CH682337A5 - - Google Patents

Description

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description

The invention relates to a bearing for the transmission of exclusively vertical forces in a building wall according to the preamble of claim 1.

In buildings with continuous concrete slabs, which extend, for example, over two adjoining apartments, over a staircase and an adjacent apartment or over a balcony and an adjacent apartment, there are considerable problems with regard to sound and heat insulation. Therefore, in particular to reduce sound transmission, construction methods were developed in which ceilings were separated and stored on brackets with the interposition of an elastomer coating. These brackets are anchored in the load-bearing walls to support the ceiling. Such a console element is known from DE-OS 3 531 441.9. This bracket element has a single-shell elastic covering made of a sound and / or heat-insulating material and, moreover, consists of a concrete cuboid into which the required steel reinforcement is cast. On the underside of the concrete cuboid there is a thrust bearing made of an elastomer material for transferring the vertical forces. This bracket element is built into a wall when it is bricked up. A ceiling slab can then be cast on later, the reinforcement elements protruding from the prefabricated bracket element taking over the load-bearing capacities. This design has the disadvantage that after attaching the console element until the ceiling or the landing, concrete platforms or the like are concreted on. the reinforcing elements protruding from the wall into the stairwell, room or the like. protrude and disrupt the construction process due to disability or danger.

Forms of recesses in building walls for horizontal components to be inserted later are known in principle. DE-PS 2 907 267 describes a support element consisting of a trough-shaped double-walled shell with rubber end strips, which is preferably to be used in walls made of masonry and serves to accommodate ceilings. This support element has no special connecting element with a ceiling to be concreted and is large-volume and complex in construction and manufacture due to its double-walled construction and the separate rubber end strips. Furthermore, a generic pedestal bearing for ceilings is known (DE-Gbm 8 713 222), which for receiving a rectangular profile consists of an inner and outer shell and each longitudinal and transverse side and the end face of the rectangular profile assigned elastic support cores. These serve to absorb horizontal, vertical and axial forces. Such a pedestal is also large-volume and complex in construction and manufacture due to its bearings arranged in three load directions and the required double-shell construction, including the circumferential rubber sleeve.

Starting from the aforementioned prior art, it is therefore an object of the invention to remedy the aforementioned disadvantages and to bring an improved Lager.in proposal that serves to transmit only vertical forces with the simplest possible design in terms of handling, function and structure.

This object is achieved by the features characterized in claim 1. The bearing according to the invention has the following advantages. By separating the bearing into two components, a single-shell recess shape and a bracket element with cast-on steel reinforcement, a bearing is provided that absorbs the vertical forces in a building with good sound and / or heat insulation and simple and compact construction and the construction process in none Way hinders or bothers.

A preferred embodiment of the invention is explained in more detail below with reference to the drawing.

Show it:

1 is a side view of a bracket element,

2 shows a view of the console element from below according to FIG. 1,

Fig. 3 is a perspective view of a recess shape and

Fig. 4 shows a section through a wall with built-in recess shape and the console element used in the vertical direction.

1 shows a schematic side view of a bracket element 1 which has a bracket element body 2 made of concrete. Its upper side 3 slopes slightly towards its rear side 4, so that the console element body 2 tapers towards the rear side 4 in the side view. The underside 5 of the console element body 2 extends perpendicular to the rear side 4 and the front side 6. On the underside 5, an elastic plate 7 made of rubber or of elastomer or of another material suitable for power transmission as well as heat and / or sound-insulating material is attached. The floor plan of the elastic plate 7 is smaller than the floor plan of the console element body 2, whereby an excessive edge pressure of the elastic plate 7 is avoided. Adjacent to the front 6 and partly to the two side surfaces 8 and 9 of the console element body 2 is the elastic plate 7 for sealing with a board 24 made of rubber granules or the like. includes. A steel reinforcement 22 protrudes from the front side 6 of the console element body 2, which is arranged in a precisely defined spatial association with the console element body 2 in such a way that the stairwell heel, platform or the like to be cast on later. forces introduced into the console element 1 in an optimal manner with the smallest possible outer dimensions of the console element 1 in a recess shape 10 and a wall 30.

Fig. 2 shows a schematic representation of the underside 5 of the console element 1 that its side surfaces 8 and 9 from the front 6 to

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Back 4 converge so that the console element body 2 tapers from the front 6 to the rear 4. The rim 24 closes flush with the console element body 2 in the region of the side surfaces 8 and 9.

Fig. 3 shows a perspective view of the recess shape 10, the outer shell 17 made of metal, plastic, fiber concrete or the like. is made. The recess shape 10 is completely or partially covered on the inside on the side walls 11 and 12, on the upper side 16 and on the rear wall 13 with a layer 14 of a heat and / or sound-insulating material, e.g. made of rubber granulate or preferably polyurethane or polystyrene with elastic properties. The layer 14 must extend in its dimensions and its extent at least to such an extent that when the console element 1 is pushed into the recess shape 10, a perfect seal on the side walls 11 and 12 and on the upper side 16 with respect to the concrete during the subsequent concreting of a platform or the like. reached and a flow of the concrete into the recess shape 10 is prevented with certainty. Furthermore, the layer 14 prevents the console element body 2 from contacting the recessed shell 17 and thus ensures insulation against sound and / or heat transmission.

The recess shape 10 is provided in the region of its opening 15 with one or more outer flaps 18, in which there are bores 19, which are used to fasten the recess shape 10 e.g. serve on a formwork. For support, one or more outer straps 20 are provided on the rear wall 13 opposite the opening 15.

If the thickness d of the wall 30 is greater than the required depth t of the recess shape 10 (see FIG. 4), the side walls 11 and 12 of the recess shape 10 can be extended beyond the rear wall 13, as in that shown in FIG. 3 Embodiment is shown. The resulting volume V is with masonry, concrete or the like. replenished.

4 shows a sectional view of the installation state of the recess shape 10 with the console element inserted in the wall 30. As can be seen from this, the console element 1 is completely inserted into the recess shape 10, so that its rear side 4 is on the rear wall 13 of the recess shape 10 attached part of the layer 14 is present. In this position, the bracket element 1, due to its shape tapering towards the rear side 4, compresses the elastic layer 14 on the side walls 11 and 12 and on the upper side 16 of the recess shape 10 in such a way that a seal against liquid concrete, Pedestals or the like could run into the recess shape 10 is guaranteed. Here, the sealing in the area of the bottom surface 23 of the recess shape 10 is ensured by the rim 24 fastened to the console element body 2 and the elastic plate 7 attached to the underside 5 of the console element body 2 lies flat on the bottom surface 23 of the recess shape 10. In order to avoid excessive edge pressure, the elastic plate 7 does not extend to the opening 15 of the recess form 10. The rim 24 surrounding the elastic plate 7 extends to the edge of the opening 15 of the recess form 10 or protrudes by a certain length beyond it ensure that, as already mentioned, no concrete can flow between the console element body 2 and the bottom surface 23 of the recess shape 10. The geometric dimensions of the console element 1 and the recess shape 10 are selected such that the layer 14 and the rim 24 are pressed together in the region of the opening 15 of the recess shape 10 in such a way that a reliable seal is ensured.

The recess shape can be integrated into the construction process without any problems. In the embodiment described above with side walls drawn laterally beyond the rear wall and with outer flaps provided with holes, it can be securely fastened to one side of a formwork for installation in a concrete wall, so that it does not move out of its way when pouring the concrete. In a further advantageous embodiment of the invention, the layer for lining the recess shape is designed and attached in such a way that it seals the recess shape against the filled-in concrete at gaps which may be caused by production. The layer thus combines the tasks of sound and / or heat insulation, the sealing of the recess shape when it is concreted into a wall and, together with the board surrounding the elastic plate when the bracket element is inserted, the sealing against when concreting a pedestal or the like. inflowing concrete. The structure of the warehouse is therefore compact and simple.

The opening of the recess shape can be closed in a simple manner with a styrofoam cube to protect the layer attached to it during transport and on the construction site.

Another embodiment of the invention can also contain a bearing on the top of the bracket element for absorbing vertical forces. Furthermore, variants are conceivable with regard to the geometric shape of the cutout shape and the bracket element for sealing by means of the elastic layer, which do not necessarily require a tapering of the bracket element body and a cuboid shape of the cutout shape. The geometrical shape can also be selected, for example by appropriately sharply chamfering the bracket element, so that in the assembled state, cavities, e.g. with a triangular cross-section. These air volumes can improve the sound insulation according to the Helmholtz principle and the heat insulation by means of a further increase in thermal resistance. Such a strong beveling further enables that when inserting the bracket element into the recess shape

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displaced air can escape from the recess shape.

As can be seen from the above, the described bearing can be integrated into the construction process without any problems. The recess shape is walled or concreted into when the building wall is pulled up. The bracket element is only inserted into the recess shape when a pedestal or the like is concreted in. In this way, no disturbing or obstructing reinforcement elements protrude from the building wall between the time the building wall is raised and a ceiling or platform is concreted on.

Claims (6)

Claims 1.Bearings for the transmission of exclusively vertical forces into a building wall with a trough and cuboid recess shape to be inserted into the building wall, with a sound and / or heat insulating layer, with a sound and / or heat insulating, elastic plate for load transmission and with an in the recess form insertable console element, characterized in that the layer (14) lines the interior of the recess form (10) with the exception of its bottom surface (23) and that the console element (1) is shaped such that when inserted into the recess form (10) the Layer (14) compressed and the interior of the recess shape (10) is sealed. 2. Bearing according to claim 1, characterized in that the top (3) and at least one of the side surfaces (8, 9) of the bracket element (1) tapers. 3. Bearing according to claim 1 or 2, characterized in that the elastic, sound and / or heat-insulating plate (7) on the underside (5) of the bracket element (1) is attached. 4. Bearing according to claim 1 or 2, characterized in that the elastic plate (7) on the bottom surface (23) of the recess shape (10) is attached. 5. Bearing according to claim 3 or 4, characterized in that the elastic plate (7) at least in the region of the opening (15) of the recess form (10) is comprised of a strip-like board (24) made of rubber granules, which cooperate with the geometric Shape of the recess shape (10) and the bracket element (1) and the layer (14) ensures the sealing of the interior of the recess shape (10) when the bracket element (1) is inserted into it. 6. Bearing according to claim 1, characterized in that the recess shape (10) consists of a single-walled housing made of metal, plastic or molded concrete. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 4th