DE4015418A1 - Sealing strip for concrete structure - consists of flexible hose with internal support formed by helically wound strip - Google Patents

Abstract

The sealing strip is fitted between two parts of a concrete structure where the second part is cast after the first part has hardened. The sealing strip consists of an outer flexible hose (11) made of a net-like material which is permeable to liq. This outer covering (11) is supported by a strip of material (12) wound to form a helix and with a cross-section so shaped that adjoining coils fit partly one inside the other. When the concrete has hardened this supporting strip can be removed to leave a hollow space which can be filled with a sealing compound. USE - Concrete structures.

Description

The invention relates to a concrete joint seal from a open at both ends, with an inner helical support body by provided and made of network-like, liquid permeable existing hose according to the material.

Such a tubular concrete joint seal is already known from CH-PS 600-077. It consists of one mesh-like, porous outer tube, inside of which a Coil spring body is provided on which another braided inner tube.

The coil spring body prevents concreting in an advantageous manner that the tubular concrete joint fully combined at one or more points  is pressed and the sealant no longer by this Hose section can pass through. The disadvantage is but on the one hand when pressing the sealant Internal cross-section available through the in the seal arranged coil spring body very limited and the double, net-like tube and the other form Coil spring body from a large compression resistance. The Even exit of the you used for pressing This makes it difficult to clean the concrete with imperfections or even prevented by constipation.

The object of the invention is therefore a concrete joint to create the one that is sufficiently large Garan cross section for pressing the sealant tiert and on the other hand the exit of the sealant resistance as low as possible from the seal into the concrete opposed.

The solution to the problem is that the support body a flexible shield that can be pulled out after the concrete has hardened formation of the hose interior.

Through this surprisingly simple and advantageous concrete Joint seal becomes the one of the pressing process Available cross section significantly increased and others, the outer hose of the concrete according to the invention joint seal should be so wide-meshed that it is Pressing process opposes only very little resistance. The seal of the seal interior is namely at the concrete joint seal according to the invention now essentially lichen by the pull-out and possibly reusable reversible support body achieved.  

In a preferred embodiment of the Invention the individual partial helix have the appropriate concrete joint seal areas of the support body interlocking sealing surfaces on. This type of seal has the advantage that the interior full even with flexible, non-linear laying always remains shielded. Furthermore, it is for that Pulling out the helical support body necessary force effort relatively low. This is because the one the cross-section of the same is directed into the spiral ben reduced and at the same time the individual partial spiraling be distanced. By reducing the cross section and the elongation immediately detaches the helix from any present caking on the hardened concrete and can be effortless be pulled out of the concrete joint seal.

A particularly advantageous embodiment of the inventions inventive concrete joint seal has a support body, which is made of plastic. Especially when laying a concrete joint seal on an uneven surface the high flexibility of the plastic Support body positive on the quality of the concrete joint seal out.

To the plastic support body against To make external forces less sensitive are a further embodiment of the concrete according to the invention Joint seal reinforcement elements arranged, in particular re made of metal.

Further advantages of the concrete joint seal according to the invention result from those representing an embodiment Drawings. Show it:  

Fig. 1 shows a cross section through the concrete joint sealing device and

Fig. 2 shows a detail of a longitudinal section through the concrete joint seal of FIG. 1.

The concrete joint seal shown in the drawings is generally designated by the reference number 10 and consists of a coarse-meshed hose 11 and a helical support body 12 which surrounds an interior 13 of the concrete joint seal 10 .

The spiral 12 has partial spiral regions 14 which overlap and thus shield the interior 13 of the concrete joint seal 10 . In order to increase the resistance to external forces, reinforcements 15 are arranged in the helix 12 .

The installation of this concrete joint seal 10 is carried out as follows: First, the hose-like concrete joint seal 10 before the concrete of the second section on the already hardened concrete of the first section is fastened in the concrete joint. The end pieces, not shown, of the concrete jointing device 10 are guided through the formwork to the outside. After the second section of the concrete has hardened, the helix 12 can be removed so that only the outer hose 11 remains in the concrete.

In order to remove the helix 12 , a tensile force is introduced at an end of the concrete joint seal 10 that leads outward from the formwork. By introducing this force, on the one hand, the cross section of the helix 12 is reduced and, on the other hand, the individual partial helix areas 14 are pulled apart at the same time. This enables the helix 12 to be pulled out relatively easily. Then a Ver press channel is available, the inner cross section of which is almost the same as the overall cross section of the concrete joint seal, since only the very thin, network-like hose 11 remains in the concrete. The large grouting cross-section and the high permeability of the hose 11 guarantee during pressing that the processing material can penetrate all of the flaws in the concrete without problems over the entire length and completely seal them.

The intermeshing partial coil areas 14 also offer the guarantee that the concrete joint seal 10 can also be installed in the radius without the individual partial coil areas 14 being able to open to the extent that cement milk penetrates into the interior 13 . As an alternative to profiling th, interlocking part winding regions 14 and an overlap of the partial spiral areas 14 would be possible.

Also advantageous for the installation of the concrete joint seal 10 is the possibility of simple assembly, in which the concrete sealing material is cut from a roll in the desired length and fastened to the structure in the planned position.

Claims (4)

1. Concrete joint seal from an open at both ends, provided with an inner, helical support body and made of network-like, liquid-permeable material, the hose, characterized in that the support body ( 12 ) forms a pull-out after hardening of the concrete flexible shielding of the hose interior ( 13 ). 2. Concrete joint seal according to claim 1, characterized in that the individual partial helical areas ( 14 ) of the support body ( 12 ) have interlocking sealing surfaces. 3. Concrete joint seal according to claim 1 and 2, characterized in that the support body ( 12 ) is made of plastic be. 4. Concrete joint seal according to one of the preceding claims, characterized in that the best plastic support body ( 12 ) has reinforcing elements ( 15 ), in particular made of metal.