DE4336242A1 - Component for the production of reinforced concrete ceilings - Google Patents

Description

The invention relates to a component for the production of Reinforced concrete ceilings or reinforced concrete walls, with a base plate, one reinforcement assigned to the base plate and one die Reinforcement connecting to the base plate, on the base plate fixed spacers.

Components of the type in question have been around for quite some time known from practice. From EP 0 164 330 B1 is already a Prefabricated formwork element for the production of reinforced concrete known cover, which essentially consists of a building board with Be defense exists. The steel lattice girders of the reinforcement are from constructively complex holders worn. The holders are mushroom formed in a shape and non-positively connected to the building board the. These holders are made of longitudinal or tension rods seized. Two essentially parallel to each other For this purpose, pulling rods are placed on the "mushroom heads" of the holder placed and rest behind the press force after Mushroom head. In this way it becomes an inseparable connection between the reinforcement and the brackets.

The disadvantage of this formwork element is that with high ferti complex construction of the holder. With the high manufacturing costs also increase the cost of the Scha lungselements or the ceiling to be manufactured overall. There obviously, the labor intensity is also complex Manufacturing effort of the known formwork element itself. First of all, it is necessary to keep the holder in the correct position stood on the building board, then with the Screw the base plate in order to then mount the reinforcement Ren. Consequently, several operations are required to complete one produce known formwork element. Connected with it also a significant amount of time, which in turn costs elevated.

The invention is therefore based on the object of a component for the production of reinforced concrete ceilings or, if necessary, reinforced concrete walls specify where a quick and easy assembly of the Be reinforcement on a base plate with simple technical means is possible.

The component according to the invention is characterized by the features of Pa labeled claim 1. After that that's in question Component formed such that the spacer in is a integral part of the reinforcement.

According to the invention it has been recognized that a simple and time-saving installation of the reinforcement on the base plate is possible if the number of individual parts of the component is reduced. It has also been recognized that a reduction the individual parts of the component can be done when on a separate spacer is dispensed with. Finally is recognized that a separate spacer is then no longer necessary Lich if this spacer is an integral part of the Reinforcement is.

The component according to the invention has the enormous advantage that a production line for the production of the spacer ters as a single part completely. There is also no time elaborate operation of positioning any Ab stand on the base plate before installing the reinforcement can be done.

In order to achieve a high stiffening effect, the movement includes tion at least one lattice girder. For a preferred exit is due to the lattice structure of the Carrier advantageously part of the lattice girder as Ab stand trained. A spatial grid is preferred  Carrier used, the statically stable on the base plate is feasible.

The lattice girder can now be designed in different ways his. For example, two grating strips in the sense of one V profile can be connected. Other types of profiles would be conceivable like U or X profiles. With regard to a statically special stable design of the lattice girder, it is useful if the opening areas of the lattice girders to the base plate Clues.

The distance is an integral part of the lattice girder holder in a further advantageous manner by extensions Licher retaining webs of the lattice girder formed. Through its Accordingly, the lattice girder itself serves as extensions Spacers.

With a view to high stability and good accessibility the spacers or the extensions are opposite the lateral support bars of the lattice girder from the outside angled. The retaining webs of the lattice girder could be one Be subjected to bending. The outside angle between the lateral holding bars and the extensions expediently notably an amount that is a requirement of the free ends the extensions on the baseplate allows for there an attachment can be made. For lattice girders, which in cross-section has a substantially V-shaped profile point and open their retaining webs towards the base plate, points the outside angle between the retaining web and the spacer or An amount between 90 ° and 180 °. An angle of approximately 150 ° is preferred, since a larger angle for less accessible positioning of the free end the spacer or the extension leads and by a Angle with a smaller amount to a larger bending moment  the extension would occur. It will also take into account on filling the fresh concrete as far as possible prefers if mainly the free ends of the extensions contact the base plate. An external winch tending to 90 ° kel would lead to an unnecessarily large contact area between lead extension and base plate.

With a view to the complete concreting of the building the angled extensions should be enough distance of at least 30 mm between the lateral support bars of the lattice girder and the base plate establish.

In the manner according to the invention, the spacers or the extensions and thus the lattice girders or reinforce the reinforcement in one operation on the base plate increases. In view of low manufacturing costs of the individual Parts of the component are preferably attached non-positive. For example, cramps are used as fasteners used, the only quick, simple parentheses require gears. Alternatively, however, depending on the training spacers or extensions - screwed or riveted. Depending on whether a "lost" formwork or a recyclable formwork is to be used, becomes an inseparable or detachable connection between the reason plate and the extensions acting as spacers manufactured.

A particularly preferred embodiment of one by the extension wrestled also act as a spacer lattice girder provides for the lattice girder to be equipped with tension rods which Represent main reinforcement of the component according to the invention. So that the tension rods come into effect in the tension zone them above that through the extensions of the lattice girder  specified distance arranged. With a lattice girder with egg a V-shaped profile that opens towards the base plate th lower tie rods the angled area between the lateral retaining bars and the extensions can be assigned. An upper tension rod in a zone of increased traction supply could advantageously be the top of the lattice girder form. The tension rods and the lattice girder are more appropriate wise insoluble and non-positive, preferably by sweat eat, connected.

In addition to the reinforcement of the base plate with the tension rods facing lattice girders could be provided additional reinforcement his. This additional reinforcement could be used to achieve unity Liche load bearing cross bars. The additional reinforcement could consist of individual structural steel rods or as Cross and longitudinal bars existing steel mat in the sense of a git ters are used and, for example, using special spacers be attached to the base plate.

In the component according to the invention, however, can be advantageous Way on a separate attachment of the special distance bracket and the additional reinforcement itself can be dispensed with if the steel mat or the grid below the tension rods of the git Terträger is arranged and the extensions of the lattice girder overlap at least one member of the additional reinforcement. With the attachment of the lattice girder on the base plate is there by simultaneously defining the steel mat or the grid. Accordingly, the steel mat or the grid with the special Spacers are only placed on the base plate, forms a kind of through its grid-like division Template for supporting the lattice girder and is also used in inventive way, by attaching the lattice girder attached with the extensions. So he allows that Component according to the invention not only simple attachment  the spacer and the reinforcement in one operation, son also the assembly or fastening of the spacer and thus also the reinforcement and the additional reinforcement in one single operation.

With a view to achieving high joint rigidity could the additional reinforcement or parts of the reinforcement over protrude the base plate. From several according to the invention Components can be made from both ceilings and walls the. It is special in terms of minimizing construction time ders advantageous to prefabricate the components so that they di can be installed directly on the construction site.

In terms of a reduction in interior work, it is Particularly cheap if the base plate is lost formwork remains in the building. This way you can directly the walls or the ceilings are designed without an interior plaster is necessary. In this context it is particularly advantageous to fer the base plate made of wood material term. E.g. come polyurea-bound wood-based panels that are biologically harmless and also recyclable are clippable. Furthermore, the use of wood wool would be ment plates or plastic plates conceivable.

According to a further embodiment, two he could components according to the invention with their reinforced surfaces stands to be opposite. The lattice girders could be designed as connectors. When exactly on top of each other lattice girders that meet could, for example, snap-in devices be provided. The lattice girders of the opposite reason but plates could also be assigned in such a way offset, that the respective protruding end of a lattice girder in each case strikes the opposite base plate and from which Lattice girder side of the base plate, quasi from the outside  forth, is definable. The protruding end of the trellis gers could now be provided with a flat element, in that can interfere with screws or other fasteners. For this purpose, the flat elements or the contact surfaces of the be pre-drilled as a lattice girder acting as a connector. For screwing could preferably self-tapping Screws are used that are effortless through the chip turn the plates. With regard to when filling in Concrete is created in the space between the base plates the pressure is advantageous, the connections are very stable respectively.

There are now several ways to teach the present the present invention in an advantageous manner and white to train. For this purpose, on the one hand, to claim 1 subordinate claims, on the other hand to the subsequent Er purification of an embodiment of the invention based on the Reference drawing. In connection with the explanation of the Drawing are also generally preferred configurations and further training in teaching explained. In the drawing shows

Fig. 1 is a front view of a section of a Ausfüh approximately example of the device according to the invention and

Fig. 2 is a side view of the section of FIG. 1 with egg ner additional reinforcement.

Figs. 1 and 2 show an embodiment of a device OF INVENTION to the invention 1, which can be used both for the production of reinforced concrete slabs as well as for the production of reinforced concrete walls. The component 1 has a base plate 2 , which is assigned a reinforcement 3 on one side, which is fixed on the base plate 2 via a spacer 4 . The reinforcement 3 comprises a lattice girder 5 . By a lattice support 5 associated extension, the spacer 4 is realized at a defined distance from the base plate 2 . The extension therefore acts as a spacer 4 and is an integral part of the lattice girder 5 .

As can be seen from FIG. 1, the lattice girder 5 is designed as a spatial lattice girder in this exemplary embodiment. For this purpose, two flat grating strips are connected to one another in such a way that a substantially V-shaped lattice girder profile is formed. The lattice girder 4 has lateral retaining webs 6 , to which the spacers 4 or the extensions are connected by being angled outwards. Of the retaining elements 6 and the spacers 4 and the extensions in the outwardly facing region of the truss 5 outer angle formed α is dimensioned such that the free ends of the Ab spacers 4 or the extensions rest on the base plate. 2 The embodiment described here, in which the retaining webs 6 of the spatial grid 3 open V-shaped to the base plate 2 , requires an outside angle α with an amount that is substantially greater than 90 °, but less than 180 °. The extensions acting as spacers 4 ensure that the construction elements can be evenly filled with fresh concrete.

From Figs. 1 and 2 it can be seen that the spacers 4 or the extension of the lattice girder 5 are positively connected to the base plate 2. In this exemplary embodiment, staples 7 are used as fastening means. Due to the angled course of the spacer 4 or the exten tion, its or its free end is easily accessible. In addition, the actuation of a shooting device for cramps requires little time. The substantially U-shaped cramps 7 penetrate with their sharpened legs into the base plate 2, which is made of wood-based material, and, as shown in broken lines in FIG. 1, are advantageously spread apart during the shooting in or during the progressive penetration into the base plate 2 , so that a secure, essentially non-detachable, that is to say releasable only with very high expenditure of force, connection is established.

To absorb tensile forces, generally known tensile or longitudinal rods 8 , 9 and 10 are provided, which are arranged in a special way on the lattice girder 5 . From Fig. 1 it can be seen that the tie rods 9 and 10 are arranged in the angled, outer region between the retaining webs 6 and the spacers 4 and the United extensions and that the tie rod 8 with the protruding from the base plate 2 end of the lattice girder 5 is connected. The tension rods 8 , 9 , 10 are arranged above the extensions acting as spacers 4 .

In FIG. 2, the example of the component 1 according to the invention, supplemented by an additional reinforcement 12, is shown. The additional reinforcement 12 comprises a cross member 11 and longitudinal rods 13 formed grid, which rests on the base plate 2 via special spacers 14 . The spacers 4 and the extensions of the truss 5 overlap here a longitudinal rod 13 and pass through the open areas of the cross bars 11 and the longitudinal bars 13 formed so that an unproblematic diagram attachment of the reinforcement 3 and at the same time reinforcement of the additional 12 through the means of the staples 7 attached from stand 4 or the extensions. The special spacers 14 are used only for spaced support of the grid and are not separately BEFE Stigt on the base plate 2 .

In this embodiment, the base plate 2 remains as lost formwork in the building. The size and geometry of the components according to the invention are primarily determined with a view to easy handling.

With regard to further features of the Component according to the invention is based on the general part of Description referred.

Finally, it should be emphasized here that the invention Do not teach the embodiment discussed above is limited. The teaching of the invention can rather be also with components or prefabricated components with a realize different types of reinforcement.

Claims (27)

1. Component ( 1 ) for the production of reinforced concrete ceilings or reinforced concrete walls, with a base plate ( 2 ), one of the base plate ( 2 ) associated reinforcement ( 3 ) and one connecting the reinforcement ( 3 ) with the base plate ( 2 ) on the base plate (2) fixed spacers (4), characterized in that the Ab spacers (4) is an integral part of the reinforcement (3). 2. Component according to claim 1, characterized in that the reinforcement ( 3 ) comprises at least one lattice girder ( 5 ) and that the spacer ( 4 ) is an integral part of the lattice girder ( 5 ). 3. Component according to claim 2, characterized in that the lattice girder ( 5 ) is spatially formed, that is, spans a room with its NEN elements. 4. The component according to claim 3, characterized in that the lattice girder ( 5 ) is formed from two flat lattice strips which are connected to one another in such a way that an essentially profile V-shaped, towards the base plate ( 2 ) opening lattice girder profile is created. 5. Component according to one of claims 2 to 4, characterized in that the spacer ( 4 ) is formed by an extension of a lateral retaining web ( 6 ) of the lattice girder ( 5 ). 6. The component according to claim 5, characterized in that the spacer ( 4 ) or the extension relative to the Hal testeg ( 6 ) of the lattice girder ( 5 ) angled ver runs. 7. The component according to claim 6, characterized in that the outer angle α between the lateral retaining web ( 6 ) and the spacer ( 4 ) or the extension is dimensioned such that the free end of the spacer ( 4 ) or the extension rests on the base plate ( 2 ). 8. The component according to one of claims 4 to 7, wherein the lattice girder ( 5 ) has a V-shaped profile, characterized in that the outer angle α between the holding web ( 6 ) and the spacer ( 4 ) or the extension an amount has between 90 ° and 180 °. 9. The component according to one of claims 5 to 8, characterized in that the spacer ( 4 ) or the extension defines a distance of the holding web ( 6 ) to the base plate ( 2 ) of at least 30 mm. 10. The component according to one of claims 5 to 9, characterized in that the lattice girder ( 5 ) via the spacer ( 4 ) or the extension of the holding web ( 6 ) is non-positively connected to the base plate ( 2 ). 11. The component according to claim 10, characterized in that the fastening means for connecting the spacer ( 4 ) or the extension to the base plate ( 2 ) is designed as a staple ( 7 ). 12. Component according to one of claims 1 to 11, characterized in that the reinforcement ( 3 ) has at least one of the Git terträger ( 5 ) associated pull rod ( 8 , 9 , 10 ). 13. The component according to claim 12, characterized in that the tension rod ( 8 , 9 , 10 ) above the spacer ( 4 ) or the extension is arranged. 14. Component according to one of claims 2 to 13, characterized in that at least one tension rod ( 8 ) on the base plate ( 2 ) facing away from the end of the lattice girder ( 5 ) is arranged. 15. Component according to one of claims 6 to 14, characterized in that at least one tension rod ( 9 , 10 ) are associated with the outer angle α between the retaining web ( 6 ) and the spacer ( 4 ) serving as an extension. 16. The component according to one of claims 13 to 15, characterized in that the pull rod ( 8 , 9 , 10 ) is non-detachably and non-positively, preferably by welding, connected to the lattice girder ( 5 ). 17. The component according to one of claims 1 to 16, characterized in that on the base plate ( 2 ) a cross bars ( 11 ) comprising additional reinforcement ( 12 ) is arranged. 18. Component according to claim 17, characterized in that the additional reinforcement ( 12 ) as a parallel to the base plate ( 2 ) extending grid of cross and longitudinal bars ( 11 , 13 ) leads out and the base plate ( 2 ) via additionally attached special spacers ( 14 ) contacted. 19. The component according to claim 17 or 18, characterized in that the additional reinforcement ( 12 ) below the lower tie rods ( 9 , 10 ) of the lattice girder ( 5 ) is arranged, from the stand ( 4 ) or the extension of at least one rod ( 11 , 13 ) overlap and the additional reinforcement ( 12 ) by fastening the spacer ( 4 ) or the extension on the base plate ( 2 ) is held on this. 20. Component according to one of claims 17 to 19, characterized in that to achieve the joint stiffness to reinforcement ( 12 ) or parts of the reinforcement ( 4 ) protrude beyond the base plate ( 2 ). 21. Component according to one of claims 1 to 20, characterized in that the base plate ( 2 ), the reinforcement ( 3 ) and optionally the additional reinforcement ( 12 ) are prefabricated. 22. The component according to one of claims 1 to 21, characterized in that the base plate ( 2 ) remains as lost formwork in the building. 23. Component according to one of claims 1 to 22, characterized in that the base plate ( 2 ) consists of wood, is preferably designed as a particle board before. 24. Component according to one of claims 1 to 23, characterized in that the reinforcements ( 3 ) or the lattice girder ( 5 ) of two base plates ( 2 ) are designed as their connecting pieces. 25. The component according to claim 24, characterized in that mutually opposite projecting ends of the retaining webs ( 6 ) of the lattice girder ( 5 ) can be connected. 26. The device of claim 24, characterized in that a abragendes end of a lattice girder (5) of a first and / or a second base plate (2) which contacts each of the opposite base plate (2) such that the respective, the girder (5 ) facing away from the base plate ( 2 ) forth the projecting end can be fixed. 27. The component according to claim 26, characterized in that the projecting end has a flat element which can be screwed ver from the side of the base plate ( 2 ) facing away from the lattice girder ( 5 ).