DE2324195A1 - BUILDING BEARINGS MADE OF RUBBER-ELASTIC LAYERS ARRANGED BETWEEN METAL PLATES - Google Patents

Description

Construction bearings made of rubber-elastic, arranged between metal plates Layers The invention relates to a construction store made up of between metal plates Adhesively attached rubber-elastic layers to compensate for temperature-related or horizontal movements occurring as a result of shrinkage, its outer layers are in direct contact with the surfaces of the load-bearing and supported component.

To compensate for the horizontal movements, rubber layers are a certain Required height at which the horizontal direction arising from the expansion considerable tensions are often absorbed by embedded metal plates, which are loaded on train and to take advantage of their high tensile strength with the rubber-elastic material are firmly connected. All in rubber-elastic material occurring horizontal forces are absorbed by the metal plates, the two outer panels with the interposition of an elastic cushion layer are in direct contact with the surfaces of the load-bearing and supported component. this This also applies when the surfaces of the components, e.g. bridges, have high tensile strength steels are capable of absorbing the horizontal forces. On the outer metal plates can still not be done without in practice, because the rubber layers on the Construction site cannot be firmly connected to the surfaces of the components or the establishment of a connection is too cumbersome, so that the Horizon 'valley forces caught in the two outer rubber layers freed from the outer metal plates could become.

The invention is based on the object of creating a construction warehouse, in which the two outer metal plates can be dispensed with and still the specific surface loading does not have to be subjected to any reduction.

This object is achieved according to the invention in that the outer Layers on all sides at least predominantly tapered towards the contact surface are. By doing this, the horizontal stresses are in a greater Measurements directed into the metal plasters on the inner surface of the outer layers, without the contact surfaces of the outer layers adhering to the surfaces of the components need to be connected. When the horizontal forces act on the contact surfaces of the outer layers, these can be attached without an adhesive connection slide over the surfaces of the components, i.e. expand from the center of the contact surface the rubber-elastic material is increasingly towards the edges until a Balance between the horizontal forces and that between the contact surface and the surface of the components has been subject to friction. It will be through the measure according to the invention thus essentially takes place in the edge zones of the outer layers The resulting peak stresses are reduced and the bearing is loaded because of the Sliding on the surfaces of the components, the outer layers into a barrel-shaped one Shape like the layers lying between the metal plates deformed so that the originally tapered formation of the two outer surfaces on the loaded bearing is no longer recognizable.

The outer layers are expediently shaped like a pyramid or a truncated cone formed, the base surfaces of which face each other and their flank angles be approx. 450.

An embodiment of the subject invention is illustrated by the drawing illustrates.

They show: FIG. 1 a construction store in a perspective view and FIG. 2 shows the object of Figure 1 under load between components in section.

The construction store consists of three metal plates 1, between which two Ummielastic plates 2 are adhesively attached. The metal plates 1 consist of high tensile strength steel, while the rubber elastic layers 2 because of the aging resistance and the required high elasticity from a synthetic rubber, usually polychloroprene exist.

As can be seen from FIG. 1, the outer layers 3 are frusto-pyramidal are formed, and sit with the base surface on the adjacent metal plates 1 and are exposed with the contact surfaces 4.

As can be seen from Figure 2, these contact surfaces 4 are on the surfaces 5 of the two components 6 and 7 applied, of which component 6 is the load-bearing and the Component 7 is worn. Under the load of the supported component 7 bulge the layers 2, 3 are barrel-shaped, while the layers 3 are due to lack of adhesion their surfaces 4 with the surfaces 5 bulge somewhat stronger and also asymmetrically. The tapered design of the layers 3 makes part of their horizontal forces guided into the adjacent plates 1, so that the edge stresses in the layers 3 are practically insignificantly larger than in layers 2. To reduce the Edge stresses can affect the unloaded layers 2, 3 against those occurring under load barrel-shaped deformation cushion-shaped, i.e. equipped with concave outer surfaces be. This can be done both for the intermediate layers 2 and for the outer layers 3 can be applied.

Claims (3)

Patent claims: Support made of rubber-elastic sticks attached between metal plates Layers to compensate for temperature-related effects or those that occur as a result of shrinkage horizontal movements, the outer layers of which are directly on the surfaces of the bearing and supported component, characterized in that the outer Layers (3) tapered on all sides at least predominantly towards the contact surface (4) are trained. 2. Construction warehouse according to claim 1, characterized in that the outer Layers (3) are pyramidal or frustoconical bodies, the base surfaces of which facing each other 3. Construction warehouse according to claims 1 and 2, characterized in that that the flank angles of the pyramidal or frustoconical bodies are about 450.