DE2413340A1 - Bridging joint gap between building components - with waterproof adhesive layers joined by expansible filler layer - Google Patents

Abstract

The purpose is to provide a joint covering for the gap between the walling of two building components, which has been left wide enough to permit independent movement requiring a common sealing that will be flush with the surfaces of both of them, and preventing penetration by moisture from outside. In the area of the joint gap concerned, an adhesive layer, of waterproof synthetic resin, or similar material, is applied to each of the building components, and a connecting, expansible layer of filler material, such as putty in layers of varying degrees of hardness, is set between these layers. The filler layer may also be a strip of polyethylene, and it may be tapered in shape, for stress equalisation. Durable damp-proofing is attained.

Description

Jürgen Jora 2000 Hamburg 73 Ellerneck 69 Gerhard Schnell 2166 dollars / Krs. Stade Lärchenweg Process for lining items lying between body walls Put.

The invention relates to a method for lining between body walls lying joints with an expansion-absorbing plastic composite material.

In civil engineering, structures often have to be built separately from one another be connected to each other. This connection must be designed so that everyone Building body can perform independently of the other movements. To this end there are joints between the structures that are so wide that the Structures are not hindered in their mutual movements.

To connect the two structures with each other, the joints are made with lined with a plastic composite material. In this way, one is supposed to a common surface passing from one structure to the other on the other hand, by lining the joint with composite material it prevents moisture from outside into the joint and thus into each other opposite body walls of the building can penetrate.

Joint linings have been made in the form that a filler, for example a strand adapted to the joint cross-section, into the Joint was inserted. A filler layer of hardening material was applied to this strand Material applied and on the surface level of the interconnected Structure passed. A hardening synthetic resin is preferred as the filling layer used. This initially adheres to the body walls to be connected to one another with sufficient security against leaks. With increasing age however, the filling layer very often tears them off from the body walls. The thereby The resulting cracks are permeable to water, so that moisture can penetrate the joint can. It shares the existing, for example, water-permeable concrete Body walls, penetrates them and leads to moisture penetration inside of the building.

The object of the present invention is therefore to provide a joint lining to produce so that the penetration of moisture into the joint even after a longer life of the structure is prevented.

This object is achieved according to the invention in that on the body walls a waterproof adhesive layer adhering to them is applied in the area of the joint and between the adhesive layers an elongated filler layer connecting them will be produced.

The adhesive layer clings to the body wall on the one hand, on which it is applied, and on the other hand with the filler layer filling the joint. In this way there is between the layers among themselves and between the adhesive layer and the body wall created an intimate connection, which because of the deep in Clamping the adhesive layer with the penetrating pores of the body walls Material of the body wall provides a high level of security against tearing off the joint lining from the body wall offers.

According to a preferred embodiment of the invention, an outside the joint on the body walls provided cover layer over to the filler layer an intermediate carrier is connected and the intermediate carrier is over the impermeable Adhesive layer connected to the body walls. This way one can too the body walls provided cover layer waterproof and tear-proof with the Filling layer are connected. For example. is used in the production of road surfaces the covering layer of the concrete base body consisting of -asphalt with the filling layer connected via intermediate carriers.

Further details of the invention emerge from the following detailed description and the accompanying drawings, in which a preferred Embodiment of the invention is illustrated for example.

In the drawings: FIG. 1 shows a cross section through two together connected building structure, Fig. 2 shows a cross section through two provided with cover layers interconnected building structure, Fig. 3 shows a cross section through the connection of a vertically standing structure to a horizontally lying structure and Fig. 4 shows a cross section through a cover layer provided with an expansion joint.

A joint 1 is formed between two or more to be connected Structures 2, 3. These are opposite each other with body walls 4, 5 at a distance, which is large enough to introduce a filling layer 6 between the body walls 4, 5 to be able to. This must be dimensioned so thick that the amount introduced Filling material can absorb the changes in length of the structures 2, 3 that occur, without the essential part of the filling layer 6 being pressed out of the joint 1.

To connect the filling layer 6 with the structures 2, 3 is on an adhesive layer 7 is applied to the body walls 4, 5 in the area of the joint 1. These can preferably consist of a synthetic resin if, for example, the structure 2, 3 are made of concrete. The adhesive layer 7 penetrates deep into the pores of the body wall 4, 5 and represents an intimate connection with them.

In the interior of the joint 1, a strand 8 is inserted, its profile can have a favorable design for the design of the filling layer 6. For example the strand 8 can have a round cross-section. In this way, the The shape of the filling layer 6, which adapts to the strand 8, provides a compensation of longitudinal expansion of the building 2, 3 favorable cross-section.

The joint 1 is made as follows: First, the body walls 4, 5 coated with the adhesive layer 7. Then the strand 8 is so in the Joint 1 inserted so that it touches the body walls 4, 5 on both sides. These points of contact can, for example, face one another in the case of a cylindrical configuration of the strand 8. The remainder of the joint 1 is then filled with the filling layer 6 on both sides of the strand 8. This is leveled with the surfaces of the structures 2, 3. The filling layer 6 adapts to the training of the strand 8. In this way they are the body walls 4, 5 adjacent parts of the filling layer 6 are made thicker than the cross section the filling layer 6 in the area of the middle of the joint 1.

This tapering of the cross-section in the area of the middle of the joint 1 improves the elongation behavior of the filling layer 6. The elongations take place essentially in the tapered part of the filling layer 6 located in the middle of the joint 1, while the parts of the filling layer 6 adjacent to the adhesive layer 7 are less pronounced be stretched. Due to their greater thickness, these form a better adhesive surface with the adhesive layer 7 as if only a contact area of the thickness of the Cross-section in the area of the joint center would be available.

According to the invention, those provided with a cover layer 109 can also be used Structures 102, 103 are connected to one another. The cover layer 109 can be connected to the filling layer 106. This connection is made via intermediate carriers 110, which are designed so that they on the one hand with the filling layer 106 and on the other hand can form a watertight connection with the cover layer 109. Also must the intermediate carrier 110 is watertight with the structures 102 via the adhesive layer 107, 103 are connected. For this purpose, the adhesive layer 107 is not only applied to the the body walls 104, 105 forming the joint 101 are applied, but also on the surface 111 of the structures 102, 103 adjacent to the cover layer 1o9, which, together with the body walls 1o4, 105, form the edges of the structures 102, 103 form.

Such joints between structures 102, 103 with a cover layer 109 are occupied, are produced in the following way: First, the body walls 104, 105 and the surfaces 111 adjacent to them coated with an adhesive layer 1o7.

The strand 108 serving as a filler is then inserted into the joint lol inserted. The filling layer 106 is applied to this.

The connection between the cover layer is then loosened Intermediate carrier llo producing filler layer 106 is cast. The intermediate carrier llo and the filling layer 106 are smoothed out at the level of the covering layer 1o9. To ensure a good connection between the intermediate carrier llo and the cover layer 1o9 to produce, the adjacent edges of the cover layer 1o9 and des Intermediate carrier llo beveled in the same direction. This way it becomes the interface between the cover layer 109 and the intermediate carrier llo enlarged, so that a good connection is made.

In addition, the beveled surfaces can form boundary layers, which can easily be moved against each other in the sense of the incline, if% 9ageradehnuaagen need to be balanced.

The connection of the building structure 102 provided with cover layers 1o9, 103 is used in particular in road construction. The cover layer 1o9 consists of this made of asphalt, which is applied to the concrete road base. In these and similar cases, the individual layers 106, 11o be made as abrasion-resistant as possible. For this purpose, the filling layer 106 divided into a softer lower part 112 and a harder upper part 113 be.

The harder upper part 113 is used by the tires of those using the road Vehicles acted upon and sets a corresponding abrasion resistance due to its hardness opposite.

The filling layer 106 preferably consists of a hardening joint filler. This connects in a favorable manner with the adhesive layer 107. By adding a When hardened, the joint putty for forming the harder part 113 becomes very resistant to abrasion.

The intermediate carrier 11o is preferably made of a tar epoxy resin. This is relatively expensive. To save the base mass consisting of tar epoxy resin this quartz sand can be added. In this way, the subcarrier also receives 11o good abrasion resistance and slip resistance.

According to the invention, building blocks 202, 203 can also be connected to one another of which only one has a cover layer 209. Such a connection comes into question, for example, when connecting a floor to a wall. In this case only the cover layer 209 of the structure 2n2 becomes via an intermediate carrier 210 connected to the filling layer 206: Otherwise, the joint 202 is on the already known way. First of all, the structure 202! 203 in the area the joint to be formed 201 adhesive layers 207 applied. Then it is used as a packing the strand 208 inserted. The joint 201 is filled with the filling layer 206. These is connected to the cover layer 209 via the intermediate carrier 21o In the case of the strand 8, 108, 208 it can be a polyethylene tape. This can besides that circular cross-section also have other cross-sectional designs. It offers it concerns the cross-section so choose that with his help the filling layer 6, 106, 206 is designed so that areas of particularly good elongation are formed in which the cross section of the filling layer 6,106, 206 correspondingly is designed thin.

Cover layers 309 can also be used to compensate for thermal expansions a joint 301 made of tar epoxy resin.

This connection, designed as an expansion joint, can be used during manufacture the cover 309 can be provided. But it can also be moved to the one that has already been relocated later Cover 309 are introduced if this is, for example, as a result of thermal stresses is torn.

Instead of one strand 8, 108, 208, several strands in the Joint 1, lol, 201 should be provided. For example, it has been found to be very beneficial Proven to have a second strand 115 between the softer part 112 and the harder one Part 113 of the filling layer 106 to lay. This way the softer part gets 112 the possibility of moving with respect to the hardness ren part 113. aside from that the cross-section of the second strand 115 can be selected so that the softer one Part 112 is given a flexible thin expansion point.

Claims (18)

Patent claims: Method for lining joints between body walls with a stretch-absorbing plastic composite material, characterized in that that on the body walls (4, 5; 104, 105) in the area of the joint (1, lol, 201) a a water-impermeable adhesive layer (7, 107, 207) adhering to them is applied, and between the adhesive layers (7, 107, 207) a connecting, stretchable Filling layer (6, 106, 206) is produced. 2. The method according to claim 1, characterized in that one outside the joint (lol, 201) on the body walls (104, 105) provided cover layer (109, 209) connected to the filling layer (106, 206) via an intermediate carrier (110, 210) and the intermediate carrier (plot 210) over the waterproof adhesive layer (107, 207) is connected to the body walls (104, 105). 3. The method according to claim 1 and 2, characterized in that the Filling layer (6, 106, 206) with a tapered expansion area for compensation is made of tensions. 4. The method according to claim 1 to 3, characterized in that the Filling layer (6, 106, 206) at least inserted into the adhesive layer (7, 107, 207) Packing is poured. 5. The method according to claim 1 to 4, characterized in that by a corresponding design of the filling body the profile of the filling layer (6, 106, 206) is tapered. 6. The method according to claim 1 to 5, characterized in that the Intermediate carrier (110, 210) with beveled edges to the correspondingly beveled Covering layer (1o9, 209) is connected. 7. Joint lining for performing the method according to claim 1 to 6, characterized in that the adhesive layer (7, 107, 207) as an adhesive and wet insulating synthetic resin layer is formed. 8. joint lining according to claim 7, characterized in that the filling layer (6, 106, 206) consists of joint filler. 9. Joint lining according to claim 8, characterized in that the filling layer (6,106, 206) made of joint filler layers of different hardness is. lo. Joint lining according to claims 8 and 9, characterized in that that inside the joint (lol, 201) a soft joint filler layer (112) is provided is on the one of the joint (lol, 201) to the outside closing off hard joint filler layer (113) is applied. 11. Joint lining according to claim 8 to lo, characterized in that that the soft joint filler layer (112) inside the joint (lol, 201) on the Joint (lol, 201) final filler is applied. 12. Joint lining according to claim 8 to 11, characterized in that that the filling body consists of a strand (8, 108, 208) with a round cross-section, the surface of which the soft joint filler layer (112) adapts to form an arc. 13. Joint lining according to claim 8 to 12, characterized in that that dsr filler consists of a polyethylene tape attached to the to be connected Body walls (4, 5; 104, 105) on the adhesive layer (7, 107, 207) is liable. 14. Joint lining according to claim 8 to 18, characterized in that -that the covering layer (109, 209) made of asphalt and the intermediate carrier (110, 210) consists of a tar epoxy resin. 15. Joint lining according to claim 8 to 14, characterized in that that the tar epoxy resin to form the intermediate carrier (llo, 2lo) added quartz sand is. 16. Joint lining according to claim 8 to 15, characterized in that that in the joint (lol) several fillers are provided. 17. Joint lining according to claim 8 to 16, characterized in that that a filling body below the soft joint filler layer (112) and another Filler body is provided between the soft and the hard joint filler layer (113) is. 18. Joint lining for the formation of expansion joints, characterized in that that the joint filling consists of tar epoxy resin. L e r s e i t e