DE3430564C2 - Formwork angles for ceilings - Google Patents

Description

The invention relates to a formwork angle for Dec ken, which is a formwork wall made of a multi-layer lightweight board with an insulation plate, which lies between the outer and the inner layer, a support perpendicular to the formwork wall part is arranged, which is trained as a lightweight board det is that with the lower end of the formwork wall is connected by an adhesive layer, the Layers of the multi-layer lightweight construction board made of wood cement and the support part is designed as a wood cement board are.  

After bricking the walls to the storey height the in-situ concrete ceiling attached. This must be done accordingly Formwork can be attached all around. In simple Formwork boards are used for this purpose, which you attach to the top layer of brick. Insulation is often on the inside of this Formwork boards lightweight boards with or without one Thermal insulation panel arranged with the inside protruding nails, pins or the like for connection are provided with the in-situ concrete. After the betonia Ren and its curing become the formwork boards removed again.

A disadvantage of this method, however, is that it is very is time consuming and relatively cumbersome. this applies E.g. for attaching the formwork boards to the uppermost brick layer and for its later Ent distance.

For this reason, formwork angles are already as such called lost formwork known that after Be toning remain in the component. The well-known Scha angles consist of a formwork wall, which at least approximately the height of the location to be applied Concrete ceiling corresponds, and a support part that on the top layer of brick is attached. Out  For reasons of stability, the formwork angle is complete or partially made of glass fiber concrete, whereby for a si Chere connection of the formwork wall with the support part a rounded part on the inside in the transition area is richly arranged.

Formwork angles of this type have the disadvantage, however, that they are relatively heavy and their handling when Transport and construction is cumbersome. Through the run such formwork angles can be poor be stacked. To stiffen the applied In-situ concrete ceilings are iron baskets, steel mats and the same inserted. Disrupt during this laying the rounding parts or corresponding places to be released.

From DE 83 28 378 U1 is a generic Scha angle with a vertical and a horizontal plate known, the vertical plate and the Hori zontalplatte formed as layered lightweight panels are.

Since this known formwork angle is not the be Disadvantages of known formwork angles already mentioned has, but for this a much lower Has stability is in the inner angular range between  a glass of the vertical plate and the horizontal plate grid fabric glued to the stability of the Scha intensify angle.

The disadvantage here, however, is that sticking one Glass mesh fabric is complex and therefore expensive.

From DE-OS 2 16 172 and DE-OS 21 17 918 are Building boards or lightweight boards are known, which a have fine fiber and wood wool structure in order to good strength and surface properties to obtain.

The present invention is based on the object to provide a formwork angle, which ver has relatively high stability and is simple is adjustable.

According to the invention this object is achieved in that the support part is provided with wood shavings, the Width essentially between 6-15 mm and their Thickness is essentially between 1.2-1.8 mm.

The inventive design of the edition sometimes it was surprisingly recognized that at Use of a support part with wood chips that the  have dimensions according to the invention or one Wooden cement board in special design in not close such a high level of stability is achieved that the formwork angle according to all requirements changes.

Usually the wood chips have wood cement slabs with a width of approx. 4 mm and a thickness of approx. 1 mm.

According to the invention, the width of the wood chips is now designed as a wooden cement board part in the we chosen between 6 and 15 mm, whereby has given 8 mm as a very good value.

The thickness of the wood chips formed as a support part Deten wood cement board is essentially 1.2-1.8 mm, with a very good value of 1.5 mm has asked.

The described support part is somewhat more expensive than normal support parts, but in connection with the iso gated multilayer lightweight building board and under consideration view of the quick and easy production and Handling outweigh the benefits.  

The thickness of the support part is generally between rule 6 and 15 mm, preferably between 8 and 10 mm be.

For special purposes it can be an advantage if on the free leg end of the support part a second Multi-layer lightweight board perpendicular to and in same direction as the first multi-layer lightweight construction plate is attached. The second can be more Layered lightweight building board, depending on the application same height as the first multi-layer lightweight board own, or is only a few centimeters high, therefore shorter than the first multilayer lightweight board, and thus provides additional insulation on the Inside.

This second multilayer lightweight board can also be used its end face with the top of the support part be connected via an adhesive layer.

The following are exemplary with reference to the drawing games of the invention described in principle.

It shows:

Figure 1 shows a cross section through the formwork angle according to the invention.

2 shows in a reduced view also shows a cross section through a formwork angle with a second multi-layer lightweight panel. and

Fig. 3 shows an embodiment of the invention, similar to that shown in Fig. 2, wherein the second multilayer lightweight board is shorter.

The formwork bracket shown for ceilings has a vertical formwork wall 1 , which consists of a multi-layer lightweight building board with an outer layer 2 , an inner layer 3 and an insulating mat 4 in between. The width of the outer and inner layers will generally be between 1 and 3 cm, while the thickness of the insulating plate will be between 3 and 5 cm. Of course, other values are also possible within the scope of the invention.

With the formwork wall 1 , a support part 5 is connected at right angles to it. The connection is made via an adhesive layer 6 . The support part consists of a wooden cement board 5 . The width of the wood chips in the exemplary embodiment is 8 mm, their thickness is 1.5 mm and the thickness of the plate itself is 8 mm. However, other dimensions are of course also possible within the scope of the invention. The outer and inner layers 2 and 3 of the shuttering wall 1 and the support part 5 are thus made of the same material and can be so securely connected to one another with an appropriate choice of an adhesive that the formwork angle increases the forces and moments occurring. In particular, this is achieved by the special implementation of the wood cement board 5 .

Depending on the type of stones, the support part 5 is fastened to the uppermost stone layer 8 either by pins, nails 7 or the like. Of course, however, the support part can also be attached to the uppermost stone layer 8 by means of a mortar or adhesive connection. The width of the support part 5 can also be selected according to the application. So z. B. the support part extend over the entire width of the uppermost stone layer 8 .

In Fig. 2, an embodiment of the formwork angle is shown, with a second formwork wall 1 'is arranged in addition to the formwork wall 1 on the inside. The formwork angle according to this embodiment can, for. B. are formed by a single support part, at the free ends of which vertically projecting multi-layer lightweight building boards 1 are arranged, or one uses det formwork angles that are mirrored to each other, the support parts of which are each only half as wide as that Width of the top layer of brick is. This configuration is shown in FIG. 2.

Fig. 3 shows in principle the same configuration, with in contrast to Fig. 2, only the second formwork wall 1 'also formed from a multilayer lightweight building board is only a few centimeters high. Just like the outer formwork wall 1 , the inner formwork wall 1 'is connected to the support part by an adhesive layer.

Claims (8)

1. Formwork bracket for ceilings, which has a formwork wall made of a multilayer lightweight building board with an insulation plate, which lies between the outer and the inner layer, with a support part being arranged at right angles to the formwork wall, which is designed as a lightweight building board, which with the lower end face of the Formwork wall is connected by an adhesive layer, the layers of the multilayer lightweight construction board made of wood cement and the support part being designed as a wood cement board, characterized in that the support part ( 5 ) is provided with wood chips, the width of which is essentially between 6-15 mm and the thickness of which is essentially is between 1.2-1.8 mm. 2. formwork angle according to claim 1, characterized in that the width of the wood chips essentially approx. 8 mm is. 3. formwork angle according to claim 1 or 2, characterized in that the thickness of the wood chips essentially approx. 1.5 mm is. 4. Formwork angle according to one of claims 1 to 3, characterized in that the thickness of the support part ( 5 ) carries approximately 6-15 mm be. 5. formwork angle according to claim 4, characterized in that the thickness of the support part ( 5 ) carries about 8-10 mm be. 6. Formwork angle according to one of claims 1 to 5, characterized in that at the free leg end of the support part ( 5 ) a second multilayer lightweight board ( 1 ') is angled at right angles to it and in the same direction as the first multilayer lightweight board ( 1 ). 7. formwork angle according to claim 6, characterized in that the second multilayer lightweight building board ( 1 ') just if connected at its end to the top of the support part ( 5 ) via an adhesive layer. 8. Formwork angle according to claim 6 or 7, characterized in that the second multilayer lightweight building board ( 1 ') is shorter in height than the first multilayer lightweight building board ( 1 ) and as insulation to the inside of the room.