DE4221752A1 - Building plate with at least two spaced parallel plate-shaped components connected to one another - has at least one component provided with apertures open to other component and arranged in predetermined grid - Google Patents

Abstract

The connections between the plates (13) are provided in the area of the apertures (14) and are joined to one another via the two plate-shaped components. They are tubular in cross-section. They have an area which is parallel to the plate-shaped components. The floor of the opening (14) is formed by a separate floor component for connecting to at least one plate-shaped component (11,12). It is integral with the plate-shaped component (11,12), in the surface of which the opening (14) is formed. The opening is circular or multi-cornered and the building plate is made of steel. The connections are also made of steel. The connection between the plate-shaped components and each connecting member is made by spot-welding or adhesion. USE/ADVANTAGE - A building plate which overcomes the problem with known plates which are only stable in one direction.

Description

The invention relates to a building board, comprising little at least two spaced apart substantially parallel stood plate-shaped elements over a verb means are interconnected.

There are various building boards of this type knows, for example a further development of classic corrugated iron building board a trapezoid in cross section shaped profile that alternately on one plate-shaped element and on the other plate-shaped element forms its trapezoidal base. Just like that Classic corrugated sheets also show this in cross-section trapezoidal profiled building board has the disadvantage that it is stable in only one direction, i.e. H. Loads only be derived in one direction towards supports  can. As a result, lines, pipes and cables can also be used etc., which in itself in a construction project in which the be known building board is used, transverse to the web direction should run, only above or below this Building board are laid, if not a constant through drilling of all bars should be avoided, which also increases the Stability of the building board in a variety of holes would significantly reduce conditions.

In the vast majority of cases it is with the use of the known building board necessary in both axial directions Level the forces acting on the building board to the to derive local supports there in order to cost additional playful, usually time-consuming to implement Avoid supporting structures. For this purpose an attempt was made to use building boards according to the initially mentioned construction board from essentially paral lel spaced plate-shaped elements consist of a foam core between them point, the foam core with the respective against overlying surfaces of both plate-shaped elements connected is. This foam core forms one Shear bond between the plate-shaped elements, the stiffness (load bearing) of such known building board from a complete filling of the Core with foam and the connection of the foam depends on the plate-shaped elements.

These known building boards also have an essential one Disadvantage, which is partly due to the fact that the Positive connection of such a connection between Foam and the two plate-shaped elements is often not sufficient to get a sufficient amount ability to achieve and that in addition such Ver bonds depending on the used  Foam material is only temperature-resistant to a limited extent are, d. H. such a building board loses at be temperatures matched their stiffness. On top of that Lines, pipes and cables etc. practically not inside half of the core can be laid out of foam, what this well-known building board unsuitable for many purposes power.

Finally, there are still building boards known between two substantially parallel spaced plates elements orthogonal to the plate planes fende, honeycomb-like structures in cross section (Sandwich plates), which are just like the ones before written building boards no laying of cables, Pipes, cables, etc. between the plate-shaped ele elements in no direction because of the sandwich core of these plates in all directions parallel to the through the plate-shaped elements formed plane impermeable is casual.

The object of the present invention is a building board to create, which are used as a load-bearing element can, so that separate structures are unnecessary are the laying of lines, pipes and the like. allowed between the plate-shaped elements that load initiation and load derivation in both Main axis directions of a plane allowed, which is possible allowed closed panel element area, and which with compared to additional separate support construction provided a significantly min has the greatest weight and is simply rational and can be produced inexpensively.

The object is achieved according to the invention in that at least one plate-shaped element in one  predetermined grid with the other plate-shaped Element open openings is provided, the Connection means provided in the area of the openings are over the two plate-shaped elements force are conclusively connected.

The advantage of the building board according to the invention lies in essential that lines, pipes, cables, etc. completely problem-free between the plate-shaped elements ver without special measures such as drilling, punching, etc. can be placed, d. H. a weakening of bearing Elements of the building board, unlike the above be written building boards with a trapezoidal cross-section, is not necessary. Furthermore, the frictional connection allows sige connection of the two plate-shaped elements with each other that forces introduced into the two main forwarded in one plane and into the appropriate supports can be directed to de NEN the building board rests, so that on separate support constructions can be completely dispensed with. Before some maximizing the inertia mo weight savings by minimizing the ver binding agent reached. The number of openings per Area can be chosen such that on the one hand Optimal on closed surfaces of the plate-shaped Elements is achieved and on the other hand an optimum non-positive connection between the two plates shaped elements with simultaneously optimized, ge light weight. Covering structures covering the openings cover, can therefore also on simple cover means be limited without total load absorption ability of the building board through the additional cover medium is in turn restricted.  

According to an advantageous embodiment of the invention is the connecting means through a cross-section tube shaped element that is industrially a semi-finished product is available and a rational production of Building board allowed. However, it should be noted that the lanyard in no way necessarily full circumferential tubular member must be. A lot for many cases it is sufficient that the cross cut only a partial pipe is used (U-profile).

In a further advantageous embodiment of the construction plate, the connecting means has at least one loading rich, which is essentially parallel to the plate shaped element is formed. Such a trained Detes connecting means has the advantage that in the Production of the building board before the actual execution union between the lanyard and the both plate-shaped elements have a certain stability can be achieved and beyond flat support of the lanyard areas on the plate-shaped elements connect large areas and thus possibly more stable can.

In yet another preferred embodiment of the Building board has at least one plate-shaped element one at least partially in the area of the opening standing in, on the other plate-shaped Element facing area, with this Design through the actual lanyard this area of the plate-shaped elements is formed without a separate part is provided as a connecting means must be able to be connected.  

Especially in the case of the issue described above Design of the building board can be used for certain purposes where prevents a connection through the opening must be d. H. a flat closed building board is needed to be advantageous that the bottom of the public by one with at least one plate-shaped Element to be connected separate Gebil det, which is a separate part of the execution the connection between connecting means and plates shaped elements itself is connected.

However, the bottom of the opening is advantageously in formed tegrally with the plate-shaped element, in the surface of which the opening is formed, d. H. the Bottom can be at least one by deep drawing plate-shaped element are formed, with this configuration is achieved on the one hand that both plate-like elements form closed surfaces and on the other hand, separate floor elements are not featured need to be seen.

The openings are advantageous for all of the above In principle, designs of the building board are arbitrary suitably trained in the form. Preferably, the However, openings are circular, but it can also openings with regular and / or irregular n-angular configurations may be provided, the Shape of the openings to the respective application Building board can be adjusted.

The building board, d. H. the plate-shaped elements be preferably consist essentially of a metal Mix material, this material preferably Is steel and / or aluminum.  

The connecting means preferably also exist made of metallic material, for example steel and / or aluminum.

In principle, however, the building board, i. H. the plate-shaped elements on the one hand and the connection medium on the other hand made of plastic, also Constructions are conceivable that a plate-shaped Element made of a metallic material and another plate-shaped element made of plastic.

In one configuration of the building board, in which both at least one plate-shaped element as well as the ver binders consist of one material, it is partial, the connection between this plate-shaped Element and the connecting means by welding deliver, although in many cases it is sufficient the weld preferably in the form of a spot weld ure, with which a highly automated, ratio nelle manufacturing is possible.

In a further embodiment of the building board it is finally advantageous, the connection between the plate-shaped elements and the connecting means form by gluing, the execution of Ver binding by gluing has the advantage that a same choice of materials as when running a Connection by means of welding is not necessary is required so that the choice of the material of the one plate-shaped element, the other plate-shaped element and the connecting means adapted to the intended use of the building board can be.  

The invention will now be described with reference to the following schematic drawings based on several Aus management examples described in detail. In it show:

Fig. 1 is a structural panel in plan view in the form of voltage cross-section of a Bauplattenausschnitts with a plurality of plate-shaped elements formed in the openings having an approximately square Publ,

Fig. 2a in side view in an enlarged scale a section through a basic version of the construction plate in the area of an opening with rohrförmi according connecting means,

Figs directed angled or bent inwards. 2b shows an embodiment according to Fig. 2a, but in which extending around the openings areas of the plate-shaped elements,

Fig. 3 is a view like Fig. 2, but with a Ver binding agent that has areas that are substantially parallel to the plate-shaped elements.

Fig. 4 is a view like Fig. 3, however, binding agent with appropriate oppositely formed areas of Ver,

Figure 5 is a side view on an enlarged scale will. In section through the building panel in the region of an opening in which the tubular connection medium by formed in the region of the opening towards einstehende areas of the plate-shaped element and a given if therebetween settable floor element,

FIG. 6a is a view like Fig. 5, but without geson engineered floor element in each overlapping regions of the plate-shaped elements in the loading area of the opening,

Fig. 6b shows a configuration as in Fig. 6a, but with a trained only on one side of an opening tab-like portion of the plate-shaped member,

Fig. 7 medium in a side view on an enlarged scale a section through the building panel in the area of an opening with a tubular connection, wherein the plate-shaped elements the tubular connecting means partially close into the opening projecting portions,

Fig. 8a is a side view of another Ausfüh approximate shape of the building board on an enlarged scale in section through the building board in the region of an opening in which the bottom of the opening is formed integrally with the plate-shaped element, immediately before the connection is made two plate-shaped elements, and

Fig. 8b shows an embodiment as in Fig. 8a Darge, in which the two opening bottoms of both plate-shaped elements are connected to each other.

The structure of the building board 10 is first described with reference to the illustration of FIGS. 1 and 2a, which make the building board principle clear.

The building board 10 consists essentially of two substantially parallel spaced plate-shaped elements 11 , 12th Here, in a predeterminable grid, both plate-shaped elements 11 , 12 have a plurality of openings 14 , the grid of the openings 14 basically being able to be chosen as desired. Between the two plate-shaped elements 11 , 12 , a cross-sectional tubular connecting means 13 is provided, which is aligned here with respect to its connecting means axis and thus essentially with respect to its tube walls orthogonally to the plate-shaped elements 11 , 12 . However, the orthogonal alignment of the connecting center axis 20 to the plate-shaped elements 11 , 12 is in no way mandatory for all possible configurations of the building board 10 . Immediately in the opening area 16 of the plate-shaped elements 11 , 12 , the connecting means 13 is connected to the plate-shaped elements 11 , 12 , for example by means of welding, gluing and the like. The welding can be carried out in the form of a weld around the opening area, but it is also possible to provide the weld in the form of spot welds at a predetermined distance around the opening. In the embodiment shown in FIG. 2 b, the areas of the plate-shaped elements 11 , 12 which run around the openings 14 are at an angle, for example in the range of approximately 135 °, inwards, ie in the between the plate-shaped elements 11 , 12 formed room. Instead of an angle, they can also be bent in the form of part circles.

In the case of in Figs. 3 and 4 of the structural panel Ausgestaltun gen 10 is medium with flange areas 15 provided the tubular connection, which are formed substantially parallel to the plate-shaped elements 11, 12. It is possible, as indicated, that welding and / or adhesive seams are again provided in the opening area 16 between the connecting means 13 and the plate-shaped elements 11 , 12 , but it is also possible instead of welding and / or gluing in these areas to connect flange-like areas 15 directly in the area of their contact to the plate-shaped elements 11 , 12 by means of welding and / or gluing.

In the embodiment shown in Figs. 5, 6a and 6b exporting the building board approximately form 10, the two plattenför-shaped elements 11, 12 with at least partially into projecting into the region 16 of the opening 14 on each of the other plate-like element 11, 12 directed towards areas 17 provided. When in Figs. 5 and 6a is provided embodiments of the structural panel 10, the regions 17 are formed circumferentially around the opening 14, 13 that is the connecting means in the form of a tube-shaped in cross-section element of the plattenför by projecting into the hole 14 regions 17 Migen element itself formed, that is, no special connection means 13 ge is required. In the embodiment of the building board 10 shown in FIG. 6a, a weld and / or adhesive connection is provided directly in the area of the overlapping regions 17 of the two plate-shaped elements 11 , 12 , which applies equally to the embodiment of the building board 10 according to FIG. 6b. The embodiments according to FIGS. 6a and 6b differ only in that in the embodiment according to FIG. 6b, provided that, for example, the cross section of the opening 14 has been chosen quadra, three sides of the opening are separated by a suitably selected punching, while the non-separate side of the square in a plate-shaped element 11 , based on the representation 6 b, is folded down and the corresponding region 17 of the other plate-shaped element 12 is folded up and then, as in the embodiment of FIG. 6 a, by Bonding and / or welding are connected.

The embodiments of FIG. 5 and FIG. 6 a construction plate 10 differ from each other in that as shown in FIG. 5 can be formed in the opening 14, a bottom 18 by a separate bottom member 19, currency rend in the embodiment of the building panel 10 according to Fig. 6 a no separate floor is provided. But it is also possible to form the embodiment according to FIG. 5 without Bo denelement 19 .

The embodiment of the building board 10 according to FIG. 7 represents a further different embodiment of the building board 10 , in which namely the basic version of the building board 10 according to FIG. 2 is also provided with the regions 17 of the plate-shaped elements standing into the opening 14 , such as they have been described in connection with the execution forms according to FIGS. 5, 6 a and b. The tubular connecting means 13 essentially corresponds to the tubular connecting means 13 according to FIG. 2. The areas 17 protruding into the opening 14 additionally stiffen the building board 10 .

The embodiment of FIG. 8a of the building board 10 is designed such that the bottom 18 of the opening 14 is formed integrally with the plate-shaped element 11 , 12 , in the surface of which the opening is formed. In cross section, both plate-shaped elements are thus meandering. This embodiment of the building board 10 has the advantage that it is achieved in a simple manner that the surfaces of the plate-shaped elements 11 , 12 are absolutely closed, so that such a building board 10 is also suitable for construction purposes in which there is an absolute separation between the plane of one plate-shaped element 11 and the other plate-shaped element 12 arrives. The openings 14 can be formed, for example, in a deep-drawing process of the plate-shaped elements 11 , 12 , the side walls of the thus formed connection integral with the plate-shaped elements 11 , 12 being formed automatically by means of 13 during the deep-drawing process. In Fig. 8a, the plate-shaped elements 11 , 12 are shown as they come to lie with each other shortly before the non-positive connection is formed. The triangles in the opening base 18 and the adjoining other plate-shaped element 11 , 12 are intended to indicate that the connection by welding and / or gluing is to take place subsequently.

The embodiment of FIG. 8b differs from that of FIG. 8a only in that when opening the connection of the two plate-shaped elements 11, 12 their opening bottoms 18 lie one on top of the other.

It should be noted that the building board 10 can basically consist of any suitable metallic and non-metallic material, the metal is preferably steel and / or aluminum, which applies equally to the connecting means 13 . The connection between the plate-shaped elements 11 , 12 and the connecting means 13 is preferably carried out by welding, for example by spot welding. As already mentioned above, it is also possible without further res, the connection between the plate-shaped elements 11 , 12 and the connecting means 13 Form gluing, combinations of gluing and welding are also readily possible, depending on the material used for the plate-shaped elements 11 , 12 or the connection by means of 13 . It should be noted that a construction plate 10 is possible, in which the one plate-shaped element 11 , 12 made of a metallic material, the other plate-shaped element 11 , 12 consists of a non-metallic material and optionally and in combination with each other to use both metallic and non-metallic connecting elements 13 in a building board 10 .

Reference list

10 building boards
11 plate-shaped element
12 plate-shaped element
13 lanyards
14 opening
15 lanyard area
16 opening area
17 plate element area
18 opening base
19 floor element
20 connecting axis

Claims (15)

1. Building board comprising at least two substantially parallel spaced plate-shaped elements which are connected to one another via a connecting means, characterized in that at least one plate-shaped element ( 11 , 12 ) in a predetermined grid with the other plate-shaped element ( 11 , 12 ) is provided towards open openings ( 14 ), the connecting means ( 13 ) being seen in the region of the openings ( 14 ) via which the two plate-shaped elements ( 11 , 12 ) are non-positively connected to one another. 2. Building board according to claim 1, characterized in that the connecting means ( 13 ) is formed by a tubular element in cross section. 3. Building board according to one or both of claims 1 or 2, characterized in that the connecting means ( 13 ) has at least one region ( 15 ) which is substantially parallel to the plate-shaped elements ( 11 , 12 ). 4. Building board according to one or more of claims 1 to 3, characterized in that at least one plat ten-shaped element ( 11 , 12 ) an at least partially in the areas ( 16 ) of the opening ( 14 ) protruding, each on the other plate-shaped element ( 11 , 12 ) facing region ( 17 ). 5. Building board according to one or more of claims 1 to 4, characterized in that the bottom ( 18 ) of the opening ( 14 ) by at least one plate-shaped element ( 11 , 12 ) to be connected separate Bo denelement ( 19 ) is formed . 6. Building board according to one or more of claims 1 to 4, characterized in that the bottom ( 18 ) of the opening ( 14 ) is integrally formed with the plate-shaped element ( 11 , 12 ), in the surface of which the opening ( 14 ) is formed . 7. Building board according to one or more of claims 1 to 6, characterized in that the opening ( 14 ) is circular. 8. Building board according to one or more of claims 1 to 7, characterized in that the opening ( 14 ) is n-shaped. 9. Building board according to one or more of claims 1 to 8, characterized in that they are made of metal material. 10. Building board according to claim 9, characterized in that the material is steel. 11. Building board according to one or more of claims 1 to 10, characterized in that the Verbindungsmit tel ( 13 ) consists of metallic material. 12. Building board according to claim 11, characterized in that the material is steel. 13. Building board according to one or more of claims 1 to 12, characterized in that the connection between the plate-shaped elements ( 11 , 12 ) and the connecting means ( 13 ) is carried out by welding. 14. Building board according to claim 13, characterized in that the weld is a spot weld. 15. Building board according to one or more of claims 1 to 14, characterized in that the connection between the plate-shaped elements ( 11 , 12 ) and the connecting means ( 13 ) is carried out by gluing.