KR200190166Y1 - Unexcavated Inner Repair - Google Patents

Abstract

1.1 Field of Technology

Repair material repairing from inside without excavating pipeline

1.2 Purpose of devising

In case of repairing the internal part of the damaged part or the joint part without digging the pipeline, stainless steel wire mesh is added between the glass fiber layers impregnated with the adhesive resin solution and the cylindrical water-expanded rubber band is wrapped around the edges of both sides of the glass fiber layer. As a material to repair in a state, the objective is to reinforce the strength of a repair material and to improve index property.

1.3 Composition of the devise

The present invention is to repair the damaged part of the pipeline or the step portion of the joint without excavating the pipeline, by integrating the stainless steel wire mesh between the glass fiber layer impregnated with the adhesive resin liquid on the outer peripheral surface of the bonding machine, and then The cylindrical water-expanded rubber band is wrapped around both edges of the outer surface, and compressed air is injected to cure for a predetermined time while being in close contact with the inner wall of the broken part of the pipe or the stepped part of the joint, and then compressed air is discharged from the adhesive. It's been repaired.

1.4 Effect of Design

The present invention adds a stainless wire mesh between the glass fiber layers impregnated with the adhesive resin solution as described above, thereby reinforcing the strength of the repair material without being exposed to the outside. Expanded rubber bands are wrapped, which improves exponential properties.

Description

Unexcavated Inner Repair for Pipeline {.}

The present invention relates to a non-excavated internal repair material for pipes, and various underground sewer pipes, water supply pipes, and gas pipes are partially damaged, gaps or gaps are formed in the joints of the pipes, and external groundwater flows in from the outside. The present invention relates to a repairing material used to easily repair only a portion of the backfill soil in the state of being buried underground without digging a pipeline in the case of inflow or loss of sewage or sewage outflow. Conventionally, in case of repairing abnormal parts such as partially broken pipes or gaps or gaps in the joints of the pipes, the repairing material for repairing in the underground state is the first. There is a whole repair material that repairs by inserting the synthetic resin pipe into the whole section. Second, the repair material that partially repairs by impregnating the glass fiber in the adhesive resin liquid and curing it for the abnormal part using the adhesive resin liquid and glass fiber. Third, in addition to the adhesive resin and glass fiber, a stainless steel sheet configured to be wound in a cylindrical shape inside the material is additionally used as a reinforcing support tube, and the glass fiber is attached to the adhesive resin liquid on the outer circumferential surface of the stainless steel sheet. There are repair materials that harden after impregnation and partially repair the net. By, after adding a cylindrical rubber sheet on an outer circumferential surface of the stainless steel plate into a cylindrical shape by winding configured to integrally with a repair material for repairing partially. In the case of the first repairing material, it is necessary to insert a separate synthetic resin pipe inside the entire buried pipe between the manhole and the manhole, in order to repair only the necessary part, and complicated repair equipment is required. Due to the excessive construction cost, there is a problem of excessively increasing, and in the case of the second repairing material, the ground part of the pipeline buried underground is generally a road with frequent traffic in the city, so the impact load combined with the load and vibration due to the heavy vehicle traffic Displacement occurs in the repaired part for abnormal parts such as damaged part or joint part of the pipeline due to ground subsidence, etc. Problems such as shortened maintenance life due to relatively small strength In the case of the third repairing material, the stainless steel sheet added to the inner side for the purpose of reinforcing the strength of the repairing material or shortening the curing time of the repairing material is inevitable because the stainless steel sheet cannot be installed in the shape of the step of the pipe in the step portion of the pipe joint. The situation is that the cylindrical stainless steel plate is cut into two parts and installed step by step. In this case, the stepped part of the joint is actually the most vulnerable to external impact loads, and thus must be firmly repaired. There is a problem that there is no reinforcing effect of stainless steel plate, and in the case of the fourth repairing material, it is impossible to repair the stainless steel sheet in the shape of the step of the pipeline, and thus, the repairing material is common. Incense castle There are problems that need.

In order to correct the above problems, the present invention adds a stainless steel wire mesh that is easy to deform as desired for the reinforcement of the repairing material itself and can properly function as a composite material. A water-expanded rubber band was further wrapped. In other words, the underground part of the pipeline buried underground is usually a road with frequent traffic in the city, so that the impact load combined with the load and vibration due to the heavy vehicle's traffic acts on the pipeline or due to ground subsidence. In particular, the glass fiber layer impregnated with the adhesive resin liquid for the stepped joint or damaged part, which is the most vulnerable to external force, is cured by covering it with a length of 2 to 3 times the circumference of the circumferential length when the inner circumferential surface of the bonding machine is covered with repair. In this case, the stainless steel wire mesh is placed on the second glass fiber layer by the length of 1 times, integrated with the glass fiber layer impregnated with the adhesive resin solution, and the stainless steel wire mesh is not exposed to the outside to cover the adhesive and improve the index property. Cylinders several centimeters from both ends of the outer surface of the fiberglass layer Wrap the water-expanded rubber band and supply compressed air to the bonding machine to expand the rubber tube, and harden the glass fiber layer impregnated with the adhesive resin liquid wrapped on its outer circumference for a predetermined time while being in close contact with the inner wall of the pipeline. Compressed air is discharged from the pipe to form an unexcavated inner surface repair material. Here, the stainless steel wire mesh was selected as an example by evaluating that the repair material for adding the stainless steel wire mesh between the glass fiber layers impregnated with the adhesive resin was superior in terms of workability and adhesiveness compared to the stainless perforated plate, which is another object. In particular, the stepped portion of the pipe joint can exert strength reinforcement effect than the conventional repair materials, so if the conventional repair materials are compared to plain concrete in the case of concrete, the present invention corresponds to reinforced concrete, which can reinforce the strength of the repair materials. It works.

In addition, in order to improve the exponential properties of the water-retaining material, the water-retaining material of the present invention, which surrounds the cylindrical water-swollen rubber band several centimeters away from the end of the glass fiber layer impregnated with the adhesive resin solution, has water-swelling rubber attached to the edge of another embodiment. The workability is better than the repairing material that wraps the cylindrical rubber plate all over, and the rubber material is saved.

Figure 1 is a partial cutaway state showing the state immediately before repairing the stopper of the gluer of the embodiment of the present invention to the damaged portion of the pipe

Figure 2 is an enlarged incision state inflated by compressed air by stopping the adhesive of the embodiment of the present invention to the damaged portion of the pipe line

Figure 3 is a plan view of the repairing material is added to the stainless steel wire mesh portion of the glass fiber layer impregnated with the adhesive resin liquid as an embodiment of the present invention

4 is a cross-sectional view taken along the line A-A of FIG. 2, which is a repair material in which the repair of the pipeline is completed by removing the adhesive after the repair material is cured for a predetermined time while the adhesive is expanded on the damaged portion as the repair of the pipeline repair is completed.

5 is a cross-sectional view taken along the line B-B of FIG. 2 with a cylindrical water-expanded rubber band wound around a few centimeters from both ends of the outer surface of the repair material in a state in which the repair of the pipeline is completed.

^* Explanation of symbols for main parts of the drawings

1: Pipe line 3: Damaged part

5: gluer 7: CCTV camera

9: shifting rope 11: roller

13: compressed air injection hose 15: glass fiber layer

17: adhesive resin liquid 19: stainless steel wire mesh

21: cylindrical water-expanded rubber band

Referring to the accompanying drawings with respect to the configuration of the subject innovation in detail as follows. A compressed air injection hose 13 is connected to one front side of the cylindrical adhesive machine 5, and a positioning rope 9 is connected to both front and rear surfaces, and the front and rear parts of the adhesive machine 5 are rolled and moved. Roller 11 is installed, and in order to check the movement and working state of the gluer 5 during maintenance work, the pipeline camera is placed close to the CCTV camera 7 for pipe survey at a distance of about 1 meter. The work is performed inside the damaged part 3 of 1). The inner surface of the damaged part 3 of the conduit 1 has a glass fiber layer 15 impregnated with the adhesive resin liquid 17 around the outer surface of the bonding machine 5. It is common to wind and repair the length of the circumference by 2 to 3 times the length of the circumference, and in the drawing of the present embodiment, only the length of about 2 times or more is indicated, and the glass fiber layer 15 impregnated with the adhesive resin liquid 17 shown on the drawing. In the direction of the arrow around the outer surface of the adhesive (5) Start, but first wound about the length of the inner surface of the damaged portion (3) of about 1 times the length of the circumference, and then another length of about 1 times the length that can overlap a portion of the upper end on the inner wall of the pipe (1) While the stainless steel wire mesh 19 is placed on the glass fiber layer 15, the adhesive 5 is wound up to the length of 2-3 times the entire length, and then several centimeters from both ends of the outer surface of the glass fiber layer 15. The cylindrical water-expanded rubber band 21 is wound around. Here, the width of the stainless wire mesh 19 is appropriately small by 2 to 3 centimeters at each end of the glass fiber layer 15, and the length is slightly longer than 1 times the inner circumferential length of the conduit 1 to be repaired. In addition, the cylindrical water-expanded rubber band 21 is appropriately positioned to be 3 to 5 centimeters inside each of both ends of the outer surface of the glass fiber layer 15, and a stainless perforated plate may be used instead of the stainless wire mesh 19, or Instead of the water-expandable rubber band 21, a cylindrical rubber plate having water-expanded rubber attached to the edge may be used for the entire area of the outer surface of the repairing material.

According to the above-mentioned manufacturing process of the repairing material, the damaged part 3 or the joint of the repaired pipeline 1 is checked by a monitor not shown in the drawing by the self-propelled CCTV camera 7, and the adhesive resin liquid 17 is impregnated. After the stainless steel wire mesh 19 was added to the glass fiber layer 15, the water-retaining material was wound around the outer circumferential surface of the bonding machine 5, and the cylindrical water-expanded rubber band 21 was wound around this position, and then the compressed air was compressed air. When supplied through the injection hose 13, the gluer 5 starts to expand. When the adhesive 5 is expanded in this way, the glass fiber layer 15 wound on the outer circumferential surface thereof forms a hardened water-retaining material while being in close contact with the damaged part 3 of the conduit 1 or the inner wall of the joint.

After curing the water retaining material for a predetermined time like this, the compressed air is discharged through the compressed air injection hose 13 so that the adhesive 5 is reduced and separated from the water retaining material.

According to the embodiment of the present invention as described above, the adhesive resin solution to the glass fiber layer 15 by the expansion of the adhesive machine 5 between the space of the stainless steel wire mesh 19 sandwiched between the glass fiber layer 15, which is a repair material (17) is impregnated and hardened so that the stainless steel wire mesh 19 is integrated without being exposed to the outside to reinforce the strength of the repair material, wrapped around several centimeters from both ends of the outer surface of the glass fiber layer (15) When the cylindrical cylindrical water-expanded rubber band 21 leaks through the broken part 3 of the pipe 1 or the gap between the joints, the volume expands several times on its own to prepare for external vibration, impact load or ground subsidence. There is an effect of improving the exponential.

Claims (1)

A pipeline consisting of multiple cylindrical glass fiber layers integrated by adding a wire mesh between the glass fiber layer impregnated with the adhesive resin solution and a glass fiber layer, and cylindrical water-expanded rubber bands provided at edge portions of both ends of the outer surface of the cylindrical glass fiber layer. Unexcavated internal repair.