EP0906479A1

EP0906479A1 - Injection hose and method of producing it

Info

Publication number: EP0906479A1
Application number: EP97929249A
Authority: EP
Inventors: Alexander Bleibler
Original assignee: Sika AG
Current assignee: Sika Schweiz AG
Priority date: 1996-06-25
Filing date: 1997-06-21
Publication date: 1999-04-07
Anticipated expiration: 2017-06-21
Also published as: DE59701591D1; US6268031B1; WO1997049876A1; JP2000512699A; AU712472B2; ES2146473T3; ATE192523T1; DE19625209A1; AU3342497A; JP3181061B2; EP0906479B1

Abstract

An injection hose intended for sealing expansion joint in concrete structures. The hose is in the form a continuous hollow extrusion (12), made of elastic, flexible material, with a continuous longitudinal bore (10) and at least one longitudinal groove (16). The groove (16) is connected to the bore (10) by means of apertures (22) in the wall of the extrusion and is fitted with a sealing strip (24), made of compressible, elastic material, which extends over the apertures (22). Production of the hose is made particularly simple and inexpensive by virtue of the fact that the width of the groove openings (26) is less than the diameter of the sealing strip (24) and that the means of holding the sealing strip (24) in place are formed by making undercuts in the side (30) of the groove (16).

Description

Injection hose and method for its manufacture

description

The invention relates to an injection hose with a profile strand made of flexible, elastically resilient material, which has a continuous longitudinal channel and at least one continuous channel which communicates with the longitudinal channel via openings at the bottom and is delimited by lateral groove flanks and essentially at a groove opening has radially open longitudinal groove, and with a sealing cord, which is arranged in the longitudinal groove and is held in place by holding means, and which crosses the breakthroughs and is made of rubber-elastic, preferably compressible material. The invention further relates to a method for producing such an injection hose.

Injection hoses of this type are mainly used for the permanent sealing of construction and movement joints on structures, especially on concrete structures. For this purpose, the injection hose inserted into the joint during the concreting process is pressurized via the longitudinal channel with a curable sealant in liquid or pasty form so that the sealant is injected through the openings while lifting the sealing cord into the joint to be sealed. An injection hose of this type is known (EP-A-0 522 327), in which the holding means for sealing cords loosely inserted into the longitudinal grooves are made from a stocking which is pulled over the profile strand thin material which is permeable to liquid or which dissolves under the action of the injection liquid. The covering of the holding stocking over the loosely inserted sealing cords and the fixing of the holding stocking at the ends of an elongated profile strand cause considerable difficulties in terms of production technology, which lead to an increase in the price of the product. This disadvantage is particularly noticeable in the case of a non-round cross section of the profile strand. The handling of the profile strand covered with the holding stocking also leaves something to be desired in practice.

Proceeding from this, the invention is based on the object of developing an injection hose of the type specified at the outset and a method for its production, with which the production can be simplified without a functional disadvantage and the handling of the injection hose can be improved.

To achieve this object, the combinations of features specified in claims 1 and 12 are proposed. Advantageous refinements and developments of the inventions result from the subclaims.

The solution according to the invention is based on the idea that, with a suitable shape of the profile strand, the use of a holding stocking without any functional disadvantage can be dispensed with entirely. To achieve this, it is proposed according to the invention that the opening width of the groove opening is smaller than the diameter of the sealing cord and that the Holding means are formed by undercuts in the groove flanks of the longitudinal groove. With these measures it is achieved that the sealing cord can be clamped sufficiently firmly in the longitudinal groove due to its inherent elasticity, so that it is not lost when the injection hose is wound onto a transport roller, when it is cut to length from the transport roller and during handling. The sealing cord seals the longitudinal channel against the ingress of liquid from the outside, while when the longitudinal channel is pressurized with liquid sealant, it releases an exit gap for the sealant to the outside without being displaced from the longitudinal groove. This also ensures that, after the injection process has ended, the passage gap closes again automatically, so that the longitudinal channel can be sucked empty again from the outside without liquid entry.

A preferred embodiment of the invention provides that the diameter of the sealing cord is greater than the depth of the undercut longitudinal groove, so that part of the sealing cord inserted into the longitudinal groove protrudes radially beyond the groove opening and is constricted by the groove edge. For this purpose, the groove flanks in the area of their edges on the opening side are advantageously bent in a hook-like manner towards the inside of the groove. In principle, it is also possible for the groove flanks to form dovetail undercuts for this purpose. A further preferred embodiment of the invention provides that at least one further longitudinal groove, which is closed with respect to the longitudinal channel, undercut on its side flanks and is open on the outside, is provided, in which an elastically resilient, flexible sealing strip made of material which swells under water absorption is form-fitting is arranged. With such a sealing strip it is achieved that when water enters a joint, the sealing strip swells outwards from the relevant longitudinal groove and seals the joint against water penetration.

The profile strand expediently has a polygonal, preferably triangular profile with a centrally arranged longitudinal channel, on the profile corners of which the longitudinal grooves provided with the openings at the bottom and fitted with the sealing cords are arranged. The profile grooves which are closed to form the longitudinal channel and are equipped with the swellable sealing strips are expediently arranged in the essentially flat profile sides of the profile strand in this embodiment.

While the profile strand expediently consists of a rubber, preferably of EPDM rubber, the sealing cords are expediently made of a compressible foam rubber. The sealing strips swelling under the action of water can consist of a rubber mixed with a swelling agent such as urethane resin, polyvinyl alcohol or acrylic resin. In the manufacture of the injection hoses, the profile strand consisting of a rubber is extruded over a mandrel that creates the longitudinal channel by introducing the undercut longitudinal grooves and then vulcanized and cooled by the process according to the invention, before or during the vulcanization process at least in part of the longitudinal grooves of the profile strands which are transported over the mandrel and which are spaced apart from one another are pressed in with material displacement. Subsequently, sealing cords and / or sealing strips unwound from the side from a supply roll are fed to the extruded and cooled profile strand which has been cooled off and pressed into the associated longitudinal grooves. The flexible profile strand thus assembled is finally rolled up in batches on transport rollers and cut to the desired length.

The invention is explained in more detail below with reference to the drawing. Show it:

1 shows a view of an injection hose in a diagrammatic, partially sectioned illustration;

FIG. 2 shows a schematic of the process sequence in the manufacture of the injection hose according to FIG. 1.

The injection hose shown in the drawing is for sealing construction and movement joints in Concrete structures determined. It has a central longitudinal channel 10, which is essentially triangular in cross-section and is provided with longitudinal grooves 16 in the area of its corner edges 14 and with longitudinal grooves 20 in the area of its side faces 18. The longitudinal grooves 16 communicate with the longitudinal channel 10 via spaced-apart openings 22 on the bottom and are equipped with sealing cords 24 made of a rubber-elastic, resilient and compressible material, such as foam rubber. The opening width of the groove openings 26 is smaller than the diameter of the sealing cords 24. Since the groove depth is also smaller than the diameter of the sealing cords 24, the sealing cords 24 reach out through the groove openings 26 and become in the area of the opening gap constricted by the inwardly curved edges 28 of the groove flanks 30 in the manner shown in FIG. 2. The sealing cords 24 overlap the openings 22 within the longitudinal grooves 16 and thereby seal the longitudinal channel against the ingress of liquid from the outside. If, on the other hand, the longitudinal channel 10 is pressurized with a liquid injection agent, the flexible sealing cords 24 open passage gaps for the injection agent to exit to the outside without being pushed out of their longitudinal groove 16. Examples of suitable curable liquid injection agents are water-miscible, reactive-curing synthetic resins, vinyl ester-based resins, polyurethane resins, fine cement, epoxy resins or the like. The longitudinal grooves 20 arranged in the side surfaces 18 of the profile strand 12 are closed on the bottom side towards the longitudinal channel 10. They have dovetail-shaped undercut groove flanks 32 and contain a sealing strip 34 which swells under the action of water and is anchored in the groove in a form-fitting manner. In the event of water ingress, the sealing strip can swell to a multiple of its volume with a suitable choice of material and can seal a gap formed between the profile strand 12 and an adjacent concrete surface against water penetration.

It can be seen from the functional diagram according to FIG. 2 that the plastic molding compound intended for the production of the profile strand 12 is fed to an extruder 40 via the inlet 42 and is pressed by means of a drive 44 through a shaping tool 46 over a mandrel 48. The metal mandrel 48 provides for the formation of the longitudinal channel 10 in the extruded section and also serves as the knuckle rollers 52 with which the openings 22 in the area of the longitudinal grooves 16 are introduced into the still plastic extruded material. The profile strand is cured in the vulcanization and cooling section 54, which can be several tens of meters long, depending on the extrusion speed. In a finishing stage 56, the sealing cords 24 and sealing strips 34 drawn off from supply rolls 58, 60 are fed continuously to the passing profile strand 12 and rolled into the associated longitudinal grooves 16, 20. The profile strand 12 pre-assembled in this way is finally partied as wound on transport rollers 62 and cut to the desired length in the cutting station 64. In summary, the following can be stated: The invention relates to an injection hose which is intended for the sealing of construction and movement joints in concrete structures. The injection hose has a profile strand 12 made of flexible, elastically flexible material, which has a continuous longitudinal channel 10 and at least one longitudinal groove 12. The longitudinal groove communicates with the longitudinal channel through openings at the bottom and is equipped with a sealing cord 24 made of elastically resilient, compressible material that extends over the openings. A particularly simple and inexpensive manufacture of the injection hose is made possible by the fact that the opening width of the groove openings 26 is smaller than the diameter of the sealing cord 24 and that the holding means for holding the sealing cord are formed by undercuts in the groove flanks 30 of the longitudinal groove.

Claims

claims

1. Injection hose with a profile strand (12) made of flexible, resilient material, which has a continuous longitudinal channel (10) and at least one continuous, through openings at the bottom (22) with the longitudinal channel (10), through lateral groove flanks (30) has a longitudinal groove (16) which is delimited and open at a groove opening (26), and with a sealing cord (24) which is arranged in the at least one longitudinal groove (20) and is held in place by holding means (28) in it, which overlaps the openings (22) made of elastically resilient, preferably compressible material, characterized in that the opening width of the groove opening (26) is smaller than the diameter of the sealing cord (24) in the relaxed state, and that the holding means by undercuts in the groove flanks (30 ) of the longitudinal groove (16) are formed.

2. Injection hose according to claim 1 or 2, characterized in that the diameter of the sealing cord (24) is greater than the depth of the longitudinal groove (16).

3. Injection hose according to claim 1 or 2, characterized in that the groove flanks (30) in the region of their opening-side edges (28) are bent in profile like a hook towards the interior of the groove.

4. Injection tube according to one of claims 1 to 3, characterized by at least one further longitudinal groove (20), which is closed with respect to the longitudinal channel (10), undercut on its side flanks (32) and open on the outside, in which an elastically flexible, flexible sealing strip (34) is made of swellable water Material is arranged positively.

5. Injection tube according to one of claims 1 to

4, characterized in that the groove flanks (30) have dovetail undercuts.

6. Injection tube according to one of claims 1 to

5, characterized in that the profile strand (12) has a polygonal, preferably triangular profile, on the profile corners (14) of which the longitudinal openings (20) provided with the openings (22) on the bottom and equipped with the sealing cords (24) are arranged.

7. injection hose according to claim 6, characterized gekenn¬ characterized in that the longitudinal channel (10) is arranged centrally within the profile strand (12).

8. Injection hose according to claim 7 or 8, characterized in that the to the longitudinal channel (10) ge closed, with the swellable sealing strips (34) equipped longitudinal grooves are arranged in the profile sides of the profile strand (12).

9. Injection tube according to one of claims 1 to

8, characterized in that the profile strand consists of a rubber, preferably of EPDM rubber.

10. Injection tube according to one of claims 1 to

9, characterized in that the sealing cords (24) consist of foam rubber.

11. Injection tube according to one of claims 4 to

10, characterized in that the sealing strips consist of rubber with swellable additives.

12. A method for producing injection hoses according to any one of claims 1 to 11, characterized gekenn¬ characterized in that the rubber section (12) over a longitudinal channel (10) generating mandrel (48) with the introduction of the rear cut longitudinal grooves (16, 20) are extruded and then vulcanized and cooled, that before or during the vulcanization process at least in some of the longitudinal grooves (16) of the profile strand (12) transported over the mandrel (48), spaced-apart floor openings Material displacement are pressed in, that sealing cords (24) and / or sealing strips (34) are fed in from the side to the extruded and cooled profile strand (12), which has been drawn off and cooled, and into the associated longitudinal grooves (16, 20). are pressed or rolled in, and that the pre-assembled flexible profile strand (12) is rolled up and cut to length on transport rollers (62).