DE4436532A1 - Concrete shaft compensation ring - Google Patents

Abstract

A compensation ring (5), to take up loading on concrete shafting, is of a foam material, pref. polystyrene foam.

Description

The invention relates to a compensation ring according to the Oberbe handle of claim 1.

Such compensation rings are in practice in the form of Mortar rings known as the fresh mortar layer on the bottom Manhole component can be applied. This should Equal layer cause that in the event of deviations in the end face parallelism of the components and with small concrete protrusions on the abutting or contact surfaces of the two owing components point load transfers can be avoided. The compensating rings are designed to ensure even load absorption and load transfer between the individual components of Be Ensure clay shaft structures so that cracks and Concrete explosions avoided by the high loading loads occur during point load transmissions.

In practice it is disadvantageous that if the mortar consistency is too soft no static compensation is possible on uneven surfaces. If the mortar consistency is too firm, however, it hardens too quickly and in turn causes point loads, whereby also in the The amount of the order in the joint area is not sufficient Accuracy can be achieved.

In practice, a compensation ring in the form of a sand-filled rubber hose known. With this out Equal ring is disadvantageous that the handling of the ring before its transfer to a sliding of the sand filling inside half of the hose can lead so that no even There is sand distribution in the hose, so that in turn none even load distribution between the two butting shaft components can be achieved. In addition is  disadvantageous that for the safe arrangement of such an off a groove is also provided in the lower shaft component must be, which centers the compensation ring. The power transfer supply area is therefore essentially the width of this groove limited, so that still relatively high pressure loads occur. It cannot be ruled out that the tubular casing of the compensation ring under unfavorable Conditions can burst.

Furthermore, a combined sealing and Compensating ring known, each in the upper manhole component is integrated in its manufacture. In this combined Seal is disadvantageous in that this on the lower manhole component acts in the area of its sensitive tip area and not on the stand area provided for load transfer of the shaft.

In the latter two systems, it is also disadvantageous that special forms for the creation of the manhole components must be seen to the grooves or recesses create to accommodate the compensation rings or combinations rings.

The invention has for its object a generic ß improve compensation ring in that a simple che attachment of the compensation ring on differently shaped teten shaft components is easily possible and that a Even load distribution with the smallest possible area load can be achieved.

This object of the invention is achieved by Design according to the characterizing part of the An spell 1 solved.

In other words, the invention proposes an end equal ring made of a foam material, for example made of ge  to use foamed polystyrene. These materials are in practice primarily as insulation materials due to their known excellent insulation. When setting the Corresponding density, these materials can but also be set so hard that they at the shaft very large loads occurring in buildings without any problems be able to record.

It is advantageous that the proposed material is not fe and that there is the transmission of vibrations between neighboring shaft components hindered or prevented. To it shows a certain flexibility, but can absorb very large loads without deformation on a larger surface men. This is an ideal adaptability to the Unre regularity of adjacent shaft components ben without changes in the contour of conventional components must be made. Rather, he can inventive compensation rings on the intended Stand areas of the shaft are arranged, that is between the two contact surfaces of adjacent shaft components.

The grade of the polystyrene foam used can be in Adaptation to the occurring loads can be selected. So for shaft structures with different diameters water and each with a correspondingly different weight adapted, different hard polystyrene foams used will.

Even within a shaft structure, the can go down increasing loads on the compensating rings by corresponding selected quality pillow of the rings by making rings to be placed deeper harder. In order to clearly differentiate the material properties mark, the compensating rings can be material-dependent Have colorings, so the misuse  unsuitable material and thus the wrong positioning can be excluded as far as possible.

The compensating ring can advantageously have a width, that of the full width of this contact surface of the shaft components corresponds. In this way the wing load is reduced, so that the shaft components are particularly well protected.

In principle, the compensating ring can be placed in place be foamed. However, the formation of one is advantageous factory made compensation ring with constant and production-related monitored quality properties. A particularly easy to handle and transport like rings is given the large diameter of Shaft structures possible in that the ring in several Segments is divided.

All segments are advantageously of the same size, so that the laying of the segments to a closed Compensation ring is possible without complications.

The compensation ring or the individual to it Manufacture used segments coated self-adhesive be so that the fixation of the compensation ring in its optima len location can be guaranteed. Especially when ver If several segments are used, it can be ensured that one keep closed ring in its chosen arrangement without the one or more of the segments can leave this arrangement.

An embodiment of the invention is based on the drawing tion explained in more detail below. It shows

Fig. 1 shows a section through the contact point of two construction parts of a concrete shaft structure, with some parts broken away and

Fig. 2 shows schematically a plan view of a shaft construction part with a compensation ring according to the invention.

In Fig. 1, 1 denotes a lower shaft component, which forms a tip 2 . An upper shaft component 3 , which forms a sleeve 4 , is placed on this component 1 from above.

Between the two contact surfaces of the shaft components 1 and 3 , a compensating ring 5 is arranged, which consists of foamed polystyrene and the unevenness in the two contact surfaces of the components 1 and 2 compensates and a possibly occurring deviation from the parallel alignment of these in the components. 1 and 3 to each other.

In Fig. 2, the lower shaft component 1 is shown schematically, with the compensating ring 5 being arranged around the tip 2 . As can be seen from FIG. 2, the compensating ring 5 is formed from several segments 6 of the same size.

The individual segments 6 are easy to handle and require little transport space. You can be self-adhesive layers to maintain their predetermined position to create egg nes common compensating ring 5 on the lower shaft component until the upper shaft component 3 can be placed.

Claims (6)

1. Compensation ring for the load bearing in concrete shaft structures, characterized in that the compensation ring ( 5 ) consists of a foam, for example polystyrene foam. 2. compensation ring according to claim 1, characterized in that the compensation ring ( 5 ) has a width which corresponds to the full width of the contact surface of the shaft parts ( 1 , 3 ). 3. compensation ring according to claim 1 or 2, characterized in that the compensation ring ( 5 ) is divided into several segments ( 6 ). 4. compensation ring according to claim 3, characterized in that the segments ( 6 ) are of equal size. 5. compensation ring according to one of the preceding claims, characterized in that the compensation ring ( 5 ) is coated self-adhesive. 6. Compensation ring according to one of the preceding claims, characterized in that compensation rings ( 5 ) with different material properties are colored differently depending on the material.