DE69600413T2 - INJECTION PLUG AND INJECTION METHOD - Google Patents

Abstract

A packer and a corresponding method for filling cracks in concrete structures with packing material pumped into the crack. The packer comprises a packer body (1) designed to be inserted into a hole (2) drilled in the structure to be repaired, said packer body having a part (8) with a conical outer surface and a seal (7) around the packer body; a fixing tube (13) which, when the packer is in the hole, protrudes out of the hole; and a check valve (6) in the packer body, located on the opposite side of the seal with respect to the fixing tube, which check valve opens into the hole and communicates with the outer end (4) of the fixing tube via a hole (5) going through the packer body and the fixing tube. According to the invention, the packer body and the fixing tube form a single, continuous cast integral body and the seal (7) consists of an elastic tube of constant circular cross section which can slide between and around the fixing tube and the conical part (8) of the packer body.

Description

The present invention relates to a plug as defined in the preamble of claim 1 and an injection method as defined in the preamble of claim 9.

In concrete structures such as bridges, reinforcing walls, foundations, pillars, beams and various underground underpasses, cracks occur when the stress exceeds the tensile strength of the concrete. Such cracks significantly reduce the strength and service life of the structure. The formation of cracks is most often due to factors resulting from faulty construction, overloading, movement of structures, excessive structural connections or poor workmanship. Such cracks, generally less than one millimeter wide, extending over a large area and reaching the reinforcement, reduce the service life of the structure because the reinforcement is subject to faster corrosion and result in reduced strength of the structure. In particular, the cracks appearing in the stone often lead to significant water damage because water flows through them into the structures.

Basically, it is believed that a cracked structure can be restored to its original strength by the injection process. Injection is basically carried out by pumping material into the crack through a plug using the pressure generated by a manual or mechanical injection device, plugging the crack with the mixture hardening within it. The mixture is introduced using disposable connectors placed in holes made in or around the crack so that they remain in position while a liquid mixture is pumped into the crack. A suitable injection pressure and the distances between injection points are determined by a preliminary test carried out before operation.

A known device commonly used in the method described above is a plug comprising a rubber seal around a plug placed in the hole. The rubber seal is held in place by a tightening sleeve which is placed at the outer end of the Plug is placed, pressed into the hole, the sleeve being threaded. When the sleeve is screwed onto the plug, it causes the seal to be pressed against the inner surface of the hole. The inner end of the plug is provided with a check valve formed by a ball and a spring, designed to prevent the mass pressed into the crack/cleft from flowing back through the plug. After use, the tightening element can be detached from the rest of the plug so that it can be used several times.

Patent specification CH-A-644662 and patent applications WO-A-84/01601 and FI-A-821905 show plugs which, in terms of structure and operation, essentially correspond to those described above.

The worst problem with the known plugs is that they are of a complicated construction and therefore expensive. The task of connecting the mounting tube to the plug and especially of disconnecting it, often in difficult working conditions, delays the injection task considerably. Depending on the task, up to thousands of the plugs are needed, so their use should be as quick and as simple as possible; because they are needed in large numbers, if they are expensive they entail significant additional costs.

The object of the present invention is to eliminate the above-mentioned disadvantages. A particular object of the invention is to produce a new type of plug which is as simple as possible both in terms of construction and use and reliably seals and closes the hole in all possible pressure conditions.

As regards the characteristic features of the invention, reference is made to the claims.

The plug of the invention comprises a plug body adapted to be inserted into a hole drilled in a structure to be repaired, the plug body having a portion with a conical outer surface, a seal being provided around the plug body. Furthermore, the plug comprises a mounting tube which, when the plug is in the hole, protrudes from the hole, and a check valve in the plug body which is arranged on the opposite side of the Seal is arranged and opens into the hole, the test valve communicating with the outer end of the mounting tube via a hole passing through the plug body and the mounting tube.

According to the invention, the plug body and the fastening tube are implanted as a single, continuously molded integral body, preferably made of plastic by injection molding. Furthermore, the seal according to the invention is as simple in construction as possible, in other words, it consists of an elastic hose/tube of constant, circular cross-section, which can slide between and around the fastening tube and the conical portion of the plug body, in other words, the seal is a straight piece of elastic tube.

The outer end of the mounting tube is preferably provided with a pulling stop, such as a lobe, shoulder, impression or other irregularity or relief of the surface, which allows the plug to be firmly gripped with a suitable tool so that it can be violently pulled out of the hole while the seal is held in place in the hole. Preferably the outer end of the mounting tube is shaped so that the nozzle of the injection device can be closely connected to the plug without a separate injection tip or grease nipple.

The inner end of the conical plug body of the plug, such as the body end facing the test valve, is preferably provided with a limit stop, such as an annular collar, which forms a stop that strikes the stationary seal when the plug is withdrawn from the hole. Thus, the limit stop prevents the plug from being withdrawn too far. The flange takes up the back pressure generated during the course of the injection operation and uses this pressure to squeeze the plug more tightly into the wellbore.

The valve at the inner end of the body is formed by a transverse opening in the body, the plug body being provided with a longitudinal hole extending from its outer end towards the inner end down to this transverse opening, and by an elastic sleeve arranged at the outlet or outlets of the transverse opening. Due to its elasticity, this sleeve blocks the outlet or outlets at normal conditions, and thus serves as a test valve during injection. The elastic sleeve also preferably consists of a straight piece of the elastic tube.

In the injection method of the invention, the plug according to the invention described above is used. In the method, the unitary integral body formed by the mounting tube and the plug body is inserted with a handle through the mounting tube into a hole drilled in the structure to be repaired. The integral body is sealed in the hole by holding the gasket around it immobile in the hole and pulling on the mounting tube by its outer end, causing the gasket to be squeezed between the inner surface of the hole and the conical part of the plug. Sealing material can then be pumped through the plug into the hole. Either immediately thereafter, or later, after the injected mass has settled, the portion of the mounting tube remaining outside the hole is broken off, for example by simply applying a cross-cut to the base of the mounting tube, whereupon the hole can be repaired.

The plug and the injection method of the invention have decisive advantages, compared to the prior art. The invention is very simple in construction, consisting only of a body piece, which can be manufactured in a simple manner, for example by the injection molding technique, and two tubular sheaths of elastic material arranged around it. Thus, the plug is very cheap to manufacture. Furthermore, the plug is easy to use and can be fitted in place using a suitable tool with one hand and only a small effort. In addition, the plug can be easily broken off from the hole, leaving the pressure in the structure, so that the hole can be closed even in connection with the same operation.

In the following, the invention is described in detail with the help of the accompanying drawings, in which

Fig. 1 shows a partially sectioned plug as provided by the invention,

Fig. 2 shows how the plug from Fig. 1 is inserted into a hole, and

Fig. 3 shows the plug according to Fig. 1 fitted in a hole and ready for use.

A plug according to the invention as shown in Fig. 1 comprises an elongate plug body 1 having a respective pointed inner end 3 and a tubular mounting tube 13 forming a straight and seamless extension of the plug body and provided with an outer end 4 having a round shape resembling a grease nipple. Within the plug body and mounting tube there is an elongate hole 5 extending from the outer end 4 to a point near the inner end 3 of the plug body, opening to the outer surface of the plug body via a transverse opening 11.

A resilient rubber sleeve is arranged around the transverse opening 11, covering the outlets of the opening 11. Thus, the transverse opening 11 and the sleeve 12 form a check valve which allows the outward flow from the hole 5 through the opening 11 and out beneath the sleeve 12, while preventing the backflow back into the hole 5.

The plug body 1 comprises a conical section 8 of circular cross-section which extends from the valve towards the outer end of the plug body and tapers towards the outer end and the mounting tube. Behind the conical section there is a mounting tube 13 of uniform thickness which terminates at a shoulder or pull stop 9. The conical section 8 thereby widens towards the inner end 3 of the plug body 1 which terminates in front of the valve at an extension of the plug body, a circular collar forming a boundary 10. An annular collar is also formed on the plug body 1 on the side facing the test valve 6 so that the pressure prevailing in the hole is applied to this collar and the plug body is pressed outwards and the plug is sealed in a manner to be described later. Around the straight fastening tube 13 and the conical section 8 is fitted a seal 7 made of elastic and flexible material, for example a piece of rubber hose, which is of a size that allows it to slide on both the straight section and the conical section between the pull stop 9 and the limiter 10. The length of the seal 7 is considerably shorter than the length of the fastening tube 13 and the conical section 8 together.

Referring to Figs. 2 and 3, the plug as shown in Fig. 1 is used as follows. A hole 2 has been drilled in the structure to be treated. In concrete structures, the opening of the hole is generally more or less roughened. The plug is inserted into the hole with the seal 7 substantially in the area of the straight mounting tube 13. The plug is inserted to a depth such that the seal 7 lies completely in the undamaged hole area, slightly recessed from the opening of the hole. Next, pressure is applied to the upper edge of the seal 7 in the direction of arrow A to hold it in position, while at the same time the pulling stop 9 is gripped at the outer end 4 and it is pulled straight outwards as indicated by arrow B. The plug is preferably fitted by using a special fastening tool, whereby the seal can be held in position and at the same time a pull is exerted on the pulling stop. When this is done, the conical section 8 of the plug body 1 is pushed into the seal 7, whereby the seal presses against the inner surface of the hole. The pulling action B is continued until the limiter 10 abuts the lower edge of the seal 7. In this way, the seal is squeezed very tightly between the conical surface 8 and the inner surface of the hole 2, whereupon it is possible to fit, in a manner known per se, a hose or plug to the outer end 4 of the plug body 1 in order to inject suitable filling material into the hole 2, while the check valve 6 prevents the mass from flowing back into the hole 5. The conical shape of the body ensures that the plug is not forced out of the hole by counter pressure generated in the hole and the crack, because the pressure is applied to the body 1 and in particular to the flange 10 which is pressed against the seal 7, thereby squeezing it even more tightly into the hole.

The plug is preferably made of a suitable plastic material, for example by injection molding, and the portion of the plug remaining above the seal 7 can easily be broken off from the hole 2 and the hole can be covered by using a suitable material. According to the tests carried out, the plug of the invention is completely pressure-proof, exhibiting a pressure resistance of at least 250 bar, but it also functions perfectly in low-pressure injections involving the use of pressure lower than 10 bar.

The invention has been described above by way of example with the aid of the accompanying drawings, but different embodiments of the invention are possible within the scope of the claims.

Claims (9)

1. Plug for filling cracks/gaps in concrete structures, whereby sealing material is filled into the crack/gaps, whereby the plug comprises - a plug body (1) designed to be inserted into a hole (2) drilled into the structure to be repaired, the plug body having a portion (8) with a conical outer surface, a seal (7) being provided around the plug body, - a fixing tube (13) which, when the plug is in the hole, protrudes from the hole, - a test valve (6) in the plug body, arranged on the opposite side of the seal in relation to the fastening tube, the test valve opening into the hole and communicating with the outer end (4) of the fastening tube via a hole (5) passing through the plug body and the fastening tube, characterized in that the plug body and the fastening tube form a single, continuously cast integral body and the seal (7) consists of an elastic hose/tube of constant circular cross-section which can be slid between the fastening tube and the conical section (8) of the plug body and around them. 2. Plug according to claim 1, characterized in that the outer end of the fastening tube (13) is provided with a pull stop (9) by which it can be pulled outwards. 3. Plug according to claim 2, characterized in that the pulling stop (9) consists of a projection at the outer end of the fastening tube. 4. Plug according to one of claims 1-3, characterized in that the further end of the conical portion (8), the end pointing to the test valve, is provided with a limiter (10) which is pulled upwards into contact with the edge of the seal (7) when the plug is fitted in the hole. 5. Plug according to one of claims 1-4, characterized in that the test valve (6) is formed by an outlet opening (11) transverse with respect to the longitudinal direction of the hole (5) and that an elastic sheath (12) covers it. 6. Plug according to claim 5, characterized in that the elastic sheath (12) consists of a straight elastic tube of constant circular cross-section. 7. Plug according to claim 1, characterized in that the integral body is a plastic body which is manufactured by means of injection molding technology. 8. Plug according to claim 1, characterized in that the fastening tube (13) forms a straight extension of uniform thickness up to the conical section (8) of the plug (1). 9. Injection method for filling cracks/gaps in concrete structures, wherein sealing material is filled into the crack/gaps via a plug, comprising - a plug body (1) adapted to be inserted into a hole (2) drilled into the structure to be repaired, the plug body having a portion (8) with a conical outer surface and a fine seal (7) around the plug body, - a fixing tube (13) which, when the plug is in the hole, protrudes from the hole, - a test valve (6) in the plug body, arranged on the opposite side of the seal in relation to the fastening tube, the test valve opening into the hole and communicating with the outer end (4) of the fastening tube via a hole (5) passing through the plug body and the fastening tube, characterized in that the method comprises carrying out the following steps: - the unitary, injection-molded integral body formed by the fastening tube (13) and the plug body (1) is inserted into the hole (2), - the integral body is sealed in the hole by holding the seal (7) immobile in the hole and pulling it outwards from the fastening tube, - the sealing material is pumped through the plug into the hole, - the section of the mounting tube that remains outside the hole is broken off, and - the hole will be repaired.