DE20009425U1 - Edge formwork for concrete slabs and concrete ceilings - Google Patents

Description

Edge formwork for concrete slabs and concrete ceilings

The invention relates to an edge formwork for concrete slabs and concrete ceilings for buildings with a facing, in particular with a facing masonry.

Buildings usually have a basement that supports the building on top. If no basement is planned, a concrete slab is usually poured. In houses with facing brickwork, the base area was previously bricked and plastered and the facing brickwork was placed on top of this, or the facing brickwork was extended into the ground and the cavity between the inner wall and the facing brickwork was thermally insulated with suitable insulating materials. When insulating materials were used, the basement ceiling or the facing brickwork had to be extended below ground level. This type of construction is necessary in order to minimize thermal bridges between the load-bearing inner wall, concrete ceiling and outside air or soil.

The invention has set itself the task of improving the described transition area.

According to the invention, this is achieved with the help of a formwork which, on the one hand, has a known element, namely a leg which forms a ceiling edge formwork. The term leg is to be understood in the most general sense and is not tied to an L-shaped construction in which the leg forms an angle with another leg. U-shaped constructions and other constructions are also possible.

The familiar leg is preferably made of plastic foam. Other ceiling edge formwork can also be considered, e.g. wood wool lightweight panels (monolithic or in combination with other insulating materials) or polyurethane foam panels.

According to the invention, the ceiling edge formwork is combined with a new element. This is an attachment that forms a load-bearing base for the facing masonry.

The formwork according to the invention facilitates the construction of the facing brickwork. In addition, the basement ceiling or the floor slab can be installed higher in ceiling thickness. This reduces the excavation costs.

The costs are reduced compared to conventional ceiling edge formwork. The separate base masonry for the facing shell is no longer required if a base is desired.

The attachment can show any desired outer surface of the base. This includes functional ones, e.g.

dense surfaces as well as aesthetic surfaces. The surfaces are designed by plaster and/or painting or in some other way.

It is advantageous to create these surfaces using thin building boards made of rigid foam. The rigid foam is, for example, a polystyrene foam with a thickness of 10 mm. The rigid foam is coated and reinforced on both sides to form a so-called building board. The coating is a thin layer of mortar with a glass fiber fabric/mesh as reinforcement. The mortar coating is particularly suitable for absorbing the plaster layers or sealing materials described above.

Fibre cement boards or cement-bonded chipboards or magnesite-bonded wood wool boards are also suitable.

The desired outer surface can also be created by coating a supporting structure or formed by a self-supporting layer.

The load-bearing capacity of the facing can be limited to the fact that the compressive forces/loads from the facing masonry are directed vertically downwards into the basement walls or into a foundation. This places only low demands on the strength of the leg of the ceiling edge formwork.

In addition, the outer surface of the attachment can also be relieved if the attachment is provided with one or more cores that absorb the load. The cores preferably have a continuous profile with a square and/or round cross-section. This preferably results in cuboid or cylindrical cores.

To insert the cores and/or the filling material, there are hollow spaces in the facing that run from top to bottom and are filled on site. Concrete is particularly suitable as a filling material, but mortar is also suitable.

The formwork according to the invention advantageously allows an overhang of the facing masonry. For a 1-brick facing masonry (standard thickness of the 1-brick facing masonry is 11.5 cm) a maximum overhang of 38 mm is provided, for other masonry more or less overhang depending on the different masonry thickness.

The drawing shows an embodiment of the invention:

Fig. 1 shows a formwork according to the invention with a leg 1 made of polystyrene foam, which is known from the slab edge formwork. The known legs have a tongue and groove connection 4 at their joints. This connection is intended to prevent concrete from penetrating the joint.

In Fig. 1, the tongue can be seen penetrating into a groove of an adjoining leg 1 of another formwork.

The formwork according to the invention also includes a rigid foam plate 2 which runs parallel to the leg 1 at a distance A. The rigid foam plate 2 also consists of polystyrene and is provided on both sides with a thin, glass fiber reinforced mortar layer.

The rigid foam board 2 and the leg 1 are connected to each other by webs 3, which are distributed at regular intervals over the length L of the formwork.

The thickness of the rigid foam board 2 is marked with C, the thickness of the leg 1 with B, the height of the formwork with H.

Dimensions may vary as follows: 60 to 450 mm A 5 to 200 mm B 2 to 50 mm C at least 200 mm L ... .... .. .. ..
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H 120 to 400 mm

The installation of a formwork according to the invention is shown in Fig. 2. There, the formwork is designated 10.

Formwork 10 has four functions:

It is placed on a foundation 14 and forms a formwork edge (edge insulation formwork) for a concrete ceiling 13. Preferably, the cavities of the formwork according to the invention are filled with concrete before the concrete ceiling is poured, so that the formwork is fixed to the foundation 14 without any further measures. However, the formwork can also be fixed to the foundation 14 in some other way, so that the cavities can be filled together with the pouring of the concrete ceiling.

The formwork 10 according to the invention forms thermal insulation for the building.

The formwork 10 according to the invention forms a support for a facing masonry 16. The facing masonry 16 is erected after the concrete ceiling 13 has set, after the wall 11 has been set and after the shell made of thermal insulation material provided between the wall 11 and the facing masonry has been installed.

The formwork 10 according to the invention forms a base for the building. On the outside, the formwork 10 has a flexible mineral barrier/sealing plaster or paint 15. In the example, the sealing in the base area extends at least 25 cm above the ground. In addition, sealing is provided to at least 30 cm into the ground. At the same time, thermal insulation of the foundation 14 is provided.

In the example shown, the base is set back from the facing brickwork. The dimension is 25 mm, in other examples up to 38 mm for a 1-brick facing brickwork. With a facing brickwork of lesser thickness, an adjustment is made to the decreasing thickness. With increasing thickness, the adjustment is not necessary.

The projection of the facing masonry is also possible because the reinforced rigid foam board 2 is designed to be very thin in relation to the edge insulation formwork. In the example, a thickness of one quarter of the thickness of the edge insulation formwork is

In other embodiments, more or less, but preferably no more than half the thickness of the edge insulation formwork.

Claims (12)

1. Formwork for the base area of a building with facing masonry or the like, in particular for a base area in contact with the ground, characterized in that the formwork consists of an edge insulation formwork ( 1 ) and an attachment ( 2 , 3 ). 2. Formwork according to claim 1, characterized in that the attachment ( 2 , 3 ) forms a support for the facing masonry. 3. Formwork according to claim 2, characterized in that the attachment ( 2 , 3 ) is provided with at least one cavity for a load-bearing filling material and/or with load-bearing cores. 4. Formwork according to claim 3, characterized in that the filling material is concrete or mortar. 5. Formwork according to one of claims 1 to 4, characterized in that the edge insulation formwork and/or the facing consists of plastic foam or of fiber cement boards or of cement-bonded chipboards or of magnesite-bonded wood wool boards. 6. Formwork according to claim 5, characterized in that the plastic foam is a polystyrene foam or a polyurethane foam. 7. Formwork according to claim 5 or 6, characterized in that the attachment is formed by a building board ( 2 ) made of hard plastic arranged at a distance from and parallel to the edge insulation formwork ( 1 ), which is provided on both sides with a reinforced mortar layer, or that the attachment forms a coated supporting structure or that the attachment forms a self-supporting structure. 8. Formwork according to claim 7, characterized in that the building board ( 2 ) is connected to the edge insulation formwork via webs ( 3 ) and/or the building board is provided with a sealing layer and/or structural layer or plaster or paint. 9. Formwork according to one of claims 1 to 8, characterized in that the edge insulation formwork has a thickness A, a height H and a length L, that the attachment has a plate ( 2 ) with a thickness C, a height H and a length L on the side facing away from the edge insulation formwork ( 1 ) and that the plate ( 2 ) and the edge insulation formwork ( 1 ) are at a distance A, whereby the dimensions can be
A 60 to 450 mm,
B 5 to 200 mm,
C 2 to 50 mm,
L at least 200 mm, preferably 1250 mm
H 120 to 400 mm, 10. Formwork according to claim 9, characterized in that the thickness of the plate ( 2 ) is at most equal to half the thickness of the edge insulation formwork ( 1 ). 11. Formwork according to claim 9 or 10, characterized in that the concrete slab thickness or the concrete ceiling thickness is also equal to H. 12. Formwork according to one of claims 1 to 11, characterized in that in the case of a 1-brick facing masonry the base is set back by a maximum of 38 mm from the front edge of the facing masonry and in the case of thinner facing masonry the dimension of maximum setback corresponds to the difference to the 1-brick facing masonry.