KR101306932B1 - Device for repairing the damage part of a pipe and repairing method using the same - Google Patents

Abstract

PURPOSE: A member for repairing pipes and a repairing method are provided to improve the water-tightness by providing the sealed structure as a filler is added to the primer in liquid polyester resin and to prevent the member from separating caused by thermal deformation after the construction by the heat insulation. CONSTITUTION: A member (100) for repairing pipes comprises an adhesive sheet (110), a primer (120), and a reinforcing sheet (130). The adhesive sheet comes in contact with the inner circumference of the pipe in which defects are generated. The primer is coated in the adhesive sheet and a hardener (122) and a filler (123) are added to liquid polyester resin. The adhesive sheet is made of glass fiber soaked in the primer. The mineral powder and ceramics nanopowder are included as the filler. The mineral powder is tricholoma matsutake powder or basalt powder and the ceramics nanopowder is magnesium silicate or kaolin.

Description

Device for repairing the damage part of a pipe and repairing method using the same}

The present invention relates to a pipe repair member and a repair method, and more particularly, to a pipe repair member and repair method for the index and reinforcement in the inner circumference of the pipe is defective.

In general, various water and sewage pipes buried in the ground cause problems such as cracks generated over time, and the sewage flowing out of the pipes is leaked to contaminate soil and groundwater.

As described above, in repairing a pipe having a defect such as a crack, a non-excavation repair method is used. A non-excavation repair method repairs a pipe having a defect by attaching a repair / reinforcement member to a pipe in which the defect has occurred without excavating the ground. It refers to the method of repair and reinforcement.

The non-excavation repair method is generally a repair and reinforcement member formed by impregnating a felt on a primer. The repair and reinforcement member is attached to the inner circumference of the defective tube. As a reinforcing device is used, for example, in Patent Application No. 2001-72697, an unmanned repair and reinforcement device is inserted into a buried pipe to configure a seat mounted in a form that surrounds the unmanned repair and reinforcement device, wherein the sheet is made of polyester. A technique is disclosed in which the sheet is attached to the inner circumference of the defective tube by impregnation using felt and polyester resin.

However, in these technologies, leakage occurs due to the difference in thermal expansion coefficient between the concrete tube and the resin sheet due to the change of the external temperature, or the sheet is lifted from the inner circumference of the tube. , Brittle fracture occurs, and the pipe buried in the soft ground due to such brittle behavior has a problem in that a weak part is formed between the repair and reinforcing member and the pipe due to deformation such as uneven settlement.

Republic of Korea Patent Application No. 2001-72697

The present invention has been made to solve the above problems, the heat transfer is blocked from the tube to prevent cracking, lifting due to temperature changes, strength and ductility is reinforced, durability is improved, easy to attach on the inner circumference of the tube And to provide a solid pipe repair member and repair method.

As a means for solving the above problems, the tube repair member of the present invention includes an adhesive sheet in contact with the inner circumference of the tube where the defect is generated; A primer applied to the adhesive sheet and having a curing agent and a filler added to the liquid polyester resin; Characterized in that it comprises a; reinforcing sheet consisting of a glass fiber impregnated in the primer.

Finishing sheet is configured on the upper portion of the reinforcing sheet, the finishing sheet is preferably glass fiber fabric.

In the present invention, the filler includes a mineral powder and a ceramic nano powder, the mineral powder is a pine powder or basalt powder, the ceramic nano powder is characterized in that the magnesium silicate or kaolin.

Here, the primer preferably contains 15 to 30 parts by weight of mineral powder and 5 to 20 parts by weight of ceramic nanopowder with respect to 100 parts by weight of liquid polyester resin, and it is reasonable to further include 1 to 5 parts by weight of sodium silicate. Do.

Meanwhile, the present invention also provides a repairing method using the tube repairing member. The repairing method of the present invention uses the tube repairing member, wherein the pipe repairing member is composed of a frame and a matrix formed on the outer periphery of the frame. And it is characterized in that the defect is attached to the inner circumference of the tube is generated by using a repair device comprising a tube of rubber material configured on the outer circumference of the matrix.

Tube repair member and repair method using the same of the present invention as described above has the advantage that the load capacity for the loading load is improved by the glass fiber felt and fabric, and the water solubility to the deformation of the pipe in the soft ground and the like is improved.

In addition, by adding a filler to the liquid polyester resin as a primer to provide a tight structure during curing, the water-tightness is improved, there is an advantage that can be prevented from detachment of the member due to thermal deformation after construction due to the thermal barrier.

In addition, the liquid polyester, the cured material and the adhesive sheet is easily adhered to the tube in which the defect is made by the adhesion under the reaction at room temperature, there is a strong advantage.

1 is an exploded perspective view showing a tube repair member according to the present invention;
Figure 2 is a front sectional view showing a state in which the tube repair member shown in Figure 1 is attached to the inner circumference of the tube is defective,
3 is a view showing an embodiment of a pipe repair apparatus according to the present invention,
4A to 4C are views illustrating various embodiments of a tube repair apparatus according to the present invention.

In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

1 is an exploded perspective view showing a tube repair member according to the present invention, Figure 2 is a front sectional view showing a state in which the tube repair member shown in Figure 1 is attached to the inner circumference of the tube is defective, Figure 3 4 is a view showing an embodiment of the tube repair apparatus according to, Figure 4a to 4c is a view showing various embodiments of the tube repair apparatus according to the present invention.

Tube repair member 100 of the present invention, as shown in Figure 1, the adhesive sheet 110 and the adhesive sheet 110 in contact with the inner circumference of the tube in which the defect is generated, the curing material is applied to the liquid polyester resin 121 (122) and the filler 123 is added to the primer 120, and the reinforcing sheet 130 impregnated in the primer 120, the adhesive sheet and the primer reacts at room temperature in the tube where the defect occurs It is easy to attach and robust, and relates to a repair member whose rigidity and ductility are reinforced by the reinforcing sheet 130. In the tubular repair member 100 of the present invention, the term "repair" is a concept that collectively refers to repair and reinforcement. The repair and reinforcement of rigidity and ductility are reinforced by the reinforcement sheet 130 made of glass fiber as well as repair. Will be.

The adhesive sheet 110 is a liquid liquefied by reacting with the liquid polyester resin 121 constituting the primer 120 at room temperature to be filled in the crack portion of the tube where the defect is generated, and hardened by the passage of time In addition to the action of the primer 120, the present member 100 is to be firmly attached to the inner circumference of the tube.

The primer 120 is laminated on the adhesive sheet 100 in a state of impregnating the reinforcing sheet 130 to be described below in a configuration in which the hardener 122 and the filler 123 are added to the liquid polyester resin 121. And it corresponds to the configuration to attach.

The primer 120 is that the hardening material 122 is added to the liquid polyester resin 121, when impregnating the reinforcing sheet 130, the liquid polyester resin 121 based on the action of the hardening material 122 The hardening sheet 130 is to be attached to the inner circumference of the tube is a defect is hardened. Thus, by curing the liquid polyester resin 121 at room temperature using the curing material 122, there is no need for a separate heating mechanism, so that the non-excavation repair of defects in the inner circumference of the tube is easy.

In addition, the primer 120 is characterized by including the mineral powder, ceramic nano powder as a filler based on the liquid polyester resin 121.

By adding mineral powder of porous structure as the filler 123, the conduit composed of concrete is similar to the thermal expansion coefficient, and the heat absorption from the conduit is blocked because the heat absorption from the conduit is reduced, resulting in a decrease in adhesion after construction due to the difference in thermal expansion coefficient. It can be prevented. In addition, the polyester resin 121 is filled in the pores in which the mineral powder is formed, thereby enhancing adhesion between dissimilar materials.

The mineral powder is preferably basalt powder or cluster powder. Particularly, the basalt powder has a high mechanical rigidity to perform a function as a frame in the primer 120, and the ceramic nanopowder may be provided with a rigid and dense structure by filling the gap.

In addition, the primer 120 is further blended with ceramic nano powder to tightly fill the mineral powder of the porous structure to provide a rigid structure.

Preferably, the ceramic nano powder may be magnesium silicate or kaolin. As mentioned above, in the case of the ceramic nanopowder, it is to form a tight adhesive layer by filling in the gap formed by the mineral powder. In particular, the ceramic nanopowder has a low coefficient of thermal expansion and thus has a thermal barrier function. In order to impart to the ceramic nano-powder, the heat transfer from the conduit is blocked by controlling the shrinkage and expansion caused by the heat of the reinforcing sheet 130.

Here, it is appropriate to limit the mineral powder to have a particle diameter of 10 to 50㎛. The reason for this limitation is that when the particle size is smaller than the above range, the function is insufficient as a sufficient frame. If the particle size exceeds the above range, the specific gravity becomes too large, and the dispersibility is lowered, resulting in non-uniform physical properties.

In addition, it is appropriate to limit the ceramic nanopowder to have a particle diameter of 30 to 200nm. If the ceramic nanopowder is less than 30 nm, the distribution of the average particle size is too low and the price is high, so there is an uneconomical problem. Since it inhibits, it limits in this way.

On the other hand, as the filler is used in the above-mentioned mineral powder and ceramic nano-powder of the particle size range, the fine cracks formed in the aged conduit is filled with ceramic nano-powder, the relatively large crack is filled with mineral powder may occur after It basically blocks the reflection cracks.

The primer 120 includes 15 to 30 parts by weight of mineral powder and 5 to 20 parts by weight of ceramic nanopowder with respect to 100 parts by weight of liquid polyester resin, and it is reasonable to further include 1 to 5 parts by weight of sodium silicate. .

If the ceramic nano powder is less than 5 parts by weight, it is not possible to sufficiently fill the mineral powder, and the filling effect of the fine gap is insignificant, in particular, there is a problem that the function of the thermal cutoff is insignificant, exceeding 20 parts by weight. In this case, the economical efficiency is not only lowered, but rather limited because of lowering the elongation of the primer 120 may cause structural problems such as cracking in the adhesive layer.

On the other hand, in addition to the liquid polyester resin, mineral powder, ceramic nano-powder to the primer 120, it is reasonable to further mix the sodium silicate. Sodium silicate prevents the deterioration of concrete due to the strong alkali environment, which can prevent concrete neutralization that may occur in aged conduits.

Meanwhile, the reinforcing sheet 130 may further include a finishing sheet 140. In this case, the reinforcing sheet 130 is made of glass fiber felt, and the finishing sheet 140 is made of glass fiber fabric. Do.

Here, the "glass fiber felt" is to define a sheet having a relatively large gap formed between the fibers made of glass fiber fibers, such as weaving, etc., the "glass fiber fabric" is made of a glass fiber by weaving, etc., but has a small gap formed between the fibers By defining the sheet, "fiberglass felt" refers to a larger gap formed between fibers than "fiberglass fabric". The reinforcing sheet 130 is composed of glass fiber felt so that when the primer 120 is impregnated with the reinforcing sheet 130, the primer 120 penetrates in both directions with the inter-fiber spacing, respectively, the adhesive sheet 110 and the finish. It is to facilitate the adhesive reaction with the sheet 140, and to configure the finish sheet 140 of glass fiber fabric is foreign matter on the primer 120 by the primer 120 is penetrated to the outside of the finish sheet 140 This is to prevent the attachment, and to prevent the floating material and the like deposited on the outside of the finish sheet 140 from the sewage flow or the like by the adhesion of foreign matters. In addition, it is to increase the rigidity and elasticity by reducing the gap between the fibers.

The reinforcement sheet 130 and the finishing sheet 140 are made of high strength and high ductility glass fiber to strengthen the strength of the present member 100, and increase the elasticity (ductility) of the tube embedded in the soft ground. In this case, it is possible to accommodate deformation due to inequality.

Meanwhile, the present invention also provides a repair method using a pipe repair member. In the repair method of the present invention, a pipe repair device 200 is used, in particular, the pipe repair device 200 includes a transfer wheel 250, An air shop up bar 220 is provided therein, and a cylinder-shaped frame 210 having an air inlet 216 provided on one surface thereof, and an LED lamp 242 formed at both front and rear ends of the frame 210, respectively. And a rotary device 240 having a laser pointer 244, and a tube 230 of rubber material having excellent elasticity surrounding the outer circumference of the frame.

3 and 4, the transfer wheel 250 is in close contact with the inner circumference of the pipe (1) is arranged to enable the transfer of the tube repair apparatus 200 in the present embodiment the tube repair In the present invention, an example in which two pieces are provided before and after the device 200 is provided, but the present invention is not limited thereto, and the position and the number of the transfer wheels 250 are limited if they are configured to allow the transport of the maintenance device 200. It doesn't work.

Although not shown in the drawing, the transfer wheel 250 may be provided with its own power source on the transfer wheel 250, and the tube repair apparatus 200 may be manually operated by a separate traction device (not shown). Of course, it can be configured to be transportable.

The frame 210 has a cylindrical shape in which the inner frame 214 is inserted into the outer frame 212 so that a part of the frame 210 is inserted into the outer frame 212 as the air shop up bar 220 provided therein is contracted or expanded. By the inner frame 214 that is contracted and expanded, it is possible to control the contraction or expansion of the tube surrounding the outer periphery of the frame 210.

At this time, the inner circumference of the outer frame 212 and the outer circumference of the inner frame 214 constitutes an O-ring (not shown) when the air is contracted or expanded when the inner frame 214 is inserted into the outer frame 212 It is desirable to configure it so as not to leak to the outside.

Hereinafter, the contraction of the frame 210 refers to the contraction of the air shop up shop 220 to pull and contract the inner frame 214 inserted into the outer frame 212, and the expansion of the frame 210. This means that the air shop up shop 220 is pushed to expand the inner frame 214 is inserted into the outer frame 212.

For example, when the frame 210 is contracted, the space inside the frame 210 is reduced and the air stored in the frame 210 is moved to the tube 230 through the air inlet 216 to expand the tube 230. When the frame 210 is expanded, the air filled in the tube 230 is moved into the frame 210 through the air inlet 216 as the tube 230 is contracted in the opposite principle as described above. Done.

On the other hand, the outer periphery of the tube 230 is disposed so that the above-described tube repair member 100 is wrapped and the tube repair member 100 is pressed against the inner periphery of the tube 1 by expansion of the tube 230. In addition, even if bending is formed in the inner circumference of the tube 1 due to the aging of the tube 1, the tube repair member 100 is firmly attached to the inner circumference of the tube 1 formed with the bending due to the deformability of the tube 230. It becomes possible.

Therefore, in the present invention, a configuration of a separate air pump and an air tube for inflating or contracting the tube 230 is unnecessary, which is caused by the contraction or expansion of the cylindrical frame 210 structure in various sizes of tube diameters. This is because the tube repair member 100 can be pressurized by expanding the tube 230 to fit.

Meanwhile, both front and rear ends of the frame 210 include a rotating device 240 having an LED lamp 242 and a laser pointer 244, and the rotating device 240 rotates the frame 210. After the end of the process of pressurizing the tube repair member 100 to attach to the inner circumference of the tube (1) by the means to rotate the tube repair device 200 with the contraction of the tube 230, the tube repair member The separation of the 100 and the tube repair apparatus 200 can be made smoothly.

In addition, the rotary device 240 is composed of an LED lamp 242 and a laser pointer 244, which is a means for accurately finding the defects (C, C1) of the tube (1), LED lamp 242 By the illumination of, it is possible to grasp the defects C and C1 inside the dark tube 1, and in addition, the user can precisely display the defects C and C1 by the laser pointer 244. Repair construction can be possible.

In addition, although not shown in the drawings in the present invention, the pipe repair apparatus 200 includes a camera capable of grasping the internal state of the pipeline 1, a spray device for arranging the inside of the moving pipeline, and a protrusion in the pipeline. Removal means for removing may be further provided.

In addition, although not shown in the drawings, the tube repair apparatus 200 may further configure a matrix of tarpaulin material, which is lighter than rubber, between the frame and the tube, which is made of rubber material according to the inner diameter of a large pipeline. It is easy to construct because it can significantly reduce its own weight than when only the tube 230 is formed, and the air pressure also requires much less air pressure than when only the tube 230 is made of rubber material according to the large diameter. There is also an advantage in terms of.

Hereinafter, various embodiments of the tube repair apparatus according to the present invention will be described with reference to FIGS. 4A to 4C.

First, FIG. 4A illustrates an example of repairing the defective parts C and C1 of the pipe 1 by inserting the pipe repair device 200 into the small pipe into the small pipe. After the positions of the defects C and C1 are selected through the LED lamp 242 and the laser pointer 244, the tube repair member 100 flows to correspond to the defects C and C1. At this time, the user grasps the situation of the tube 1 through the screen photographed and transmitted by the camera (not shown in the drawing) mounted on the maintenance device 200, and the LED lamp 242 and the laser pointer 244. It is possible to provide a precise position of the defective parts (C, C1) to the user by the display of the.

Thereafter, as shown in the drawing, the position of the tube repair member 100 is disposed so as to correspond to the flaws C and C1, and then the flaw portion is based on the expansion of the tube due to the contraction of the air shop up bar 220 described above. By pressing the tube repair member 100 on the inner circumference of the tube (1) containing (C, C1), the tube repair member (100) on the inner circumference of the tube (1) containing the defects (C, C1) After the attachment, and finally, the tube 230 is contracted at the same time as the rotation of the frame 210 by the rotary device 240 to separate the tube 230 and the tube repair member 100.

4b to 4c show an example in which the tube repair apparatus 200 according to the present invention is variously applied according to the inner diameter of the tube 1, which may be configured in various sizes. In particular, FIG. 4b illustrates a tube repair according to the present invention. Figure 4c shows that the apparatus is applied to the medium pipeline, Figure 4c shows that the tube repair apparatus according to the present invention is applied to a large pipeline, as shown in the drawing, the pipe repair apparatus 200 is defective parts (C, C1) ), And then the air shop upshorus 220 contracts to allow the tube repair member 100 to closely contact the inner diameter of the tube 1, thereby causing the contraction of the frame 210 and expansion of the tube 230. It is shown that the tube repair member 100 is in close contact with the inner diameter of the pipe (1) including the pipe defects (C, C1).

Therefore, the tube repair apparatus 200 according to the present invention is configured to correspond appropriately according to the inner diameter of the tube 1, which may be configured in various sizes, in the tube repair apparatus that should be provided for each inner diameter of the tube 1. Compared with the economy, workability and handling are excellent.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

100: tube repair member 110: adhesive sheet
120: primer 121: polyester resin
122: hardening material 123: filler
130: reinforcing sheet 140: finishing sheet
200: tube repair device 210: frame
220: matrix 230: tube

Claims (5)

An adhesive sheet in contact with the inner circumference of the defective tube;
A primer applied to the adhesive sheet and having a curing material and a filler added to the liquid polyester resin;
Consisting sheet consisting of a glass fiber impregnated in the primer;
The filler includes a mineral powder and ceramic nano powder, the mineral powder is pine powder or basalt powder, the ceramic nano powder is magnesium silicate or kaolin tube repair member.
delete delete The method of claim 1,
The primer includes 15 to 30 parts by weight of mineral powder, 5 to 20 parts by weight of ceramic nanopowder, and 1 to 5 parts by weight of sodium silicate, based on 100 parts by weight of liquid polyester resin.
The tube repair member according to claim 1 or 4, wherein the tube repair member comprises a frame, a matrix of tarpaulin material formed on the outer periphery of the frame, and a rubber tube formed on the outer periphery of the matrix. Using a tube repair apparatus comprising a, the tube repair method for the pipe repair member to be attached to the defective portion in the tube by injecting air in multiple stages to the matrix and the tube.

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