DE8800567U1 - Support plate - Google Patents

Description

Patent attorneys Dipl.-.-Ing. R ¹ WuCkWaN ¹ N, Dipl.-Phys. Dr. K. Fincke

Dhpl.-Ing. F. A.Weickmann, Dipl.-Chem. B. Huber Dr.-Ing. H. Liska, Dipl.-Phys. Dr. J. Prechtel

8000 MUNICH 86

PO BOX »60 820 t 9, &udigr;&bgr;&Pgr;. 1988 MOHLSTRASSE 22

TELEPHONE (OH) M OJ 32

TELEX S22 621

TELEGRAM PATFNTWE1CKMANN MUNICH

Karl Moser
Ecknacherweg 4
8890 Aichach

Support plate

The invention relates to a support plate, in particular a support plate which cantilevers freely at least in some areas for a
Building consisting of a laminated wood panel and several longitudinally running and each
Straight ribs firmly connected to the plywood panel along their entire length.

It is known (German utility model 87 04 891) to use a plywood board as a scaffolding plank by
several parallel and over their
to stiffen the entire length of the laminated wood panel by straight ribs which are firmly connected to the laminated wood panel and which consist of laminated wood layered transversely to the direction of the laminated wood panel. A supporting panel of this type is essentially elongated and comparatively narrow and is mainly used for self-supporting structures if it is supported along its narrow sides.

The object of the invention is to create a support plate of comparatively low height, which can also be asymmetrical

can be supported mechanically and is particularly suitable for comparatively large, cantilevered supporting slabs in buildings, for example roof or ceiling slabs.

This object is achieved according to the invention in that the ribs in the plane of the laminated wood panel run diagonally towards each other in the direction of increasing bending stresses. The ribs therefore run approximately along the stress trajectories of the support panel in such a way that the rib density increases with increasing value of the stresses. In this way and due to the location-independent homogeneous laminated wood properties, very flat and widely (several meters) self-supporting support panels, for example for roofing or the like, can be produced without additional support by binders or the like.

In a preferred embodiment, the ribs running at an angle to one another are enclosed between two plywood panels that are parallel to one another and are firmly connected to both plywood panels over their entire length. Support panels of this type are extremely load-bearing.

In a support plate of the type in question, stresses occur not only in the longitudinal direction of the ribs, but also transversely thereto, for example due to shearing of the plate. In order to improve the transverse force absorption capacity of the ribs, at least some of the ribs expediently have a layer structure in which the number of layers with a fiber direction running transversely, in particular perpendicularly to the laminated wood plate, increases in the direction of increasing transverse forces. These transverse layers are preferably arranged symmetrically in the layer structure of the rib, whereby the rib, viewed in its longitudinal direction, consists of several laminated wood sections, each with

can be assembled in different structures. For example, the rib sections can be firmly connected to one another by wedge joints in the longitudinal direction.

The weight of the support plate can be reduced considerably if at least some of the adjacent ribs that run at an angle to one another have front ends that are offset from one another in the longitudinal direction. In this way, the rib density can be better adapted to the local bending stress distribution. By offsetting the front ends of the ribs in the longitudinal direction of the ribs, cross connections are also created between the chambers separated by adjacent ribs, which improves the ventilation of the support plate. A further improvement in ventilation is achieved if at least some of the ribs end at a distance from the edge of the plywood panels.

The comparatively large dimensions that can be achieved for the support plate often mean that the support plate can only be prefabricated to a limited extent. The laminated wood panels are therefore made up of several individual panels that are firmly connected to one another along their length and are only connected to the ribs at the location where the support plate is installed. The ribs can therefore extend in one piece over the edges of the individual panels, which considerably increases the strength of the support plate. The individual panels can be connected to one another using tongue and groove connections or overlapping strips to ensure shear and tension resistance. The ribs can be glued to the laminated wood panels in a butt-joint manner, although longitudinal rib-groove connections can also be provided in the case of prefabrication. If adhesive is used, it is best to use a partially elastic adhesive that absorbs expansion of the ribs and laminated wood panels.

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relative to each other to a certain extent. Partially elastic polyurethane adhesives or elastic epoxy resin adhesives are suitable.

The ribs can also be connected by nails or

screw connections with the plywood panels. However, with double-shell support panels there is the problem that the ribs to be nailed are covered by the plywood panel above. To determine the course of the hidden rib, metal foils or longitudinal metal wires can be attached to at least some of the long side surfaces of the rib, which can be detected through the plywood panel using a conventional metal detector .

that can. *

In the following, an embodiment of the invention _;j is explained in more detail with reference to a drawing. t

This shows: Fig. 1 is a side view of a cantilevered over- &iacgr;

roofing as part of a building; I

Fig. 2 a partially broken top view of the 5 roof and

Fig. 3 is a sectional view through the roof, seen along a line IH-IlI in Fig. 2. |

The large-area roofing shown in Figs. 1 and 2, for example of a petrol station, comprises a substantially rectangular support plate 1, which is mounted along one side edge on a supporting wall 3 and at a distance from the

Load-bearing wall 3 is supported on a single column 5. The support plate 1 projects freely over the column 5.

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-δ-The support plate 1 consists of two parallel laminated wood panels 7, 9, which enclose a large number of straight ribs 11 between them. Each of the ribs 11 consists of laminated wood layered transversely to the layering direction of the laminated wood panels 7, 9, the fibers of which extend in the longitudinal direction of the ribs 11 in the majority of the layers, preferably in all layers. The ribs 11 are each firmly connected to the two laminated wood panels 7, 9 over their entire length, in particular glued to one another with a partially elastic adhesive. As Fig. 2 shows, the ribs 11 run essentially radially to the support point of the column 5, at which the bending stresses occurring in the support plate 1 are at a maximum due to the overhanging areas of the support plate 1. The ribs 11 approach each other in the direction of the bending stress maximum, so that the rib density increases towards the bending stress maximum. The ribs 11 run approximately on bending stress trajectories. Some of the ribs extend into the support area of the column 5. Another part of the ribs end offset in the longitudinal direction against the front ends of the aforementioned ribs in order to prevent the rib density from becoming unnecessarily high for weight reasons. The ribs 11 ending offset against each other also leave open transverse paths between the chambers enclosed by adjacent ribs 11, which allow sufficient air circulation between the two laminated wood panels 7, 9. In order to better absorb transverse forces of the support plate 1, which can occur between its supports on the supporting wall 3 and the column 5, for example, at least some of the ribs can be composed of several sections 11a, 11b, lic in the longitudinal direction, for example by means of wedge connections. The sections 11a, lib and Hc have a layer structure, in which the number of layers arranged symmetrically in the layer structure with perpendicular to the plywood

plates 7, 9 increasing in the direction of increasing transverse forces. In the example in Figure 2, the two outer sections 11a, 11c have a larger number of layers with transverse fiber direction than the middle section 11b.

Due to their size, the plywood panels 7, 9 are each made up of several individual panels 13, which, as shown in Fig. 3, are firmly connected to one another along abutting edges by a tongue and groove connection 15. The connection of the individual panels 13 takes place at the construction site, where the ribs 11 are also attached to the plywood panels 7, 9. The ribs 11 can therefore extend over the edges of the individual panels 13 in one piece.

In order to increase the final position of the connection of the ribs 11 to the laminated wood panels 7, 9 and/or to achieve the pressure required for gluing, the ribs 11 are additionally nailed or screwed through the laminated wood panels 7, 9, as indicated at 17 in Fig. 3. The course of the ribs 11 hidden by the laminated wood panels 7, 9 can be easily determined from outside the support plate 1 using a metal detector if the longitudinal surfaces of the ribs 11 to be nailed carry a metal wire 19 or metal foils or the like.

Claims (12)

.Protection claims 1. Support plate, in particular a support plate for a building that cantilevers freely at least in some areas, consisting of a laminated wood plate (7, 9) and several straight ribs (11) running along the laminated wood plate (7, 9) and each firmly connected to the laminated wood plate (7, 9) over its entire length, made of laminated wood transversely to the layering direction of the laminated wood plate (7, 9) cem laminated wood, characterized in that at least some of the ribs (11) in the plane of the laminated wood panel (7, 9) run obliquely towards one another in the direction of increasing bending stresses. 2. Support plate according to claim 1, characterized in that at least some of the adjacent ribs (11) running obliquely towards one another have front ends offset from one another in the longitudinal direction. 3. Support plate according to claim 2, characterized in that between two ribs (11) running obliquely towards each other, at least one rib (11) is provided, which ends at a distance in front of the point of the narrowest gap between the two ribs (11) running towards each other. 4. Support plate according to claim 3 or 4, characterized in that between two obliquely aligned running ribs (11) at least one rib (11) is provided which projects beyond the point of the widest gap between the two ribs (11) running obliquely towards each other. 5. Support plate according to at least one of claims 1 to 4, characterized in that at least some of the ribs (11) have a layered structure in which the number of layers with a fiber direction running transversely, in particular perpendicularly to the laminated wood panel (9) increases in the direction of increasing transverse forces. 6. Support plate according to at least one of claims 1 to 5, characterized in that the ribs (11) between the laminated wood panel (7) and a further laminated wood panel parallel thereto, firmly connected to all ribs (11) over their entire length (9) are included. 7. Support plate according to claim 6, characterized in that at least some of the ribs (11) end freely within the laminated wood panels (7, 9) at a distance from the edge of the latter. 8« Support plate according to at least one of claims 1 to 7, characterized in that the fiber direction of the majority of the layers of each rib (11) runs in their longitudinal direction. 9. Support plate according to at least one of claims 1 to 8, characterized in that the laminated wood panels (7, 9) consist of several longitudinally abutting edges for Jich firmly connected individual panels (13). 10. Support plate according to claim 9, characterized in that at least some of the ribs (11) extend in one piece over adjacent individual plates (13). 11. Support plate according to claim 9 or 10, characterized in that along the laminated wood plate (7, • I 1 y) adjacent longitudinal side surfaces of the ribs (11) have metal foils or longitudinally extending metal wires (17) attached at least in sections. 5 12. Support plate according to at least one of claims 1 to 11, characterized in that the ribs (11) are attached to the plywood plate (7, 9) with an at least partially elastic adhesive.