section, wherein the upper hanger section comprises a back wall having on a first side a first edge and having on a second side a second edge, wherein the first edge and the second edge run in a direction from the upper hanger section to the lower support section, a first side wall extends in a forwards direction from the first edge away from the back wall and a second side wall extends in a forwards direction from the second edge away from the back wall, each of the first side wall and the second side wall having a hanger hook and each hanger hook having a centreline lying on a first plane (A) that is orientated vertically and spaced apart from the back wall, wherein a second plane (B) is orientated vertically and orientated perpendicularly to the first plane (A) and the second plane (B) is aligned with the centreline X-X of the back wall such that the second plane (
  • the back wall comprises a displaceable lateral alignment tab attached to the back wall by a hinge.
  • the displaceable alignment tab is and moveable about the hinge from an undeployed position wherein it lies in the plane of the back wall to a deployed position wherein it lies outside of the plane of the backwall, wherein when the hinge constrains the displaceable alignment tab to move in an arc parallel to the second plane (B).
  • the hook further comprises a displaceable vertical fixing tab attached to the back wall by a hinge.
  • the displaceable vertical fixing tab is and moveable about the hinge from an undeployed position wherein it lies in the plane of the back wall to a deployed position wherein it lies outside of the plane of the backwall, wherein when the hinge constrains the displaceable alignment tab to move in an arc parallel to the second plane (B).
  • the lower support section is a runner support and comprises a vertical runner engagement slot that runs in a direction that is within the second plane (B) and that intersects the first plane (A).
  • the lower support section is a flat plate that extends forwardly away from the back wall in a direction perpendicular to the first plane (A).
  • a two-part hook for a support framework comprising a top hook part that is removably attachable to a bottom connector part, the top hook part comprising an upper hanger section attached to a lower support section, wherein the upper hanger section comprises a back wall having on a first side a first edge and having on a second side a second edge, wherein the first edge and the second edge run in a direction from the upper hanger section to the lower support section, a first side wall extends in a forwards direction from the first edge away from the back wall and a second side wall extends in a forwards direction from the second edge away from the back wall, each of the first side wall and the second side wall having a hanger hook and each hanger hook having a centreline lying on a first plane (A) that is orientated vertically and spaced
  • the panel attachment means comprises a first sprung finger that extends downwardly from the bottom of the first side wall (and a second sprung finger that extends downwardly from the bottom of the second side wall and the bottom connector part having a coupling section for engagement with the first sprung finger and the second sprung finger and at least one panel gripper plate attached to the coupling section.
  • the panel attachment means comprises a plate provided with a helically threaded mechanical fastener.
  • kits comprising a sandwich panel fitted with the bottom connector part of the two-part hook according to the fourth aspect of the present invention and the kit provided with the top hook part of the two-part hook disconnected from the bottom connector part.
  • Figure 1 is a perspective view of a room with a canopy suspended from the ceiling and formed from an array of six rectangular canopy panels;
  • Figure 2 is a perspective view of an array of six canopy panels viewed from above and showing the support framework;
  • Figure 3 is a perspective view of a runner hook located on an upper runner and carrying a lower runner;
  • Figure 4 is a perspective view of a two-part panel hook located on a lower runner and attached to a canopy panel;
  • Figure 5 shows perspective views of eight example hooks and panel hanger assemblies that can be fitted to the support framework
  • Figure 6 is a perspective view of a runner hook
  • Figure 7 is a side view of the runner hook of Figure 5;
  • Figure 8 is a side view of the runner hook of Figure 5;
  • Figure 9 is a top view of the runner hook of Figure 5;
  • Figure 10 is a perspective view of a two-part sandwich panel hook
  • Figure 11 is a perspective view of the hook part of the two-part panel hook of Figure 10;
  • Figure 12 is a perspective view of the base part of the two-part panel hook of Figure 10;
  • Figure 13 is a perspective cross-sectional view of the two-part panel hook of Figure 10 fitted to a ceiling canopy panel;
  • Figure 14 is a perspective view of a baffle hook and a helical screw thread fixing
  • Figure 15 is a perspective view of a two-part panel offset hook
  • Figure 16 is a perspective view of the hook hanger section of the two-part panel offset hook of Figure 15;
  • Figure 17 is a perspective view of a canopy panel fitted with inclined panel hanger assemblies according to one embodiment of the present invention that are orientated so that the angle of inclination of the canopy panel is transverse to the lower runners when the canopy panel is fitted as part of a ceiling canopy;
  • Figure 18 is a perspective view of canopy panel fitted with inclined panel hanger assemblies according to one embodiment of the present invention that are orientated so that the angle of inclination of the canopy panel is parallel to the lower runners when the canopy panel is fitted as part of a ceiling canopy;
  • Figure 19 is a perspective view of an inclined panel hanger assembly in the orientation shown in Figure 17, and having a relatively long suspension rod;
  • Figure 20 is a perspective view of an inclined panel hanger assembly in the orientation shown in Figure 18, and having a relatively short suspension rod;
  • Figure 21 is a side elevation of an inclined panel hanger assembly attached to a canopy panel in the orientation shown in Figure 17;
  • Figure 22 is a front elevation of an inclined panel hanger assembly attached to a canopy panel in the orientation shown in Figure 17;
  • Figure 23 is a close-up perspective view of a panel inclination bracket
  • Figure 24 is a side elevation of a panel inclination bracket showing the various angles of the panel inclination slots and their vertical and horizontal separation;
  • Figure 25 is a close-up perspective view of a panel inclination bracket from below showing the relationship between the inclination slots and the fastener holes;
  • Figure 26 is a partial perspective view of an inclined panel hanger assembly according to another embodiment of the present invention.
  • Figure 27 is a perspective view of an array of vertical canopy panels, or baffles, suspended from a ceiling.
  • Figure 28 is a perspective view of a support framework provided with only one layer of runners.
  • Figure 1 illustrates a ceiling canopy 1 formed from an array of six rectangular canopy panels 3 suspended from a ceiling 5.
  • An array of six canopy panels 3 is also shown in Figure 2, viewed from above, in order to illustrate the support framework 7.
  • the support framework 7 comprises three elongate upper runners 9 and four elongate lower runners 11 .
  • the upper runners 9 are horizontal and arranged in parallel to each other and the lower runners 11 are horizontal and arranged in parallel to each other.
  • the upper runners 9 are located above the lower runners 11 and are orientated perpendicularly to the lower runners 11 .
  • the upper runners 9 run parallel to the long sides of the rectangular canopy panels 3 and are aligned on the centreline the canopy panels 3, i.e. midway between the two long edges.
  • the lower runners 11 are set in from the short sides of the rectangular canopy panels 3 by the same distance on either side.
  • Each upper runner 9 is provided with three adjustable length suspension rods 13, spaced along its length.
  • One suspension rod 13 is attached to the runner 9 towards one of its ends, one suspension rod 13 is attached to the runner 9 towards the other of its ends and one suspension rod 13 is attached to the runner 9 between the other two suspension rods 3.
  • adjustable length suspension wires 13 in place of, or in combination with, the adjustable length suspension rods 13.
  • the runners 9 are provided with suspension rod fixing holes 15 spaced at regular intervals.
  • the support framework 7 therefore comprises nine suspension rods 13. The lower end of each suspension rod 13 is connected to an upper runner 9 using one of the suspension rod fixing holes 15 and the upper end of each suspension rod 13 is connected to the ceiling 5 using a suspension rod ceiling anchor 17. The lengths of the suspension rods 13 can be adjusted so that each of the upper runners 9 is horizontal and so that each of the upper runners 9 is in the same plane as all of the other upper runners 9.
  • Each upper runner 9 is provided with four runner hooks 201 , one to carry each of the four lower runners 11 underneath the three upper runners 9.
  • a close-up view of a runner hook 201 fitted to an upper runner 9 and carrying a lower runner 11 is illustrated in Figure 3.
  • Each lower runner 11 is provided with six two-part sandwich panel hooks 301 , two for each of the three canopy panels 3.
  • the canopy panels 3 have a sandwich construction, i.e. they are made from two layers of material that are bonded together to form a sandwich.
  • Figure 4 shows a close-up view of a panel hook 301 fitted to a lower runner 11 and attached to a canopy panel 3.
  • the upper runners 9 and the lower runners 11 have the same features as each other. As illustrated in Figure 3 and Figure 4, the upper runners 9 and the lower runners 11 have a cross-sectional profile that is formed from an inverted T with a box section rail 19 located at the top of the T.
  • the horizontal part of the T provides a flange 21 at the bottom and the vertical part of the T provides a vertical web section 23 running between the box section rail 19 and the centreline of the flange 21.
  • the flange 21 extends away from the web section 23 by an equal distance on either side.
  • Hook engagement apertures 25, in the form of vertical slots, are provided through the web section 23 at regular intervals, for example at 100mm spacings, along the length of the upper and lower runners 9, 11 .
  • the support framework 7 works in combination with various different types of hooks, such that panels 3, light fixtures (not shown), baffles 51 (as illustrated in Figure 17) and any other parts of a ceiling canopy 1 can be suspended from the ceiling 5.
  • Figure 5 illustrates the runner hook 201 , the two-part sandwich panel hook 301 , a one-part sandwich panel hook 401 , a baffle hook 501 , a light fixture hook 601 and a panel offset hook 701 .
  • the hooks 201 , 301 , 401 , 501 , 601 , 701 each have an upper hanger section that comprises common features that enable the hooks to be hung from an upper runner 9 or from a lower runner 11.
  • Each of the hooks 201 , 301 , 401 , 501 , 601 , 701 has a lower support section that is formed integrally with the upper hanger section.
  • the lower support sections of the hooks 201 , 301 , 401 , 501 , 601 , 701 are all different, because each of those hooks serves a different purpose.
  • figure 5 shows the upper hanger section 203 and the lower support section 205 of runner hook 201.
  • the runner hook 201 is shown in Figure 6.
  • the runner hook 201 is made by stamping a component from a relatively thin sheet of metal, typically steel, and then subjecting that component to various folding operations during its manufacture to form the runner hook 201.
  • This method of construction provides the runner hook 201 with a high stiffness in relation to the thickness of the material from which it is made. This enables the runner hook 201 to provide the main connection points, as described in further detail below, in a way that creates tight and properly aligned (e.g. parallel) connections between the upper runners 9, the runner hooks 201 and the lower runners 11 .
  • the runner hook 201 has an upper hanger section 203, which is for engagement with an upper runner 9, and a lower support section 205, which is for engagement with a lower runner 11 .
  • the various features of the runner hook 201 are aligned relative to two perpendicular planes A and B, as explained in further detail below.
  • plane A is a plane parallel to and coplanar with the web section 23 of the upper runner 9
  • plane B is a plane parallel to and coplanar with the web section 23 of the lower runner 11.
  • the upper hanger section 203 has a generally U-shaped cross-section profile. This is shown in Figure 9 and the thickness of the sheet metal from which the runner hook 201 is manufactured is illustrated.
  • the upper hanger section 203 has a generally rectangular back wall 207.
  • the long sides of the back wall 207 extend vertically and are parallel to plane B.
  • Plane B runs down the vertical centreline of the back wall 207 such that the long sides are offset either side of plane B by an equal distance.
  • the back wall is parallel to and offset from the plane A.
  • a vertical side wall 209 extends from each long side of the back wall 207.
  • the vertical side walls 209 are formed integrally with the back wall 207 and folded out of the plane of the back wall 207 during manufacture of the runner hook 201.
  • the back wall 207 has a front face which, in use, points towards the web section 23 of the upper runner 9 from which the runner hook 201 is hung and a back face, which, in use, points away from the web section 23 of that upper runner 9.
  • Each side wall 209 extends away from the front face of the back wall 207 at an obtuse angle such that the side walls 209 splay apart from each other. This is advantageous because the two connection points to the runner are wider apart, thus the hook is more stable on the runner.
  • arranging the side walls 209 so that they taper outwardly makes them inherently more stable, compared to a straightsided U-shaped arrangement.
  • the splayed side walls facilitate storage, packing and shipping.
  • One side wall 209 is located on one side of plane B and the other side wall 209 is located on the other side of plane.
  • Each side wall 209 has a runner hanger 211 located towards its upper end and a runner clearance cut-out 212 located towards its lower end.
  • the wall of the side wall 209 is provided with an inverted U-shaped cut-out 213 in order to create the runner hanger 211.
  • the two sides of the inverted U-shaped cut-out 213 of the runner hanger 211 are parallel to each other, are vertical and are spaced apart from each other by a distance that is slightly greater than the width of the box section rail 19 of the upper runner 9.
  • the bottom of the inverted U-shaped cut-out 213 has a profile that is complementary to the profile of the top of the box section rail 19.
  • the depth of the inverted U-shaped cut-out 213 is the same as the depth of the box section rail 19.
  • the top of the inverted U-shaped cut-out 213 is open-ended and thus an elongate arm 215 is formed in the side wall 209 on the side furthest from the back wall 207, as illustrated in Figure 7.
  • the centreline of the inverted U-shaped cut-out 213 of each runner hanger 211 is aligned with plane A, as also shown in Figure 7.
  • the upper runner clearance cut-out 217 extends through the side wall 209 from the inverted U-shaped cut-out 213 back towards the back wall 207 until it joins with a side wall stiffening section 219.
  • the generally U-shaped cross-sectional profile of the upper hanger section 203, of which the wall stiffening section 219 is an integral part, are important for producing a runner hook 201 that can be made from relatively thin sheet material (to facilitate economic manufacture) whilst stiff providing a high level of stiffness to the runner hook 201 , for example so that the upper runners 9 and lower runners 11 can be maintained in a parallel and perpendicular alignment.
  • the upper runner clearance cut-out 217 is shaped to be complementary to the profile of the upper runner 9, so that the runner hook 201 can hang over the upper runner 9 without coming into contact with the flange 21 . See, for example, Figure 4.
  • the side wall stiffening section 219 extends from the upper hanger section 203 to the lower support section 205, as will be explained below.
  • the back wall 207 further comprises an aperture engagement tab 221 that is hinged to the back wall 207, and can be folded out from it in the direction of plane A in a direction parallel with plane B.
  • Figure 6 shows the aperture engagement tab 221 in a partially deployed position, wherein it has been hinged out of the plane of the back wall 207.
  • the aperture engagement tab 221 is generally rectangular and its upper short edge forms the hinge 223 in the back wall 207.
  • the other short edge of the aperture engagement tab 221 is provided with an elongate locking member 225 that is in the same plane as the rest of the aperture engagement tab 221 .
  • the elongate locking member 225 is aligned with the centreline of the back wall 207.
  • a flange crimping tab 227 is also provided in the back wall 207.
  • the flange crimping tab 227 is hinged to the back wall 207 and can be folded out from it in the direction of plane A in a direction parallel with plane B.
  • Figure 6 shows the flange crimping tab 227 in an undeployed position in which it is in the plane of the back wall 207
  • the flange crimping tab 227 is generally rectangular and its upper short edge forms a hinge 229 in the back wall 207.
  • the other short edge of the flange crimping tab 227 is provided with a crimping portion 231 that extends perpendicularly to the rest of the flange crimping tab 227 in a direction towards plane A (when the flange crimping tab 227 is in an undeployed position wherein it lies within the plane of the back wall 207).
  • the flange crimping tab 227 is aligned with the centreline of the back wall 207.
  • the crimping portion 207 is in the plane of the horizontal upper part 233 of a support plate 235 which forms part of the lower support section 205.
  • the lower support section 205 comprises the support plate 235.
  • the support plate 235 is in the form of an angle section with a horizontal upper part 233 and a vertical web support 237 which extends perpendicularly downwardly from the upper part 233.
  • the horizontal upper part 233 is integrally formed with the back wall 207 and extends perpendicularly from the back wall 207 towards plane A.
  • the vertical web support 237 is co-planar with plane A, as can be seen in Figure 7, and has a vertically orientated aperture engagement slot 239 that is aligned with plane A, plane B and with axis X-X.
  • a lower runner clearance cut-out 241 is provided in the vertical web support 237 and is shaped complementarily to a lower runner 11 , so that the aperture engagement slot 239 can be engaged with the web section 23 of a lower runner 11 by passing it through a hook engagement aperture.
  • the lower support section 205 further comprises a rail alignment plate 243 which has an inwardly facing vertical rail alignment edge 245.
  • the rail alignment edge 245 is spaced at a distance from plane B that is half the width of the box section rail 19 of a lower runner 11 and extends sufficiently far in a downwards direction such that , in use, the rail alignment edge 245 contacts the external vertical side of a box section rail 19 of a lower runner 11 that is supported by the runner hook 201 , to reduce the ability for that lower runner 11 to twist relative to the upper runner 9 that is supporting it.
  • the side wall stiffening section 219 extends from the upper hanger section 203 to the lower support section 205.
  • the side wall stiffening section 219 has a front facing external profile that is complementary to, and abuts, the back facing internal profile of the support plate 235.
  • the sandwich panel hook 301 has an upper hanger section 303 and a lower support section 305, as shown in Figure 11.
  • the upper hanger section 303 has similar features to the upper hanger section 203 of the runner hook 201 and is formed in a similar manner during its manufacture. It has a back wall 307 with side walls 209 that extend out from the back wall 307 in the same way as for the runner hook 201.
  • Runner hangers 311 are formed from inverted II- shaped cut-outs 313 that have the same shape and are in the same position as in the runner hook 201 and form an elongate arm 315 in the same way.
  • the back wall 307 is provided with an aperture engagement tab 321 and a flange crimping tab 327 that have all the features of the corresponding parts of runner hook 201.
  • the aperture engagement tab 321 and the flange crimping tab 327 are shown in their undeployed positions, i.e. in the plane of the back wall 307.
  • the flange crimping tab 327 In relation to the flange crimping tab 327, because the lower support section 305 is different to that of the lower support section 205 of runner hook 201 , the flange crimping tab 327 is flat in its undeployed position and the crimping portion 331 is only bent relative to the rest of the flange crimping tab 327 when it is deployed in use.
  • the lower support section 305 is provided with two sprung fingers 333 which engage with a separate bonding plate 335.
  • Each sprung finger 335 has a bracing part 337 and a spring part 339.
  • the bracing part 337 extends downwardly from the side wall stiffening section 319 of each side wall 309 as lies in the same plane as it.
  • the spring part 339 is bent upwardly from the bracing part 337 about an axis perpendicular to the back wall 307 so that the spring part 339 is located on the outward side of the bracing part 337 and so there is a relatively small included angle between the bracing part 337 and the spring part 339.
  • the bracing part 337 is provided with an abutment shoulder 341 that is in the same horizontal plane as the bottom edge of the back wall 307.
  • the spring part 339 is provided with two abutment shoulders 343 that between them define a tongue 345.
  • the bonding plate 335 has a generally circular flat and horizontal coupling plate 347.
  • Two gripper plates 349 are attached to the edge of the coupling plate 347, in diametrically opposite positions, by vertical offset spacers 351 , which raise the level of the coupling plate 347 above the level of the gripper plates 349.
  • the gripper plates 349 are generally rectangular and flat and horizontal and are thus parallel to the coupling plate 347.
  • the coupling plate 347 has a first pair of spring engagement apertures 353 and a second pair of identical spring engagement apertures 355.
  • the first pair of spring engagement apertures 353 are located adjacent to the gripper plates 349 and the second pair of spring engagement apertures 355 are offset from the gripper plates 349 by 90°.
  • the spring engagement apertures 353 and 355 have a T-shaped cross-section and the width of the top of the T-shape is slightly largely than the width of the bracing part 337 and the width of the stem of the T-shape is slightly larger than the width of the tongue 345 of the spring part 339, but less than the width of the spring part 339 across the abutment shoulders 343.
  • the apertures are spaced apart by a distance such that the sprung fingers 333 are compressed when the lower support section 305 is engaged with the coupling plate
  • the gripper plates 349 are provided with adhesive apertures 357 and fold out gripping spikes 359.
  • Figure 13 shows the two-part sandwich hook 301 fixed to a sandwich canopy panel made from two canopy panels 3. A circular hole 361 is made in the upper canopy panel 3 and the bonding plate 335 is inserted into it from beneath. The gripping spikes 359 hold the bonding plate 335 in place until the lower canopy panel 3 is bonded to the underneath of the upper canopy panel 3.
  • the adhesive apertures 357 help to improve the quality of the adhesive bond. Once the adhesive in the sandwich canopy panel has cured, the two-part sandwich hook 301 can be assembled by placing the sprung fingers 33 through one of the pairs of spring engagement apertures 353,355.
  • a baffle hook 501 is shown in Figure 14. Its upper hanger section 503 has features that are common to the other hooks 201 ,301 ,401 , 501 , 601 , 701. Its lower support section 505 comprises a screw plate 571 that extends perpendicularly to back wall 507 and that is braced by side wall stiffening sections 519. The screw plate 571 is provided with a connection slot 573 for connecting a helical screw thread fixing 575.
  • a light fixture hook 601 is shown in Figure 5. Its upper section shares the features common to the upper sections of the other hooks 201 ,301 ,401 ,501 ,701 and its lower section is provided with a flat aperture plate 681 that is perpendicular to the back wall 607.
  • the aperture plate can be used to support a light, such as a LED lamp, by placing a holding screw through the hole in the aperture plate 681 .
  • Figure 15 shows a two-part panel offset hook 701 for use with the bonding plate 353 of the two-part sandwich panel hook 301 comprising a constant cross-section U-shaped height adjustment channel 781 to which is removably fixed an upper hanger section 703 that has features that are common to the upper hanger sections of the other hooks 201 ,301 ,401 ,501 ,601 .
  • the upper hanger section 703 is shown separately in Figure 16.
  • the back wall 707 has two clamping tabs 783 that are hinged to the back wall 707 and can be folded out from it.
  • the height adjustment channel 781 is provided with six height adjustment windows 785 that are spaced at a regular interval from each other that corresponds to the spacing of the clamping tabs 783.
  • the upper hanger section 703 is located within the height adjustment channel and two clamping tabs 783 of the upper hanger section 703 can be placed through whichever two of the height adjustment windows 785 will provide the desired length to offset the two-part panel offset hook 701 by the required distance from the lower runner 11.
  • the clamping tabs 783 are then bent back towards the back wall 707 of the upper hanger section 703 to clamp the upper hanger section 703 to the height adjustment channel 781.
  • the height adjustment channel 781 is provided on its bottom edge with a pair of sprung fingers 733 that are of the same type as those described above in reference to the two-part sandwich panel hook 301.
  • the height adjustment channel 781 has an elongate rectangular back wall 787 and two side walls 789 extending perpendicularly forwards from the back wall 787 and along the length of the long sides of the back wall 787.
  • a bracing part 737 of each sprung finger 733 is attached to the bottom of a side wall 789 and is co-planar with it and the two sprung finger 733 together form a means for connection to a bonding plate 335, for example as illustrated in Figure 12.
  • the height adjustment channel 781 can also be provided with the plate and helical screw arrangement of baffle hook 501 , in place of the sprung fingers 333, in order to fix a panel 3 to the height adjustment channel 781 .
  • the first step is to drill into the ceiling 5 the holes to secure the suspension rod ceiling anchors 17.
  • Three rows of three ceiling anchors 17 are required. In each row the three ceiling anchors 17 are spaced apart from each other by a distance that is aligned with the spacing of the suspension rod fixing holes 15 on the upper runners 9, so that when the upper runners 9 are suspended from the ceiling anchors 17 by adjustable length suspension rods 13, the adjustable length suspension rods 13 are vertical. All three rows of three ceiling anchors 17 must be parallel to each other.
  • an adjustable length suspension rod 13 is attached to each ceiling anchor 17 using a hook at its upper end.
  • the adjustable length suspension rods 13 are also provided with a hook at their lower ends and that hook is located through the appropriate suspension rod fixing hole 15 in the upper runner 9. Once the three upper runners 9 have been hung from the nine adjustable length suspension rods 13 the length of the adjustable length suspension rods 13 can be adjusted to ensure that each of the three upper runners 9 is horizontal and that each upper runner 9 lies in the same horizontal plane.
  • Each upper runner 9 is provided with four runner hooks 201.
  • the runner hooks 201 are located over the upper runners 9, so that the runner hangers 211 are located over the box section rails 19 of the upper runners 9.
  • a first runner hook 201 is located on a first upper runner 9 at a position where the first lower runner 11 is to be located.
  • the upper runner 201 is then held in that lateral position on the upper runner 9 by bending the aperture engagement tab 221 out of the back wall 207 of the runner hook 201 and pushing its locking member 225 through the hook engagement aperture 25 in the web section of the upper runner 9.
  • the runner hook 201 can be fixed to the upper runner 9 by bending up the flange crimping tab 227 and crimping the crimping portion 231 to the flange 21 of the upper runner 9. In crimping the crimping portion 231 to the flange 21 , the runner hook 201 is prevented from being able to move in a vertical direction and thus the runner hook 201 is attached to the upper runner 9 in a way that facilitates maintenance of the desired vertical and horizontal alignment of the upper runners 9 with the lower runners 11 .
  • the other runner hooks 201 are then installed according to the desired spacing of the lower runners 11 and in order to make the lower runners 11 parallel to each other and perpendicular to the upper runners.
  • the regular spacing of the hook engagement apertures 25 means that the operation of making the lower runners parallel and square is very straightforward.
  • the canopy panels 3 can be installed.
  • a sandwich panel made from two canopy panels 3 can be provided with four two-part sandwich panel hooks 301 , one at each corner, and those two-part sandwich panel hooks 301 can be hung on a lower runner 11.
  • the canopy panels 3 can be secured in place by using the aperture engagement tab 321 to engage with a hook engagement aperture 25 in the web section 23 of the lower runner 11 , so that the locking member 325 stops the two-part sandwich panel hook 301 from moving laterally.
  • the two-part sandwich panel hook 301 can be fixed to the lower runner 11 to prevent removal by bending up the flange crimping tab 327 and crimping the crimping portion 331 to the flange 21 of the lower runner 11.
  • the other five of the six panels can then be fitted so that they are all square to each other, as facilitated by the regular spacing of the hook engagement apertures 25.
  • two-part panel offset hooks 701 can be used in place of two-part sandwich panel hooks 301 , so that the panels can be located in two or more separated horizontal planes.
  • Figure 17 is a perspective view of a canopy panel 3 fitted with four inclined panel hanger assemblies 801 that are orientated so that the angle of inclination of the canopy panel 3 is transverse to the lower runners 11 when the canopy panel 3 is fitted to the lower runners (11) as part of a ceiling canopy 1 , for example as shown in Figure 21 .
  • Figure 18 is a perspective view of canopy panel 3 fitted with four inclined panel hanger assemblies 801 that are orientated so that the angle of inclination of the canopy panel 3 is parallel to the lower runners 11 when the canopy panel is fitted as part of a ceiling canopy 1.
  • FIG 19 is a perspective view of an inclined panel hanger assembly 801 in the orientation shown in Figure 17.
  • the panel hanger assembly 801 has a panel inclination hook 803 for hanging it from a lower runner 11.
  • a vertically orientated height setting rod 805 is attached at its upper end to a bottom end of the panel inclination hook 803 and at its lower end to a securing splint 807.
  • the securing splint 807 is attached to a bracket 809 by being passed through one pair of a number of pairs of inclination slots 811 provided in the bracket 809.
  • the bracket 809 is also provided with three fastener holes 813 through one of which an angle selection fastener 815 is passed in order to fix the panel hanger assembly 801 to a helical screw thread fixing 817, that is itself fixed into a panel 3, thereby fixing the inclined panel hanger assembly 801 to a panel 3.
  • the panel inclination hook 803 has an upper hanger section 819 with the features that are common to the other hooks 201 ,301 ,401 ,501 ,601 ,701. It has a lower support section 821 that comprises a rod plate 823 that extends perpendicularly to a back wall 825 and that is braced by side wall stiffening sections 827. A rod attachment hole 829 passes through the rod plate 823 and an upper threaded end 831 of the height setting rod 805 passes through it from its lower side.
  • the height setting rod 805 is attached to the panel inclination hook 803 by clamping the rod plate 823 between a shoulder (not shown) on the height setting rod 805 and a washer 833 and a lock nut 835 that is threaded on to the upper threaded end 831.
  • the height setting rod 805 is orientated perpendicularly to the rod plate 823 and thus when the inclined panel hanger assembly 801 is hung from a lower runner 11 the height setting rod 805 is orientated vertically and it is also orientated perpendicularly to the flange 21 of the lower runner 11.
  • Figure 21 is a side elevation of an inclined panel hanger assembly 801 attached to a canopy panel 3 in the orientation shown in Figure 17.
  • the longitudinal axis Y-Y of the height setting rod 805 is shown in Figure 21 and it can be seen that it is aligned with the centre of each of the two runner hangers 837 of the upper hanger section 819, so that when the inclined panel hanger assembly 801 is hung from a lower runner 11 the longitudinal axis Y-Y runs vertically through the centre of the web section 23 of the lower runner 11.
  • Figure 22 is a front elevation of an inclined panel hanger assembly 801 showing how the longitudinal axis Y-Y of the height setting rod 805 passes through the centreline of the fastener holes 813 when the height setting rod 805 is attached to the bracket 809 by the securing splint 807.
  • the securing splint 807 is attached to the bottom end 839 of the height setting rod 805.
  • the securing splint 807 is formed from an elongate bar 839 which has a rectangular cross-sectional profile and which widens at one end to form a retaining head 841 .
  • the long edge of the rectangular cross-sectional profile is parallel to the longitudinal axis Y-Y of the height setting rod 805.
  • the other end of the elongate bar 839 is provided with a flexible securing locking tab 843 which has the same rectangular cross-sectional profile as the elongate bar 839.
  • the rectangular cross-sectional profile is complementary to the cross-sectional profile of the inclination slots 811 , which is also rectangular, so that the flexible securing tab 841 and the elongate bar 839 can pass through the inclination slots 811.
  • the retaining head 841 is too wide to pass through the inclination slots 811.
  • the elongate bar 839 is provided with a through hole 841 for attachment of the height setting rod 805.
  • the bottom end of the height setting rod 805 is provided with a splint securing slot 845 which runs transversely to the height setting rod 805 and is aligned with its longitudinal axis Y-Y.
  • the splint securing slot 845 is open ended at its bottom end, so that the elongate bar 839 of the securing splint 807 can be introduced into the splint securing slot 845 in an upwards direction.
  • the securing splint 807 is attached to the height setting rod 805 using a threaded splint fastener 847 which locates within the through hole 841 of the elongate bar 839 and screws into a hole in the height setting rod 805 in order to clamp the height setting rod 805 to the securing splint 807.
  • Figures 19 to 22 show how the securing splint 807 is fitted to the bracket 809.
  • the bracket 809 as shown in Figure 23, is generally U-shaped in cross-sectional profile and is formed by being folded up from a flat component.
  • a first side wall 849 is folded up from one end of the flat component
  • a second side wall 851 is folded up from the other end of the flat component
  • a generally rectangular flat base 853 is formed between the first side wall 849 and the second side wall 851.
  • the first side wall 849 and the second side wall 851 extend perpendicularly upwards from the base 853 on the same side, such that the first side wall 849 and the second side wall 851 are parallel to each other.
  • a cut-out 855 is stamped out from the flat component towards either end so that upon folding up the bracket 809 a portion at the bottom of each of the first side wall 849 and the second side wall 851 extends below the base 853 to form a piercing member 857 which pierces the surface of the panel 3 when the bracket 809 is fixed to it.
  • Each of the first side wall 849 and the second side wall 851 is provided with seven discrete inclination slots 811 that pass through each of the sides walls 849,851 , from one side to the other.
  • a side elevation of the bracket 809 is shown in Figure 24.
  • the brackets 809 are fitted to a canopy panel 3 as shown in Figures 17 and 18.
  • the canopy panel 3 is a cuboid, for example a cuboid with a square top face 859 and a square bottom face 861 each having dimensions of 1160mm long by 1160mm wide and the canopy panel 3 having a thickness of 40mm.
  • the canopy panel 3 When fitted to the lower runners 11 the canopy panel 3 is supported by the inclined panel hanger assemblies 801 so that it is inclined relative to the lower runners 11 (and therefore also inclined relative to the horizontal) such that the canopy panel 3 has an upper end face 863 and a lower end face 865.
  • the other two sides of the canopy panel 3 are a front face 867 and a back face 869.
  • the brackets 809 are orientated so that their first and second side walls 849,851 are parallel to the front and back faces 867,869 of the canopy panel 3 and are perpendicular to the upper end face and the lower end face 863,865 of the canopy panel 3.
  • the brackets 809 are also orientated so that one end of each of the first and second side walls 849,851 points towards the upper end face 863 and so that the other end of the first and second side walls 849,851 points towards the lower end face 865.
  • the base 853 of each bracket 809 has an upwards facing edge 871 , i.e. an edge facing up the inclination of the canopy panel 3, and a downwards facing edge 873, i.e. an edge facing down the inclination of the canopy panel 3.
  • the inclination slots 811 are arranged into three groups.
  • Group 1 comprises slots 1A and 1 B.
  • Group 2 comprises slots 2A and 2B.
  • Group 3 comprises slots 3A, 3B and 3C. All of the inclination slots 811 are aligned at an angle to a perpendicular from the base 853.
  • Slots 1A and 1 B are aligned at an angle a to the perpendicular and in this embodiment angle a is 4.9 degrees.
  • Slots 2A and 2B are aligned at an angle y to the perpendicular and in this embodiment angle y is ten degrees.
  • Slots 3A, 3B and 3C are aligned at an angle p to the perpendicular and in this embodiment angle y is 6.5 degrees.
  • the 4.9, 6.5 and 10 degree inclinations of the inclination slots 811 facilitate the fitment of canopy panels at an angle of 4.9, 6.5 or 10 degrees to the lower runners 11 (and thus to the horizontal).
  • canopy panel A is 1160mm long and 1160mm wide (shown in Figures 17 and 18) and canopy panel B is 1760mm long and 1160mm wide (not shown). It is envisaged that the system can be utilized with other sizes and shapes of canopy panel 3.
  • Canopy panel A is provided with four inclined panel hanger assemblies 801 , each attached to a helical screw thread fixing 817 that is screwed into the canopy panel 3.
  • Canopy panel B is provided with six inclined panel hanger assemblies 801 , each attached to a helical screw thread fixing 817 that is screwed into the canopy panel 3.
  • Six panel hanger assemblies 801 are needed for Canopy B due to its longer length.
  • Canopy panel A can be fitted at a 4.9 degree inclination, using slots 1 A and 1 B, or at a ten degree inclination, using slots 2A and 2B.
  • Canopy panel B can be fitted at a 6.5 degree inclination, using slots 3A, 3B and 3C.
  • the inclination slots 811 in each of groups 1 , 2 and 3 are spaced apart from each other in a horizontal direction, i.e. in a direction parallel to the base 853, and in a vertical direction, i.e. in a direction perpendicular to the base 853.
  • the horizontal spacing of the inclination slots in each of groups 1 , 2 and 3 compensates for a reduction in the effective horizontal distance between the centres of the helical screw threaded fixings 817 resulting from the inclination of the canopy panel 3.
  • a typical spacing of the centrepoints of the helical screw threaded fixings 817 in canopy panel A is 600mm and a 600mm spacing is provided by the hook engagement apertures 25 on the lower runners 11 and/or the spacing between the centrelines of two adjacent and parallel lower runners 11 is 600mm. If the canopy panel A is inclined at 4.9 degrees then the distance along the back face 869 of the canopy panel 3 between the intersection with the back face 869 of two vertical lines spaced 600mm apart horizontally is 602.2mm.
  • This distance is greater than the spacing of 600mm at which the helical screw threaded fixings 817 are set in the canopy panel 3 relative to each other and therefore the brackets 809 have to compensate for that difference of 2.2mm.
  • This compensation is achieved by spacing slot 1 A and slot 1 B of the inclination slots 811 from each other in a horizontal direction, as shown in Figure 24. In Figure 24 the distance A is 2.2mm.
  • the vertical spacing of the inclination slots 811 in each of groups 1 , 2 and 3 facilitates manufacture of the bracket 809.
  • the horizontal distance between the inclination slots 811 in each of groups 1 , 2 and 3 is small. If the inclination slots 811 are offset vertically relative to each other then the spacing between them increases. This facilitates manufacturing of the brackets 809 and makes them more robust, for example because it eliminates any thin webs of material that would exist in the first and second side walls 849,851 if the inclination slots 811 in each of the groups were adjacent to each other.
  • a vertical compensation is provided which facilitates precise location of the edges of the canopy panels 3, for example so that adjacent canopy panels 3 can be located in desired positions relative to each other.
  • This vertical compensation can also be provided through a combination of the position of the inclination slots 811 in the bracket 809 and the vertical displacement provided by the height setting rod 805.
  • the horizontal spacing between groups 1 , 2 and 3 of the inclination slots 811 is facilitated by the provision of the three fastener holes 813 in the base 853.
  • first fastener hole 813 for the 4.9 degree inclination of a canopy panel 3 there is a second fastener hole 813 for the 6.5 degree inclination of a canopy panel 3 and there is a third fastener hole 813 for the ten degree inclination of a canopy panel 3.
  • the three fastener holes 813 are spaced apart along a line Z-Z that is located midway between and parallel to the side walls 849,851 .
  • the line Z-Z therefore intersects with the longitudinal axis Y-Y of the height setting rod 805.
  • the spacing of the fastener holes 813 is selected to be any distance that facilitates the desired arrangement of the seven inclination slots 811 , without making the overall length of the bracket 809 any longer than necessary.
  • Figure 25 illustrates the arrangement of the 4.9 degree fastener hole 813 relative to slot 1A and slot 1 B of the inclination slots 811 .
  • the centre-point of the fastener hole 813 is referenced as CP.
  • a centreline can be drawn through slot 1 B, that centreline being angled at 4.9 degrees to the base 853, i.e. as shown in Figure 24 as angle a.
  • a transverse line is then drawn from the point at which the centreline intersects the bottom edge of the base 853 and parallel to the downwards facing edge 873 of the base 853.
  • There is a distance D between the transverse line and the centre-point of the fastener hole 813 and the transverse line is located between the centre-point CP and the upwards facing edge 871 of the base 853.
  • the distance D is 0.77mm.
  • a centreline can also be drawn through slot 1A, that centreline also being angled at 4.9 degrees to the base 853.
  • a transverse line is then drawn from the point at which that centreline intersects the bottom edge of the base 853 and parallel to the downwards facing edge 873 of the base 853.
  • the distance E is 2.96 mm.
  • the distance between the two transverse lines is 2.2mm (2.96mm-0.77mm), i.e. the distance A, as also shown in Figure 24.
  • FIG 26 shows an inclined panel hanger assembly 901 according to another embodiment of the present invention.
  • the inclined panel hanger assembly 901 comprises a bracket 909 to which is attached a U-shaped height adjustment channel 981.
  • An upper hanger section (not shown) is connected to the U-shaped height adjustment channel to facilitate hanging of the inclined panel hanger assembly 901 from a lower runner 11.
  • the arrangement of the U-shaped height adjustment channel 981 and the upper hanger section works in substantially the same way as the counterpart components of the two-part panel offset hook 701 , as described above and as illustrated in Figures 15 and 16.
  • the bracket 909 is U-shaped in cross-sectional profile and has a first side wall 949 and a second side wall 951.
  • the first and second side walls 949,951 are each provided with seven inclination slots 911.
  • the inclination slots 911 are arranged into three groups.
  • Group 1 comprises slots 1A and 1 B.
  • Group 2 comprises slots 2A and 2B.
  • Group 3 comprises slots 3A, 3B and 3C. All of the inclination slots 911 are aligned at an angle to the base 953. It is to be noted that whereas in the inclined panel hanger assembly 801 the inclination slots 811 are inclined by either 4.9, 6.5 or 10 degrees from a perpendicular to the base 853, in this inclined panel hanger assembly 901 , the inclination slots 911 are inclined by either 4.9, 6.5 or 10 degrees from a line parallel to the base 953. Slots 1A and 1 B are aligned at an angle a to that line parallel to the base 953 and in this embodiment angle a is 4.9 degrees.
  • Slots 2A and 2B are aligned at an angle y to that line parallel to the base 953 and in this embodiment angle y is ten degrees. Slots 3A, 3B and 3C are aligned at an angle p to that line parallel to the base 953 and in this embodiment angle y is 6.5 degrees.
  • the 4.9, 6.5 and 10 degree inclinations of the inclination slots 911 facilitate the fitment of canopy panels at an angle of 4.9, 6.5 or 10 degrees to the lower runners 11 (and thus to the horizontal).
  • the inclination slots 911 in each of groups 1 , 2 and 3 are spaced apart from each other in a vertical direction, i.e. in a direction perpendicular to the base 953, and in a horizontal direction, i.e. in a direction parallel to the base 953.
  • the vertical spacing of the inclination slots 911 in each of groups 1 , 2 and 3 facilitates manufacture of a robust bracket 909.
  • the vertical spacing avoids any overlapping of inclination slots 911 and eliminates any thin webs of material that would exist in the first and second side walls 949,951 if the inclination slots 911 in each of the groups were adjacent to each other.
  • a vertical compensation is provided which facilitates precise location of the edges of the canopy panels 3, for example so that adjacent canopy panels 3 can be located in desired positions relative to each other.
  • This vertical compensation can also be provided through a combination of the position of the inclination slots 911 in the bracket 909 and the vertical displacement provided by the height adjustment channel 981.
  • a splint 907 is passed through the inclination slots 911 and the height adjustment panel 981 to connect the bracket 909 to the upper hanger section (not shown).
  • the base 953 has a single fastener hole 913 for connecting the bracket 909 to a helical screw thread fixing 917 provided in a canopy panel 3. That single fastener hole 913 is used for each of the 4.9, 6.5 and 10 degree canopy panel inclinations and the inclination slots 911 are arranged accordingly.
  • FIG 27 shows the support framework 7 being used to support an array of vertical canopy panels 51 , also known as baffles 51.
  • the baffles 51 are suspended from lower runners 11 by baffle hooks 501 .
  • Figure 28 shows a support framework 1007 supporting an array of six rectangular canopy panels 3.
  • the support framework has four lower runners 11 , but no upper runners 9.
  • Adjustable length suspension rods 13, not shown, are located in suspension rod fixing holes 15 on the lower runners 11 and are attached to suspension rod ceiling anchors in order to suspend the lower runners 11 from a ceiling 5.
  • spacer bars can be attached between the lower runners 11 (and the upper runners 9 of the support framework 7) to strengthen the framework and to improve the maintenance of the parallel orientation (and the perpendicular orientation for the support framework 7).

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Residential Or Office Buildings (AREA)
  • Connection Of Plates (AREA)

Abstract

Cadre de support (7) pour un réseau de panneaux (3) comprenant des premier et second patins de support parallèles (9) et des premier et second patins de panneau parallèles (11). Les premier et second patins de support (9) sont perpendiculaires aux premier et second patins de panneau (11) et chaque patin de support est doté d'ouvertures d'alignement espacées de manière régulière (25). Au moins deux crochets de canal (201) sont fixés à chacun des premier et second patins de support (9), chaque crochet de patin (201) présentant un moyen de mise en prise (211) destiné à fixer le crochet de patin (201) à un patin de support (9) et chaque crochet de patin (201) présentant un élément de verrouillage (225) qui est en prise avec l'une des ouvertures d'alignement (25). Au moins deux crochets de patin (301) sont fixés à chacun des premier et second patins de panneau (11) et chacun présente un moyen de mise en prise (311) destiné à fixer le crochet de panneau (301) à un patin de panneau (11).
PCT/GB2023/050743 2022-03-24 2023-03-23 Système architectural permettant de créer un réseau de panneaux WO2023180752A1 (fr)

Applications Claiming Priority (2)

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GB2204212.1A GB2616898A (en) 2022-03-24 2022-03-24 An architectural system for creating an array of panels
GB2204212.1 2022-03-24

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WO2023180752A1 true WO2023180752A1 (fr) 2023-09-28

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EP2635750B1 (fr) * 2010-11-01 2016-08-03 AWI Licensing Company Système de plafond suspendu, éléments de fixation et procédé d'installation d'un système de plafond suspendu
EP2902559A1 (fr) * 2014-01-30 2015-08-05 Saint-Gobain Ecophon AB Système de plafond suspendu et procédé pour monter un plafond suspendu
CN105604229B (zh) * 2015-12-22 2017-11-24 浙江亚厦装饰股份有限公司 一种卡式龙骨复式集成吊顶结构
WO2021037742A1 (fr) * 2019-08-23 2021-03-04 Saint-Gobain Acoustical Products International B.V. Système de suspension de plafond ayant un support de couplage à pattes de retenue élastiques

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