WO2011015372A1

WO2011015372A1 - Structural element for arched ceiling and wall panels and method for the production thereof

Info

Publication number: WO2011015372A1
Application number: PCT/EP2010/004834
Authority: WO
Inventors: Markus Wenk; Willi Flaig
Original assignee: Armstrong Metalldecken Ag
Priority date: 2009-08-06
Filing date: 2010-08-06
Publication date: 2011-02-10
Also published as: EP2309070B1; EP2309070A1

Abstract

The curved structural element comprises a flexible arched panel (10), which has two opposite side edges, a plurality of spaced-apart projections (11) extending upwards from the arched panel (10) on at least one of the side edges, and at least one elongate side segment (30), which has an upper and a lower curved longitudinal edge, the lower longitudinal edge facing the arched panel (10). The projections (11) each have a retaining portion (13), which extends inwards at a distance from the arched panel (10) and into which the upper longitudinal edge of the side segment (30) engages with a form fit. Also preferably provided between the projections (11) and the arched panel is a narrow web (3), which extends upwards from the arched panel (10) and with which the projections (11) merge.

Description

Component for ceiling and wall sheet metal plates and method for its production

The invention relates to a device having the features of the preamble of claim 1 and a method for its production.

A suspended on a ceiling, rectangular, transverse and longitudinal sides having ceiling canopies is known from EP 1 947 258 A2. This ceiling sail has in its longitudinal direction on a convex or concave curvature. This is achieved in that rigid edge pieces are concavely or convexly curved and impress their concave or convex curvature in their connection with the longitudinal edge strips of the viewing element in the longitudinal direction corresponding bending ceiling panels. The connection of the ceiling sail with the associated rigid edge piece is done by riveting.

A disadvantage of a convex or concave shaped ceiling canopy produced according to EP 1 947 258 A2, the complex connection between the ceiling canopy and the rigid edge pieces.

The invention is based on the object, which can be hung on a ceiling or erected as a wall clad, curved component that is inexpensive, easy to manufacture, flexible in design, adaptable to the respective requirements of the environment and easy to assemble, and a method for the production of to provide curved components.

This object is achieved by a component having the features of patent claim 1. Advantageous embodiments of the device according to the invention are the subject of claims 2 to 11.

The flexible sheet plate has two opposite side edges, wherein extending from the sheet plate at least one of the side edges a plurality of spaced-apart, for example formed as tabs projections upwards. It is irrelevant whether the sheet plate has a rectangular, trapezoidal or other shape. The elongate side segment has an upper and lower curved longitudinal edge, the lower longitudinal edge facing the flexible sheet plate. The type of curvature of the side segment is irrelevant and thus may be convex or concave curved, wavy, only one side up or bent or have any other shape.

The projections each have a holding portion extending inwardly at a distance from the sheet plate, in which the upper longitudinal edge of the side segment engages positively. According to one embodiment, the inwardly extending holding portion engages around the upper edge of the side segment.

In addition, between the projections and the sheet plate, a narrow web is provided with preferably parallel to the sheet plate extending edge extending from the sheet plate upwards and in which pass over the projections. The narrow web preferably extends along the entire longitudinal side of the sheet plate. Its height is preferably 2 to 10 mm. This web provides for increased stability of the device and improves the aesthetic appearance of the device.

The holding sections preferably have openings, so-called positioning slots. On the side segment so-called positioning tabs extend at the upper longitudinal edge. These positioning tabs engage in the positioning slots of the sheet plate.

Conveniently, fixing devices are provided on the sheet plate, which fix the side segment in its longitudinal direction on the sheet plate.

According to an embodiment extends from a side of a projection as fixing a tab inwardly over the sheet plate, which passes through an opening formed in the side member and thus fixes the side member to the sheet plate.

Preferably, the upper and the lower longitudinal edge of the side segment are parallel to each other, wherein the sheet plate at the lower longitudinal edge and the holding portions abut the upper longitudinal edge. The sheet plate is preferably formed by a stamped part made of sheet metal. As a material for the sheet plate, however, any material is possible which has a corresponding flexibility. These may be aluminum, galvanized sheet steel or galvanized, untreated or treated stainless steel of equivalent thickness. Also plastics can serve as material for the sheet plate. The material of the sheet can be adapted in form, color and material used to the requirements of the environment and the aesthetic concept. The sheet metal plate can contain reflective, mirrored, light-absorbing or partially light-transmitting or filtering materials for lighting purposes.

Preferably, the projections of the sheet plate are formed by folding at an angle of 90 ° to the sheet plate surface. Further, the holding portions extend at an angle of 90 ° to 135 ° to the projections.

Preferably, the side segment is flat and formed by a stamped part of sheet metal. As a material for the side segment, however, any material is possible that has a corresponding bending stability in its longitudinal direction. These may be aluminum, galvanized sheet steel or galvanized, untreated or treated stainless steel of equivalent thickness. Plastics can also serve as material for the side segment.

In one embodiment, the sheet plate has a perforation. The arrangement, amount, shape and size of the holes is not critical. An acoustic fleece insert or acoustic insulation materials for sound insulation is attached to the perforated sheet panel from above. Preferably, the acoustic fleece is adhered to the sheet plate.

According to one embodiment, mutually aligned bores are formed on at least two projections and at least two positions of the side segment, through which in each case a threaded pin extending from a viewing screen passes to secure it.

The material of the screen can be adapted in shape, color and material used to the requirements of the environment and the aesthetic imagination. In a further embodiment, the aligned bores are provided on the projections and the side segment as part of a fastener with which two or more components can be interconnected and modularized.

On the sides of the sheet plate, which are transverse to the sides with the projections, the sheet plate can be bent at an angle> 0 ° and <180 ° upwards. By this Abbug the sheet plate is stabilized on the one hand. On the other hand, this turn also serves as a mounting base for suspension on a substructure.

A component according to the invention can preferably be produced by a method according to claim 12, which is advantageously developed in the claims 13 to 15.

Exemplary embodiments of the component according to the invention will be explained in more detail with reference to drawings. Show it:

Fig. 1 is a plan view of a blank for a sheet plate;

FIG. 2 shows a corner region of the blank of FIG. 1 on an enlarged scale; FIG.

FIG. 3 shows in perspective a sheet plate produced from the blank of FIG. 1; FIG.

Fig. 4 is a corner portion of the sheet plate of Figure 3 on an enlarged scale.

Fig. 5 in perspective a side segment;

Fig. 6 shows an end of the side segment of Fig. 5 on an enlarged scale;

7 shows in perspective a finished component before the attachment of screens;

FIG. 8 is a perspective view of a corner region of the component of FIG. 7 before the bending over of holding sections; FIG.

FIG. 9 shows the corner region of FIG. 8 after the retaining sections have been bent over; FIG.

FIG. 10 shows the corner region of FIG. 9 after attaching the screen in an enlarged scale; FIG.

Fig. IIa) to e) embodiments of the device;

Fig. 12a), b) cross sections of a folded transverse side of the sheet plate;

Fig. 13a) to g) embodiments of a folded transverse side in cross section.

The blank 1 shown in Fig. 1 and on an enlarged scale in Fig. 2 for the flexible sheet plate shown in Fig. 3 is formed by a punched part of sheet metal and comprises a rectangular, plate-shaped region 2 with two opposite longitudinal sides, of which in each case a plurality of spaced apart rectangular, tab-shaped projections 11 extend outwardly. The projections 11 extend at an angle of 90 ° to the respective longitudinal side of the plate-shaped region 2. The projections 11 have in the region facing away from the longitudinal side of the plate-shaped region 2 rectangular positioning slots 12. The positioning slots 12 are parallel to the longitudinal side of the plate-shaped portion 2. By punching the positioning slot 12 is formed on the plate-shaped portion facing edge of the positioning slot 12 a predetermined bending point 14 which forms one end of a holding portion 13 which extends to the free end of the projection 11th extends.

From some of the projections 11 extend on a longitudinal side of the projection 11 at an angle of 90 ° to the projection 11 projecting tabs 15. By a punch 16 in the transition region between the projection 11 and tab 15 creates a further predetermined bending point 19. Next, some of the projections 11 holes 17 on. For better clarity, FIGS. 1 and 2 show a plurality of dashed lines 18, 201 at which the blank 1 is folded in the course of production.

FIG. 3 and FIG. 4 show an arc plate 10 produced from the blank 1 by folding on the bending lines 18, 201 and the predetermined bending points 14, 19. The projections 11 follow the bending line 18 at an angle of 90 ° to the surface of the sheet plate 10 bent up. As can be seen in Fig. 1, the Abkantlinie 18 extends at a small distance to the longitudinal side of the plate-shaped portion 22, so that after bending a narrow web 3 between the projections 11 and the surface of the plate-shaped portion 2 extends over the entire longitudinal side , as shown in FIG. 4. The edge of the web 3 runs parallel to the sheet plate 10. The web 3 serves the stability of the sheet plate 10 and improves its visual appearance. The holding portions 13 in turn were again bent at an angle of 90 ° to the projections 11 around the predetermined bending point 14 and extend parallel to the surface of the sheet plate 10th

The tabs 15 for fixing a side segment 30 to the sheet plate 10 are bent around the predetermined bending point 19 and extend inwardly over the sheet plate 10. The edge portions 20 on the transverse sides of the sheet plate 10 are at an angle of 90 ° to Surface of the sheet plate 10 bent at a fold 201 of the sheet plate 10 upwards.

Fig. 5 and on an enlarged scale Fig. 6 show an elongated, curved side segment 30 of a stamped part made of sheet metal, which has an upper, convexly curved longitudinal edge 34 and a lower, concave longitudinal edge 35 which extend parallel to each other. From the upper longitudinal edge 34 extending positioning lugs 31 which are adapted in number, spacing and shape to the positioning slots 12 of the projections 11 and which engage in the production of the device in the positioning slots 12 of the sheet plate 10 positively. Furthermore, the side segments 30 openings 32, which are adapted in number, spacing and shape of the tabs 15 of the projections 11. Through the openings 32, the tabs 15 are felt in the manufacture of the device and hereby the sheet plate 10 fixed to the side segment 30. In addition, 30 holes 33 are formed on the side segment, which are aligned with the bores 17 of the projections 11. To attach a screen 40 goes through these holes 17, 33 a extending from the screen 40 threaded pin 41 therethrough.

From a finished punched and folded sheet plate 10, as shown in Fig. 3, and a longitudinally bending-stable side segment 30, as shown in Fig. 5, a concave curved component, as shown in Fig. 7, produce. For this purpose, the punched and folded sheet plate 10 is placed with the visible side on a flat surface. If the arcuate plate 10 has a perforation, an acoustic fleece or other acoustic insulating materials can already be fastened on the inside.

The longitudinally bending-stable side segment 30 is placed on the inside with the flat side in the sheet plate 10 until it rests against the edge 3 of the sheet plate 10 in a corner region of the sheet plate 10. The lower longitudinal edge 35 of the side segment 30 rests against the inside of the edge 3 of the sheet plate 10. In order to fix the side segment 30 in the longitudinal direction, the side segment is screwed in at an angle of 90 ° to the surface of the sheet plate 10 and now runs parallel to the projections 11, whereby the first, projecting at an angle of 90 ° to the projections 11 tab 15 through the Opening 32 of the side segment 30 is inserted. Now, the first positioning lugs 31 of the side segment 30 engage in the positioning slots 12 of the sheet plate 10. By bending the sheet te 10 now engage more positioning lugs 31 of the side segment 30 in the positioning slots 12 of the projections 11 and engage. As a result of further bending of the sheet plate 10, additional lugs 15 on the projections 11 fix the sheet plate 10 in the longitudinal direction to the side segment 30. As a result, the flexible sheet plate 10 assumes the shape of the flexurally stable side segment 30 and a curved component is formed.

Final fixing of the sheet plate 10 to the side segment 30 is achieved, as shown in Figs. 8 and 9, by bending the holding portions 13 about a predetermined bending line formed by the edge of the positioning slots 12 which is the free end of the holding portions 13 faces. The holding portions 13 are bent toward the surface of the sheet plates 10 and thus embrace the upper longitudinal edge of the side segment 30. The sheet plate 10 abuts against the lower longitudinal edge of the side segment 30.

Analogous to the insertion and fixing of the first side segment 30, a second side segment 30 can be inserted and fixed on the opposite edge of the sheet plate 10.

Further, Fig. 7 shows a concave curved component before mounting a screen 40. The screws 41 of the screen 40 are inserted through the aligned holes 17, 33 of the sheet plate 10 and the side segments 30 (see arrows in Fig. 7). A corner region of the finished component of FIG. 7 is shown in an enlarged scale in FIG. 10 after attaching the viewing bar. Here, the screen 40 is fixed by the threaded pins 41 on the inside with a nut 42 on the component.

In an embodiment which is not shown, a fastening element can be inserted through the bores 17, 33 of the arcuate plate 10 and the side segment 30 so that two or more structurally identical or even differently shaped components can be connected to one another and modularized.

Fig. 11 shows various embodiments of the device. So it may have convex or concave shapes (Fig. II a) and b)), be wavy (Fig ll c) and d)) or, one-sided bent or bent shape (Fig. 11 e)) , Other, not shown embodiments may have a planar shape or a curved shape only on one side of the Have component. This is achieved by the installation of two straight side segments 30 or a curved and, on the opposite side, a straight side segment 30.

Fig. 12a) and b) show by way of example two embodiments of the transverse side of the sheet plate 10 in cross section. The transverse side serves as a suspension device for a suspended on a ceiling component. The edge portions 20 on the transverse side of the sheet plate 10 are bent upwards at an acute angle (FIG. 12a) or at right angles (FIG. 12b) from the sheet plate 10 at the fold 201. At the edge portions closes by a further fold 211, a horizontal edge 21 and passes at the turn ends 221 in a vertical edge flange 22, whose free end edge 23 of the sheet plate 10 faces. As shown in FIGS. 8, 9 and 10, the edge portion 20 on the transverse side of the sheet plate 10 may be bent upward only perpendicularly from the sheet plate 10 at the bend 201, without further bending the transverse side.

Fig. 13a) to g) show by way of example further embodiments of the transverse side of the sheet plate 10 in cross section. Thus, the edge 21 can be removed from the sheet plate 10 by the Ankantung 201 (Fig. 13a), d) and f). As shown in Figs. 13e), 8, 9 and 10, the edge portion may only be bent upward or, as in Fig. 13g), may be formed by two folds.

Claims

EPAC-102625.1 claims

1. curved component with

a flexible sheet plate (10) having two opposite side edges, wherein a plurality of spaced-apart projections (11) extend upwardly from the sheet plate (10) at at least one of the side edges, and

at least one elongate side segment (30) having upper and lower curved longitudinal edges, the lower longitudinal edge facing the arch plate (10),

wherein the projections (11) each have a holding portion (13) extending inwardly at a distance from the sheet plate (10), in which the upper longitudinal edge of the side segment (30) engages positively, and a narrower between the projections (11) and the sheet plate Web (3) is provided, which extends from the sheet plate (10) upwards and in which pass over the projections (11).

2. The component according to claim 1, characterized in that the inwardly extending holding portion (13) engages around the upper longitudinal edge of the side segment (30).

3. The component according to claim 1 or 2, characterized in that in the holding portions (13) positioning slots (12) are formed in the positioning lugs (31) engage, extending from the upper longitudinal edge of the side segment (30) upwards.

4. The component according to one of the preceding claims, characterized in that a fixing device is provided which fixes the side segment (30) in its longitudinal direction on the sheet plate (10).

5. The component according to claim 4, characterized in that from one side of at least one projection (11) as fixing a tab (15) inwardly over the Arc plate (10) which passes through an opening formed in the side segment (30) opening (32).

6. The component according to one of the preceding claims, characterized in that the upper and the lower longitudinal edge of the side segment (30) parallel to each other, wherein the sheet plate (10) at the lower longitudinal edge and the holding portions (30) abut the upper longitudinal edge.

7. The component according to one of the preceding claims, characterized in that the sheet plate (10) is formed by a stamped part of sheet metal, wherein the projections (11) are formed by folding at an angle of 90 ° to the surface of the sheet plate (10) and the holding portions (13) extend at an angle of 90 ° to 135 ° to the projections (11).

8. The component according to one of the preceding claims, characterized in that the side segment (30) is formed flat.

9. The component according to claim 8, characterized in that the side segment (30) is formed by a stamped part made of sheet metal.

10. The component according to one of the preceding claims, characterized in that the arcuate plate (10) has a perforation and on top of the arcuate plate (10) a Akus- tikvlieseinlage is attached for sound insulation.

11. The component according to one of the preceding claims, characterized in that in at least two projections (11) and the side segment (30) aligned bores (17, 33) are formed by each one of a screen (40) extending threaded pin (41) passes through to its attachment.

12. A method for producing a curved component with the following steps:

Providing a flexible sheet plate (10) having two opposite side edges, wherein from the sheet plate (10) on at least one of the side edges a plurality of spaced projections (11) extend upwards and the Projections (11) each have a holding portion (13) extending inwardly at a distance from the sheet plate, and a narrow ridge (3) extending upwardly from the sheet plate (10) is provided between the projections (11) and the sheet plate; into which the projections pass, and

Mounting an elongate side segment (30) having upper and lower longitudinal curved edges such that the lower longitudinal edge faces the sheet plate (10), the side member (30) is fixed at at least two longitudinally spaced locations, and the positioning tabs (31) at the upper longitudinal edge of the side segment (30) engage in the positioning slots (12) of the projections (11).

13. The method according to claim 12, characterized in that the holding portions (13) engage around the upper longitudinal edge of the side segment (30) fitting.

14. The method according to claim 12 or 13, characterized in that a screen (40) with attached grub screws (41) is attached to the outside of the curved component.

15. The method according to claim 12 or 13, characterized in that the curved plate (10) of the curved component has a perforation and inside an acoustic fleece is attached.