KR101083190B1 - System for inserting a glass fiber pipe to pipe line and method of the same - Google Patents

Abstract

The present invention relates to an insert system of a composite pipe and an insert method thereof, wherein a composite pipe having excellent corrosion resistance is forcibly inserted into an existing raw water pipe while the existing buried raw water pipe is maintained as it is and is actually transported. The object of the present invention is to provide an insert system and a method of inserting the composite pipe, which can prevent corrosion pollution, more effectively respond to external shocks, and effectively reduce construction costs.

According to the present invention, it is economically advantageous by inserting a composite pipe having excellent corrosion resistance at low cost into the raw water pipe, and is easy to work because the whole raw water pipe is not replaced, and condensation phenomenon is caused by filling the gap between the pipes. There is an advantage that it is resistant to external shocks without being generated.

Water pipes, water pipes, corrosion resistance, composite pipes, glass fibers, insert systems.

Description

Insert system of composite pipe and insert method thereof {SYSTEM FOR INSERTING A GLASS FIBER PIPE TO PIPE LINE AND METHOD OF THE SAME}

The present invention relates to an insert system of a composite pipe and an insert method thereof, and more particularly, by inserting a composite pipe having excellent corrosion resistance into a conventional raw water pipe in a state where the existing embedded raw water pipe is maintained as it is. The present invention relates to an insert system and a method of inserting the composite pipe, which can prevent corrosion contamination of the tap water being transferred, more effectively respond to external impacts, and effectively reduce construction costs.

As is well known, the water supply system is primarily supplied in large quantities through raw water pipes in order to supply the disinfected tap water from the water supply source to the large customer side, and then is supplied to the corresponding customer side through a plurality of branch pipes based on the branch point. It consists of a system.

However, such a raw water pipe has a problem that it takes a long time excessively buried in the ground, and corrosion may occur inside and outside the pipe to contaminate the conveyed tap water.

Of course, in recent years, the replacement of copper pipes commonly used in ordinary households has excellent corrosion resistance, so there is no concern about contamination due to corrosion, but the cost of replacing copper pipes is excessively high, and the cost of copper pipes is excessive. There was a problem.

In particular, in the case of raw water pipes that expand through the city center due to urban development, after digging all the locations where the pipes are buried along the pipes when replacing the pipes, the existing pipes are discharged to the ground. Since it is necessary, as well as severe traffic jams, there was a problem that serious dust scattering occurs.

The present invention has been made in view of the above-described state of the art, and while maintaining the existing buried raw water pipe intact, a composite pipe having excellent corrosion resistance is forcibly inserted into the existing raw water pipe and is actually transported from tap water. It is an object of the present invention to provide an insert system of composite pipe and an insert method thereof, which can prevent corrosion pollution, respond more effectively from external impacts, and effectively reduce construction costs.

In order to achieve the above object, according to a preferred embodiment of the present invention, a composite pipe having a plurality of support rollers mounted on the lower and side portions thereof so as to be inserted into the raw water pipe pipes which are previously buried underground; A winch for winding by connecting a wire to a rear end of the composite pipe; A pulley mounted near an inlet of the raw water pipe and rotating the wire in close contact with an outer circumferential surface to flow in a winch direction; After the composite pipe is introduced into the raw water pipe, the insert system of the composite pipe is provided, comprising an air compressor for introducing sand into the gap between the raw water pipe and the composite pipe.

Preferably, the composite pipe is provided with an insert system of composite pipe, characterized in that the glass fiber and the synthetic resin is a corrosion-resistant pipe.

Preferably, the composite pipe is connected to each of the composite pipe unit of a certain unit length to the composite joint pipe, and the cement joint is constructed so as to surround the joint pipe of the composite joint pipe and the composite pipe unit, the outside of the cement adhesive There is provided an insert system of a composite pipe, characterized in that the nonwoven fabric surrounding the sealant is sealed with a water soluble adhesive.

Preferably, the composite pipe is provided with an insert system of the composite pipe, characterized in that the worktable having the same height as the inside of the lower end of the raw water pipe pipe is installed in the trench to adjust the height for insertion into the interior of the raw water pipe pipe. do.

Preferably, the support roller mounted on the composite pipe is composed of a lower support roller and a side support roller, the lower support roller and the side support roller is provided with an insert system of the composite pipe, characterized in that alternately mounted in a zigzag form. .

On the other hand, the present invention comprises the first step of producing a composite pipe by assembling the composite pipe unit to a certain length; A second step of opening one end of the raw water pipe and digging the ground near the one end of the raw water pipe; A third process of first inserting one end of the composite pipe into the inlet of the raw water pipe; A fourth step of connecting the wire to the rear end of the composite pipe and secondary inserting the composite pipe into the raw water pipe with a winch; There is provided an insert method for a composite pipe, comprising a fifth process of introducing sand into a gap between the raw water pipe and the composite pipe.

Preferably, the first process comprises the steps of connecting the composite pipe unit of a predetermined unit length to each of the composite joint pipe; Constructing a cement adhesive to surround the composite joint pipe; Sealing the nonwoven fabric with a water-soluble adhesive to surround the cement attachment material; There is provided an insert method for a composite pipe comprising a process of mounting a support roller on the outside of the composite pipe.

The insert system of the composite pipe according to the present invention and the insert method thereof are economically advantageous by inserting the composite pipe having excellent corrosion resistance at low cost into the raw water pipe, and is easy to work because the whole raw water pipe is not replaced, and between the pipes Filling the gap with sand has the advantage of being resistant to external impact without condensation.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

1 is a side cross-sectional view showing an insert system of a composite pipe according to an embodiment of the present invention, Figure 2 is a front sectional view showing a pipe insert state included in the insert system of a composite pipe according to an embodiment of the present invention, Figure 3 is a side view showing a mounting state of the support roller of the pipe included in the insert system of the composite pipe according to an embodiment of the present invention.

Referring to this, the insert system (2) of the composite pipe according to an embodiment of the present invention forcibly inserts the composite pipe having excellent corrosion resistance into the existing raw water pipe while maintaining the existing buried raw water pipe as it is. It is a construction system that prevents corrosion pollution of tap water actually transported, responds more effectively from external shocks, and effectively reduces construction costs.

To this end, the insert system (2) of the composite pipe according to an embodiment of the present invention by assembling the composite pipe unit 12 to a certain length using a joint means 14 in a factory or the like located at a distance from the composite pipe ( 10) to produce.

When the assembly of the composite pipe 10 is completed, the support roller 16 is mounted to the outside of the composite pipe 10. The support roller 16 is configured to reduce the conveying friction force of the composite pipe 10 when the composite pipe 10 is introduced into the raw water pipe 8.

When the assembly of the composite pipe 10 is completed, the vehicle is moved to the site using a vehicle and moved to a working position by a crane. To this end, one end of the raw water pipe 8 into which the composite pipe 10 is to be introduced It must be opened, and the ground near the end of the raw water pipe 8 is excavated to constitute the trench 6.

Then, the composite pipe 10 to be mounted on the trench 6 by using a crane, the ground of the trench 6 is uneven, the height for insertion into the raw water pipe (8) In order to fit, the worktable 24 having the same height as the inside of the lower end of the raw water pipe (8) is installed in the trench (6).

In that state, one end of the composite pipe 10 is first inserted into the inlet of the raw water pipe 8, and the wire 18 is connected to the rear end of the composite pipe 10 to the winch 22. Second insert (10) into the raw water pipe (8).

At this time, the wire 18 wound on the winch 22 must pass near the inlet of the raw water pipe 8 to have a strong force that can flow the composite pipe 10 into the raw water pipe 8. Since it is acting, a plurality of pulleys 20 are provided near the inlet of the raw water pipe 8 to rotate the wire 18 in close contact with the outer circumferential surface and flow in the direction of the winch 22.

Preferably, since the support rollers 16 are preferably mounted on the lower and side portions of the composite pipe 10, respectively, the supporting rollers mounted on the lower side are referred to as the lower support rollers 16a and mounted on the side. The support roller is called side support roller 16b.

In the composite pipe 10 included in the insert system 2 of the composite pipe according to the embodiment of the present invention, as shown in FIG. 2, the side support roller 16b and the lower support roller 16a are 45. The side support rollers 16b are respectively mounted to the front side portions of the composite pipe 10 which are horizontal to the ground, and the lower support rollers 16a are mounted on the side support rollers 16b. Mounted at a 45 degree angle.

In addition, the composite pipe 10, as shown in Figure 3, it is preferable that the side support roller 16b and the lower support roller 16a is mounted in an alternating form to be in a zigzag form. That is, when viewed from the side of the composite pipe 10, the lower support roller 16a is mounted at the lower intermediate position between the side support rollers 16b, respectively.

Meanwhile, the composite pipe 10 included in the insert system 2 of the composite pipe according to an embodiment of the present invention is a corrosion resistant pipe in which glass fiber (glass fiber) and a synthetic resin are mixed, such a composite pipe 10 Is a more flexible and corrosion resistant pipe than conventional glass fibers.

4 is a view showing a connection state of the composite pipe included in the insert system of the composite pipe according to an embodiment of the present invention, Figure 5 is a composite pipe included in the insert system of the composite pipe according to an embodiment of the present invention The enlarged sectional side view of the main part showing the connection state of.

Referring to this, in the insert system 2 of the composite pipe according to the embodiment of the present invention, a plurality of short length composite pipe units 12 are interconnected, and the connection is connected through the joint means 14. The composite pipe 10 is assembled.

In addition, when the assembly of the composite pipe 10 is completed, the support roller 16 is mounted to the outside of the composite pipe 10.

In this case, the joint means 14 will be described in detail, and the joint means 14 connects the composite pipe unit 12 having a predetermined unit length to the composite joint pipe 142, respectively, as shown in FIG. Non-woven fabric 146 constructs a cement attachment 144 to surround the composite joint pipe 142 and the joint pipe 142 of the composite pipe unit 12, and surrounds the exterior of the cement attachment 144. Is treated with a water soluble adhesive.

That is, the water to be supplied is not supplied through the raw water pipe 8, but is supplied through the composite pipe 10, so that the composite pipe 10 should not leak. Therefore, in the present invention, when the joint between any one composite pipe unit 12 and the adjacent composite pipe unit 12, the triple sealing treatment through the joint pipe 142, the cement attachment 144 and the nonwoven fabric 146 To prevent leakage.

6 is a view showing a post-treatment process of the insert system of the composite pipe according to an embodiment of the present invention.

Referring to this, the general raw water pipe 8 is provided with a valve means 32 at regular intervals is configured to intermittently supply the water to be transported. In addition, between the one valve means 32 and the other valve means 32, a plurality of check holes 30 are formed at regular intervals to block the supply of water through the valve means 32, the raw water pipe (8) It is configured so that an inspector can enter the inside of the tank and check the inside of the raw water pipe (8).

Therefore, the composite pipe insert system 2 according to an embodiment of the present invention, after the composite pipe 10 is inserted into the raw water pipe (8), the raw water pipe (8) and the composite pipe (10) Fill with sand. That is, if the gap between the raw water pipe 8 and the composite pipe 10 is kept in a hollow state, condensation may occur when water is delivered, and the raw water pipe 8 and the composite pipe may be easily damaged by external impact. Condensation is prevented by filling sand in the gap of (10).

Accordingly, the insert system 2 of the composite pipe according to the embodiment of the present invention is provided with an air compressor 34 for filling sand into the gap between the raw water pipe 8 and the composite pipe 10. The upper end of the compressor 34 is provided with a storage port 36 for storing sand.

In addition, in order to fill the sand into the gap between the raw water pipe 8 and the composite pipe 10, the sand is filled through the check hole 30 formed in the raw water pipe 8, the inner peripheral edge of the raw water pipe 8 And the composite pipe 10 is a gap of a certain interval is generated by the support roller 16 attached to the outside of the composite pipe 10 can be easily filled with sand in the gap through the air compressor (34). have.

Meanwhile, the insert system of the composite pipe according to the embodiment of the present invention and the insert method thereof are not limited to the above-described embodiments, but various modifications may be made without departing from the technical gist of the present invention.

1 is a side cross-sectional view showing an insert system of a composite pipe according to an embodiment of the present invention;

Figure 2 is a front sectional view showing a pipe insert state included in the insert system of the composite pipe according to an embodiment of the present invention,

Figure 3 is a side view showing a support roller mounting state of the pipe included in the insert system of the composite pipe according to an embodiment of the present invention,

4 is a view showing a connection state of the composite pipe included in the insert system of the composite pipe according to an embodiment of the present invention,

Figure 5 is an enlarged side cross-sectional view showing the main portion of the connection state of the composite pipe included in the insert system of the composite pipe according to an embodiment of the present invention,

6 is a view showing a post-treatment process of the insert system of the composite pipe according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

4: ground, 6: dig,

8: raw water pipe, 10: composite pipe,

12: composite pipe unit, 14: joint means,

16: support roller, 18: wire,

20: pulley, 22: winch,

34: Air compressor.

Claims (7)

A composite pipe each having a plurality of support rollers mounted on a lower side and a side thereof so as to be inserted into an existing underground pipe line; A winch for winding by connecting a wire to a rear end of the composite pipe; A pulley mounted near an inlet of the raw water pipe and rotating the wire in close contact with an outer circumferential surface to flow in a winch direction; Insert system of the composite pipe, characterized in that consisting of an air compressor for introducing sand into the gap between the raw water pipe and the composite pipe after the composite pipe is introduced into the raw water pipe. The insert system of claim 1, wherein the composite pipe is a corrosion resistant pipe mixed with glass fiber and synthetic resin. The method of claim 1, wherein the composite pipe is connected to each of the composite pipe unit of a certain unit length by a composite joint pipe, the cement joint is constructed so as to surround the joint pipe of the composite joint pipe and the composite pipe unit, the cement An insert system for a composite pipe, wherein the nonwoven fabric surrounding the exterior of the attachment material is sealed with a water soluble adhesive. The insert of the composite pipe according to claim 1, wherein a worktable having the same height as the inside of the lower end of the raw water pipe is installed in the trench to adjust the height of the composite pipe to be inserted into the raw water pipe. system. 2. The insert system of the composite pipe according to claim 1, wherein the support roller mounted on the composite pipe comprises a lower support roller and a side support roller, and the lower support roller and the side support roller are alternately mounted in a zigzag form. . A first step of manufacturing the composite pipe by assembling the composite pipe unit to a predetermined length; A second step of opening one end of the raw water pipe and digging the ground near the one end of the raw water pipe; A third process of first inserting one end of the composite pipe into the inlet of the raw water pipe; A fourth step of connecting the wire to the rear end of the composite pipe and secondary inserting the composite pipe into the raw water pipe with a winch; And inserting sand into a gap between the raw water pipe and the composite pipe. The method of claim 6, wherein the first process comprises: connecting the composite pipe units having a predetermined unit length to the composite joint pipes; Constructing a cement adhesive to surround the composite joint pipe; Sealing the nonwoven fabric with a water-soluble adhesive to surround the cement attachment material; Insert method for a composite pipe, characterized in that the process consisting of mounting a support roller on the outside of the composite pipe.

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