KR101281507B1 - Tube for inhibiting corrosion of pipe connecting portion - Google Patents

Abstract

PURPOSE: A tube for preventing the corrosion of a pipe connecting unit is provided to prevent the corrosion of a pipe connecting unit by a corrosive preventing process of the pipe connecting unit with a low cost when the surface of the pipe connecting unit is smooth or the height difference of two pipes and the pipe connecting unit is great. CONSTITUTION: A tube (100) for preventing the corrosion of a pipe connecting unit comprises one side unit (110), a central unit (130), and the other side unit (120). The one side unit and the other side unit of the tube are made of an elastic material. A stopper is equipped in the predetermined position of the central unit and seals the tube to compulsively discharging the air inside the tube to the outside. The external diameter of one side unit, the internal diameter of the central unit, the external diameter of the other side unit, and the internal diameter of the other side unit are overlapped and are connected by an adhesive with the elasticity, the electrical fusion, and the high frequency fusion.

Description

Tube for inhibiting corrosion of pipe connecting portion}

The present invention relates to a tube for preventing corrosion of a pipe connection portion connecting two pipes buried underground, and the surface of the pipe connection portion connecting the two pipes is smooth, in particular, a joint method with a large difference in height between the two pipes and the pipe connection portion The present invention relates to a corrosion protection tube of a pipe connection that can be used efficiently.

Water and sewage pipes buried underground are usually made of materials such as metal or resin, and these pipe materials are welded or fused or connected using joints. In this case, when the joint is used, steel material is used to withstand the internal pressure of the piping material, the external pressure such as the wheel pressure of the wheel of the vehicle when the soil or the vehicle passes, and the joint is joined using bolts and nuts. In order to prevent corrosion of this part, it is used by painting or plating on the surface, but if it is used in the soil for a long time, it will be corroded by water and other corrosion factors, causing leakage.

In the case of connecting the two pipes (10, 20) by the welding method of the construction method, as shown in Figure 1 (a) the surface of the pipe connection portion 30 is somewhat smooth, as shown in Figure 1 (b) The anti-corrosion treatment is performed using a heat shrink sheet or heat shrink tube 40.

Recently, the use of the joint method instead of the welding method for the seam of various pipes is increasing trend. The conventional welding method has a problem that internal corrosion occurs in the welded portion of the coated steel pipe, and it is considered that the joint method is considered to be superior in safety, workability, repair and replacement work than the conventional welding method.

However, when connecting the two pipes (10, 20) by the joint method, the height difference between the joint 31 and the two pipes (10, 20) in the pipe connection 30 as shown in Figure 2 (a) A large number of uneven portions are generated in the pipe connecting portion 30 by the bolt 32, the nut 33, or the like in the pipe connecting portion 30.

Accordingly, until now, no separate anticorrosive treatment is performed on the entire joint, or very rarely, as shown in (b) of FIG. 2, the pipe connecting portion 30 is smoothed using a filling mastic for the bumpy pipe connecting portion 30. Then, anticorrosive treatment is performed using a heat shrink sheet or a heat shrink tube 40.

As such, when the two pipes are connected by the conventional joint method, when the height difference between the two pipes and the joint is large, and a large amount of irregularities occurs and the anticorrosive treatment is not performed on the pipe connection part, the pipe connection part is corroded and the service life of the pipe is increased. There was a problem of shortening, and when the anticorrosive treatment of the pipe joint using the heat shrink sheet or the heat shrink tube, there was a problem that a lot of cost and time.

DISCLOSURE OF THE INVENTION An object of the present invention is to solve a conventional problem, and the anticorrosive treatment of pipe connections at low cost both in the case where the surface of the pipe connection portion connecting the two pipes is smooth, and especially when the height difference between the two pipes and the pipe connection portions is large. To provide a corrosion resistant tube of the pipe connection for.

Corrosion-resistant tube of the pipe connection of the present invention is a tubular shape, consisting of a flexible tube consisting of one side portion, the center portion and the other side portion, the tube of the central portion is elastic to be located at one end of the first pipe And a flexible tube to be positioned at one end of the second pipe to enclose the outside of the joint, wherein both flexible tubes are in close contact with both pipe outer diameters, It consists of a stopper provided in position.

The center portion inner diameter of the tube is configured to be larger than the outer diameter of the one side or the other portion.

In order to construct the tube of the above type, after preparing an intermediate tube made of a material having elasticity and strength equal to or slightly larger than the joint outer diameter, and preparing two tubes having the same or smaller diameter as the pipe outer diameter of the flexible material, these tubes After overlapping with both sides of the intermediate tube, expand the tubes located on both sides to the size of the intermediate tube, and then join the joining portion by electric fusion, high frequency fusion, or elastic adhesive.

The intermediate tube is made of a material having high elasticity and tensile strength to withstand the bolt or nut or sharp surface of the joint, and the tube of one side or the other part is made of a material having high elasticity so that it can closely adhere to the outer surface of the tube. . The anti-corrosion tube made in this way is tightly adhered to both outer surfaces of the tube to prevent water from flowing in from the outside, and the tube in the central portion has a high elasticity and tensile strength, so that the joint is well protected even by earth pressure. Wrapped to prevent corrosion of the joint.

The central tube may be made of polyurethane, rubber, polyethylene (PE) resin or polyvinyl chloride (PVC) resin, and may be made of a material such as nonwoven fabric to increase tensile strength.

The tube of one side or the other side is made of a flexible material such as polyurethane, rubber.

As described above, the corrosion preventing tube of the pipe connection part of the present invention, both the case of smooth surface of the pipe connection portion connecting the two pipes, especially when the height difference between the two pipes and the pipe connection is large, both at low cost Anti-corrosion treatment prevents corrosion of pipe connections, which has the effect of extending the life of pipes.

1 (a) is a view showing two pipes and pipe connections connected by a general welding method,
Figure 1 (b) is a view showing the anticorrosive treatment state of Figure 1 (a),
Figure 2 (a) is a view showing two pipes and pipe connections connected in a common joint method,
Figure 2 (b) is a view showing the anticorrosive treatment state of Figure 2 (a),
3 is a view showing an anticorrosive treatment state to which the present invention is applied;
Figure 4 is a front view of the corrosion preventing tube of the present invention piping connection,
5 is a front view of a tube showing another embodiment of the present invention.
6 is a front view of a tube showing another embodiment of the present invention.

An embodiment of the present invention will be described with reference to FIGS. 3 to 6 as follows.

Corrosion-proof tube of the pipe connection of the present invention, as shown in Figure 3 and 4, is tubular, with a flexible tube 100 consisting of one side portion 110, the central portion 130 and the other portion 120. It is composed. The tube central portion 130 surrounds the outside of the pipe connection portion 70 that connects one end of the first pipe 50 and one end of the second pipe 60, and the tube one side 110 is formed of the first pipe 50. One end of the pipe 50 is in close contact with the outer diameter, the other end portion of the tube 120 is in close contact with the outer diameter of one end of the second pipe (60). And the stopper 140 is provided at a predetermined position of the tube center portion 130, open the stopper 140 to force the air in the tube 100 to the outside and close the stopper 140 to close the tube 100 ) Seal.

And the inner diameter of the tube center portion 130 is formed larger than the outer diameter of the tube one side portion 110 and the other tube portion 120. That is, when the two pipes (50, 60) are connected by the joint method, the height difference between the two pipes (50, 60) and the pipe connecting portion 70 is much, so that the tube center portion ( The inner diameter of 130 is greater than the outer diameter of the tube one side portion 110 and the other tube portion 120.

In addition, as shown in FIG. 5, when the two pipes 50 and 60 are connected by welding, the height difference between the two pipes 50 and 60 and the pipe connection part 70 may be slightly different. The inner diameter is slightly larger than the outer diameter of the tube one side portion 110 and the other tube portion 120.

Since the outer diameters of the one end portion of the tube 110 and the other side portion 120 are different from the inner diameter of the central portion of the tube 130, the outer diameter of the one side portion of the tube 110 and one inner diameter of the central portion 130 of the tube are different from each other. And, the outer diameter of the other end portion of the tube 120 and the other inner diameter of the center portion 130 of the tube is connected by electrofusion, high frequency fusion or elastic adhesive. At this time, the one end portion 110 and the other end portion 120 of the diameter of the tube is extended to the outer diameter of the central portion 130 and overlapped, and then connected by electric fusion or high frequency fusion or elastic adhesive.

The construction procedure of the corrosion preventing tube of the present invention pipe connection configured as described above is as follows.

First, the one end portion of the tube 110 is in close contact with the outer diameter of one end portion of the first pipe 50, and the remaining tube center portion 130 and the other tube portion 120 are positioned on the first pipe 50 side. Then, one end of the first pipe 50 and one end of the second pipe 60 are connected to the pipe connection 70. Then, the other end portion 120 of the tube 50 on the side of the first pipe 50 is pulled out so that the tube center portion 130 is positioned at the pipe connection portion 70 and the other end portion 120 of the tube is placed at one end of the second pipe 60. Close to outer diameter Then, both ends of the tube are wound with anti-corrosive tape and finished, the stopper 140 at a predetermined position of the tube center portion 130 is opened, and a separate air suction means is used to draw air in the tube 100 to the outside. After forced discharge, the stopper 140 is closed to seal the tube 100. Accordingly, the tube center portion 130 is in close contact with the bumpy irregularities of the pipe connection 70. Then, when the two pipes 50 and 60 and the pipe connection part 70 are filled with sand or fine soil, the tube 100 surrounds the two pipes 50 and 60 and the pipe connection part 70. The pipe connection 70 is prevented from contacting the outside (water or soil) to prevent corrosion of the pipe connection 70.

And, as shown in Figure 6, the elasticity and tensile strength of the tube center portion 130 is made of a material larger than the tensile strength of the tube one side portion 110 and the other portion of the tube. That is, even though the tube one side portion 110, the tube center portion 130, and the tube other portion 120 have the same outer diameter, the tube center portion 130 may be further extended to the tube one portion 110 and the tube other portion 120. Therefore, when the height difference between the two pipes 50 and 60 and the pipe connection part 70 is a little, it can be used as a corrosion preventing tube.

The tube center portion 130 is made of polyurethane, rubber, polyethylene (PE) resin, polyvinyl chloride (PVC) resin, or the like.

In addition, the tube central portion 130 is manufactured by coating or laminating a polyurethane, rubber, polyethylene (PE) resin or polyvinyl chloride (PVC) resin to a material having tensile strength such as a nonwoven fabric.

The one end portion of the tube 110 and the other side portion of the tube 120 is made of elastic rubber so as to be in close contact with the outer diameter of each pipe, and at the time of actual construction, the first pipe 50 or the first pipe 50 side It can be easily moved toward the second pipe 60.

As described above, the present invention constitutes a central portion of the tube according to the height difference between the two pipes and the pipe connection buried underground, and discharges the air inside the tube to the outside to seal the tube when it is filled with sand or fine soil. It is possible to prevent the inflow of water, and to prevent the inflow of water from the outside to prevent corrosion of the pipe connection, and to prevent corrosion at a lower cost compared to the heat shrink sheet or heat shrink tube.

10: first piping 20: second piping
30: pipe connection 31: joint
32: Bolt 33: Nut
40: heat shrink sheet or heat shrink tube
50: first piping 60: second piping
70: pipe connection 100: tube
110: one side of the tube 120: the other side of the tube
130: center tube 140: stopper

Claims (5)

delete It is tubular and consists of a flexible tube consisting of one part, a center part and the other part,
The inner diameter of the central portion of the tube is larger than the outer diameter of the one side portion of the tube and the other side of the tube,
The central portion of the tube surrounds the outside of the pipe connecting portion connecting one end of the first pipe and one end of the second pipe, the one end of the tube is in close contact with the outer diameter of one end of the first pipe, the other part of the tube Is in close contact with the outer diameter of one end of the second pipe,
Tensile strength of the center portion of the tube is configured to be relatively higher than the tensile strength of the one side portion of the tube and the other portion of the tube,
One side of the tube and the other side of the tube is composed of a flexible material,
A stopper is provided at a predetermined position of the central portion of the tube, the tube for preventing corrosion of the pipe connection portion, characterized in that for sealing the tube by forcibly discharging the air in the tube to the outside,
The outer diameter of the one side portion of the tube and the inner diameter of one side of the center of the tube, and the outer diameter of the other portion of the tube and the inner diameter of the other side of the tube overlap the connection of the electric fusion or high frequency fusion or elastic adhesive Corrosion resistant tube for pipe connections. The method of claim 2,
The center portion of the tube is made of polyurethane, rubber, polyethylene resin, polyvinyl chloride resin, characterized in that the pipe for preventing corrosion of the pipe connection. The method of claim 2,
The center portion of the tube is a corrosion preventing tube of the pipe connection, characterized in that the non-woven fabric is made by coating or laminating with polyurethane, rubber, polyethylene resin or polyvinyl chloride resin. The method of claim 2,
When connecting the tube of the center part and the tube of one side and the other part with electric fusion, high frequency fusion or elastic adhesive, extend the tube of one side and the other part to the same size as the tube outer diameter of the center part beforehand. Corrosion resistant tube of pipe connection joining both tubes.

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