SE436291B - Dilatation joining device - Google Patents

Abstract

A pre-manufactured dilatation joint device for creating a flexible, compact joint between the parts of two concrete structures (1, 2) The device comprises two side components (4, 5) for compact attachment against each side of the structural component and an intermediary dilatation component consisting of at least two sections (8, 9) separated in depth. Between these, a ventilation channel is formed (10). In this way, the formation of condensation and frost erosion can be avoided.<IMAGE>

Description

8003890 * 1 10 15 20 25 30 35 a ventilating air flow can be maintained and any tendency to condensation of airborne moisture counteracted. Even moisture that has been absorbed in the adjacent concrete material, for example during heavy rainfall against a building 1 or during moisture transport below ground level, can also be efficiently transported away by means of such an air flow. Suitable embodiments of the dilatation joint device E are specified in the subclaims. The invention is explained in more detail below with reference to the accompanying drawing.

Fig. 1 shows in cross section a section of two nearby: concrete construction parts, e.g. two concrete elements forming part of a house building, and a dilatation joint device according to the invention connecting these structural parts; and Fig.; 2 shows in cross section an alternative embodiment of the dilatation joint device. The dilatation joint device according to the invention shown in Fig. 1 is inserted to form a surface joint between the adjacent, mutually substantially parallel edge portions of two concrete construction parts 1 and 2. The dilatation joint device 3 is prefabricated in its entirety in lengths of t .ex. 1-5 m and comprises two opposite side elements 4, 5, which consist of elongate, rather rigid strips with a width of e.g. 10 - 50 mm, in particular about 25 mm, and a thickness of tfex.-0.3 - 1.0 mm, in particular 0.8 mm. These strips may consist of polyester fiber-woven epoxy plastic, for example in the form of such construction elements as are described in Swedish patent application 7901093-0. It is also conceivable to use such materials as are used in roofing felt.

In order to achieve the desired adhesion to the structural parts 1, 2, the side element strips 4, 5 are suitably provided on their outer faces facing each other with a self-adhesive adhesive layer 6 and 6, respectively. 7, for example consisting of bitumen material with rubber admixture, such as the material marketed under the BETUTEN brand. In a manner known per se, the adhesive layer on the prefabricated joint device is provided, each e.g. 8003090-1 with a protective paper, which is peeled off in connection with the assembly between the construction parts 1, 2 and is therefore not shown in the drawing. As an alternative to self-adhesive adhesive layers 6, 7, the side element strips 4, 5 of the joint device can be glued during assembly, for example by means of epoxy-based adhesives with hardeners which provide excellent adhesion to the concrete.

Between the side elements 4, 5 the joint device has at least two elongation parts 8 and 8, respectively, separated in the depth of the joint. 9 of elastic material, which elongation parts between them form a space or shaft which serves as a ventilation duct 10. These elongation parts 8, 9 have an extent (in the unloaded state) in the width direction of the joint of e.g. 10 - l00 mm and in depth 6 - 8 mm. As a material, silicone pulp can be used to advantage, but other elastomeric materials with sufficient tensile strength and adhesiveness can also be used, for example a mixture of polyurethane and soft epoxy plastic.

Preferably, the outer elongation part 8 is diffusion-tight, while the inner elongation part 9 is gas-permeable, in particular for air and water vapor. As a result, the supply of air to the ventilation duct 10 can take place internally along the entire length of the joint 3. Such a permeability can be achieved by receiving preferably small holes or slits in the elongation part 9 and / or by this being made of a porous gas-permeable elastomeric material. Commercially available silicone rubber materials of so-called "open" type which is excellent in this context.

A certain gas permeability can also be achieved by the inner elongation part 9 'being attached, preferably by means of a self-adhesive adhesive layer 11, only to one side element 4', as shown in Fig. 2. In this embodiment an air gap 12 is suitably formed between the for example, the strain member 9 'and the opposite side member 5' are formed as a window sealing strip, at least in the unloaded condition. During assembly, the elongation member 9 'serves as a spacer, so that the side members 4', 5 'will not convexly converge towards each other, especially if the side members 4', 5 'are glued to the structural members by means of epoxy-based adhesives or putty knife. Furthermore, the outer V-shaped portions of the side elements 4 ', S "(calculated in the depth of the joint) diverge in the region of the elongation part 8', the edges of the structural parts being chamfered in a corresponding manner, so that increased strength is achieved.

As mentioned above, it is suitable to prefabricate the joint device in certain lengths. Such length units can be easily spliced, for example by tubular splice pieces which are fitted internally in the ventilation duct. unit. 7 The drawing shows construction elements of concrete or lightweight concrete. However, it is in principle possible with the joint device according to the invention to create joints between other materials or between concrete on the one hand and some other material on the other hand. Furthermore, the ventilation duct 10 does not have to form a vertical shaft but can be horizontally or inclined after mounting. It should be ensured, however, that the ventilation duct 10 at the end of the jointing device or of a series of jointed jointing devices has an outlet, through which air, in particular moist air, can be extracted.

In this description and in the claims it is stated that the elongation parts 8 and 9 must be "separated" in depth from each other.

Without departing from the spirit of the invention, however, it is conceivable to connect the parts 8 and 9 to one or more body pieces. The essential thing is that one or more ventilation ducts are formed and that the elasticity of the joint device enables strong dilatation movements, the simultaneous attachment being very effective thanks to the relatively large adhesion surface.

Claims (4)

5 Sooso9o-1 P A T E N T K R A V A prefabricated expansion joint device for forming a movable, tight joint between two structural parts (1,2), in particular concrete structural parts, which joint device (3) comprises two side elements (4,5) for sealing fastening to each of said structural parts and two intermediate 'Deeply separated elongation elements (8,9) consisting of elastomeric material, namely an outer and an inner elongation part (8 and 9, respectively), characterized in that the side elements consist of two elongate, rather rigid strips (4,5), each having a large, outer surface for adhesive attachment to the respective structural part (1,2), that the two strips (4,5) are held together by said separate elongation elements, which between them form an elongate, such as ventilation duct service space (10), and that the outer elongation part (8) is diffusion-tight, while the inner elongation part (9) is gas-permeable along its entire length. Dilatation joint device according to claim 1, characterized in that the internal elongation part (9) consists of a gas-permeable elastomeric material. Dilatation joint device according to claim 2, characterized in that the inner elongation part (9 ') is attached, preferably by means of a self-adhesive adhesive layer (11), to only one side element (4'). Expansion joint device according to one of Claims 1 to 3, characterized in that at least the external parts, calculated in the depth of the joint, the portions of the side elements (4 ', 5') diverge outwards.