KR101420811B1 - Improved water pipe connection structure for maintenance - Google Patents

Abstract

The present invention relates to an enhanced water pipe connection structure for maintenance and, more specifically, to an enhanced water pipe connection structure for maintenance, which can solve a reinforcing function according to thermal expansion coefficients and the difficulty of connection according to steps and can simply connect water pipes to maintain watertightness by improving a structure connected to a KP type connector in a water pipe maintenance process which is very tricky due to the contraction and expansion of a liner. To achieve this, the present invention provides the water pipe connection structure in which a part of a water pipe is cut out in the section of the water pipe (10) which is to be repaired due to deterioration, a liner work is performed to insert a maintenance pipe (11) in a cut portion of the water pipe (10) and to compress the maintenance pipe (11) against the water pipe (10) by heating, and a connecting work is finished by using a KP type connector (20). The water pipe connection structure includes: an exposure pipe (12) which has a protruding gap (L) formed by the maintenance pipe (11) exposed from an internal diameter of the water pipe (10); and an external diameter pipe (13) which is coupled to an external diameter of the maintenance pipe (11) such that a front end matches a front end of the maintenance pipe (11) and is fixed to have a thermal expansion gap (h), wherein the maintenance pipe (11) is formed on the opposite side of the water pipe (10) to have the same front end as that of the water pipe (10), and the font ends of the external diameter pipe (13) and the water pipe (10) are inserted into an internal diameter of the KP type connector (20) to be connected thereto.

Description

Improved water pipe connection structure for maintenance [0001]

The present invention relates to an improved repair pipe connection structure, and more particularly, to a repair pipe connection structure for repairing a water pipe which has a large deficiency due to contraction and expansion of a liner, The present invention provides an improved repair water pipe connection structure that can solve the difficulty of connection and can be easily connected to maintain watertightness.

In the conventional water pipe repairing method, as shown in Patent Registration No. 10-0825025, a work pipe is installed at the beginning and end of a water pipe to find a damaged or aged part of the water pipe, After making the outlets, insert the polyethylene liner and position it, and repair the water pipe by connecting the cut pipe to the existing cut to make the inlet and the outlet.

A conventional water pipe repair method will be described in detail.

The polyethylene liner is protruded from the cut pipe and heated and pressurized on the protruding portion of the liner by a heat molding machine to cause the protruded liner to spread out in a fan shape with the flange provided on the pipe cutting portion. Then the flange holes are drilled in the open part of the liner, and the flange, the bolt and the nut are fastened and connected.

Another conventional water pipe repairing method, as shown in Patent Registration No. 10-1183195, is a connection structure of a water pipe for repairing a damaged water pipe, a water pipe installed in the ground,

A flange having a plurality of bolt holes formed radially and joined to one end of the water pipe;

A liner which is installed in close contact with the inner wall of the water pipe and has one end located at one end of the flange;

A sleeve having a cap formed at the center thereof and having a liner insertion portion and a flange mounting portion, the sleeve being inserted into one end of the liner; And

A sleeve inserted into the sleeve and having a sleeve insertion portion and a sleeve mounting portion in a hat shape having a hollow at the center;

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Wherein the liner insertion portion is disposed on the inner wall of the liner and the flange mounting portion is disposed in close contact with the flange,

The sleeve inserting portion is disposed on the inner wall of the liner inserting portion, and the sleeve inserting portion is disposed in close contact with the flange inserting portion,

And the water flowing through the water pipe is sealed by the sleeve,

Wherein the length of the liner insertion portion is set to be equal to or larger than an expansion contraction range of the liner,

The outer diameter of the sleeve mounting portion is equal to or larger than the outer diameter of the flange mounting portion and is equal to or smaller than the diameter of the circular arc formed by the connecting line of the plurality of bolt holes of the flange.

The problems of the conventional water pipe maintenance method can be largely divided as follows.

1. The risk of using a heat molding machine

The heat molding machine is made of iron and heated to about 80 ~ 100 degrees to make the liner of the polyethylene material ductile and then pressurized to open, which is a very heavy and high temperature device. Therefore, in case of repairing a large tube of 1,000 mm or more in actual site, the size of the heat molding machine is so large as 1,500 mm in diameter,

The quality of specifications is not expected and it is very dangerous for workers to have safety accidents.

2. Difficulty of molding time and molding.

The polyethylene liner must be heated and pressed to allow the liner to stretch slowly, and the liner to be stretched flat to the flange without drying should work slowly with clamps and forceps. And in the case of large pipes it takes more than 6 hours. Therefore, the conventional method requires long air, and there is a problem in that quality is different according to skill of skilled workers.

3. Deformation due to deformed shape of liner

The polyethylene liner has a property to remember its shape and return to its original state after a lapse of time. Thus, the fan-shaped liner, which is artificially heated and pressurized toward the flange and spreads outward, is forced to return to its original state and contracts inward.

At this time, when the liner is contracted, the liner is detached from the flange, and the end of the liner is twisted due to the contracted force, or the thickness is reduced, and there is a gap between the flange and the liner. When the water pressure is applied, the flowing water leaks into the gap .

4. Defects caused by contraction of the liner

The polyethylene liner has a property of expanding or contracting depending on the temperature, so that the liner is shrunk after the heat molding to cause defective construction.

In particular, when the liner is shrunk after construction, the water leaks and the leaking water leaks over the road as well as the surrounding soil due to hydraulic pressure. This is because of the nature of underground facilities, not only waste of labor force, but also loss of construction waste due to traffic congestion or removal of ground obstacles leads to increase of construction cost and waste of budget. That is, in the conventional method, not only the primary damage of the water leakage of the water pipe but also the larger secondary damage occur spontaneously.

5. Liner damage due to repeated expansion and contraction of the liner

The liner 30 inside the water pipe 20 constructed according to the temperature change of the winter season and the summer season repeatedly shrinks and expands.

In the prior art, since both ends of the liner are fixed to the flange, when the temperature changes, the liner stretches or shrinks at the weakest portion of the liner.

As the liner shrinks and expands repeatedly, the portion becomes thinner and weaker, which tears or cracks, and the water penetrates into the damaged portion, so that the liner strikes the inside of the water pipe and corrosion of the water pipe occurs.

Therefore, it is urgent to develop an improved water pipe connection structure and a water pipe maintenance method using it, which can flexibly cope with the contraction and expansion of a liner which is essential in repairing a water pipe with a simple structure and does not use a heat and high- to be.

6. Complexity of capillary connection through flange tube

The repair pipe 11 is supplied to the inner diameter of the cast iron water pipe 10 to repair it; The outer flange pipe 30 is connected to the tip end of the cast iron water pipe 10 at both sides so that the sleeve 11a is bent and protruded outwardly and the inner flange pipe 31 is fitted in the corresponding direction of the outer flange pipe 30 A watertight packing 32 is provided to couple the outer flange 30 and the inner flange 31 to each other and the bolt 33 and the nut 34 are combined to provide a complicated component.

However, there are drawbacks in that it requires four flange tubes in order to have such a complicated structure, and there is a drawback that it is necessary to equip the sleeve to separately process equipment, so that the delay in the operation due to the consumption of the bolt- And the cost is increased greatly.

Document 1, Patent Registration No. 0825025 (registered on Apr. 18, 2008) Document 2. Patent Registration No. 1183195 (registered on September 10, 2012) Literature 3. Patent Registration No. 0730375 (registered on June 13, 2007) Document 4. Patent Registration No. 1180455 (registered on Aug. 31, 2012)

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a water pipe which is formed by an inner diameter of a water pipe, And it is an object of the present invention to easily connect a tip of one of the outer pipe and the water pipe to a capped connection pipe with a simple structure without a step.

Another object of the present invention is to provide a heat exchanger which is formed such that an outer pipe and a water pipe which are coupled to an outer diameter of an exposure pipe are spaced apart from each other by a thermal expansion gap and a stop ring is provided at the end of the outer pipe, .

The present invention is characterized in that a part of the water pipe is cut at a portion of the water pipe to be repaired and the repair pipe is inserted into the cut portion of the water pipe to perform a liner operation in which the repair pipe is pressed to the water pipe through heating, In the water pipe connection structure,

An exposing tube having an inside diameter of the water pipe and a repair pipe exposed to the outside and having a protrusion interval L;

An outer tube coupled to the outer diameter of the maintenance tube to fix the repair tube so that the tip of the repair tube matches the tip and has a thermal expansion gap h therein;

A repair pipe is formed at the tip of the opposite end of the water pipe so as to have the same tip as that of the water pipe, and the outer pipe and the end of the water pipe are inserted into the inner diameter of the pipe connection pipe.

The present invention is characterized in that a repair pipe formed by the inner diameter of a cast iron water pipe is protruded to a certain length of an exposure pipe to one side of a water pipe, the outer pipe is coupled to the outer pipe of the exposure pipe, The pipe is closed at the same position so that one end of the outer pipe and the water pipe can be easily connected to the capillary connection port without a step so that the effect of connecting the water pipe with a simple structure without requiring a plurality of bolts, will be.

The present invention is characterized in that a predetermined thermal expansion gap is formed between an outer tube and a water pipe which are coupled with an outer diameter of an exposure pipe and a stop ring is provided at the tip of the outer tube so as to have the thermal expansion gap, So that it is possible to prevent the phenomenon of being separated from the capillary connection port.

The present invention provides a simple structure in which four flange tubes and sleeves are formed and a plurality of bolts and nuts are not required, so that the connection cost of the tube can be greatly reduced and the operation can be performed easily.

1 is a cross-sectional view of a conventional capillary connector
Fig. 2 is a cross-sectional view of a state in which a conventional water pipe is repaired and then connected using a capillary connection port
FIG. 3 is a cross-sectional view of the water pipe of the present invention,
4 is a cross-sectional view of the exposure tube of the present invention,
5 is a cross-sectional view of the exposure tube and outer tube of the present invention welded on both sides
6 is a cross-sectional view of a state where the stop ring is welded to the outer tube of the present invention and the repair pipe is fixed to the opposite water pipe
7 is a cross-sectional view of the present invention connected to a capillary connector
8 is a cross-sectional view showing another embodiment of the stop ring of the present invention

BEST MODE FOR CARRYING OUT THE INVENTION The most preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view of a water pipe according to the present invention in a state where an exposure pipe is exposed in a repair pipe.

A part of the water pipe 10 is cut in a section where the water pipe 10 made of cast iron, steel pipe and synthetic resin is repaired and the maintenance pipe 11 is inserted into the cut part of the water pipe 10, After the liner work for pressing the maintenance pipe 11 is performed on the pipe 10, the connection work is completed using the capillary connection port 20. [

When the liner work is performed to press the maintenance pipe 11 on the inner diameter of the water pipe 10, the maintenance pipe 11 is exposed to the outside of the water pipe 10 12) to protrude further.

The exposure pipe 12 may vary depending on the diameter of the maintenance pipe 11, but it is preferable that the exposure pipe 12 has a protrusion interval L of about 500 to 800 mm in case of 300 mm.

FIG. 4 is a cross-sectional view of an exposure tube of the present invention in which an outer tube is coupled to an outer tube 13 having a diameter and a thickness of the water pipe 10 and made of the same material as the exposure tube 12, And an outer tube weld groove 14 is formed on the inner side so as to be coupled to the outer diameter of the exposure tube 12 so that the ends of the exposure tube 12 and the outer tube 13 coincide with each other.

The stop ring (16) is inserted before the outer tube (13) is coupled to the outer diameter of the exposure tube (12).

5 is a cross-sectional view of the exposure tube and the outer tube welded on both sides of the present invention. The outer tube 13 is joined to the outer tube of the exposure tube 12 so that the tips thereof are aligned with each other. 14 to supply the molten synthetic resin to the outer tube welded portion 18 and weld the same to the outer tube welded portion 18 and supply the molten synthetic resin at the end where the exposure tube 12 and the outer tube 13 coincide with each other, And welded and fixed together with the tip welded portion 15 by the method.

6 is a cross-sectional view of a state in which the stop ring is welded to the outer pipe of the present invention and the maintenance pipe is fixed to the water pipe on the opposite side. The stop ring 16 fitted inside the outer pipe 13 is connected to the outer pipe 13 The stationary ring 16 and the outer tube 13 are supplied with the molten synthetic resin at the ring weld 17 and welded to each other so that the thermal expansion gap between the distal end of the water pipe 10 and the stop ring 16 (h).

Since the maintenance pipe 11 is exposed at the opposite end of the water pipe 10, the tip of the maintenance pipe 11 is cut and removed so that the water pipe 10 and the maintenance pipe 11 are located at the same position.

The outer diameter of the stop ring 16 is larger than the outer diameter of the water pipe 10 and the thermal expansion distance h is 60 to 120 mm so that the stop ring 16 has a thickness of 15 to 30 mm.

7 is a sectional view showing a state where the present invention is connected to a capillary connection port so that the exposure pipe 12 is coupled to the left side of the main body 21 of the capillary connection port 20 at a portion where the water pipe 10 is cut The packing 24 is inserted into the connection head 22 and the pressure wheel 23 having the packing fixing protrusion 25 formed on the outer side of the connection head 22 is coupled to the connection head 22, So that the watertightness is maintained by connecting the pressure roller 23 to the connecting head 22 with the bolts 26 and the nuts 27. [

8 is a cross-sectional view showing another embodiment of the stop ring according to the present invention. In the stop ring 16, a protective pipe 19 is protruded to cover a part of the outer diameter of the water pipe 10, To protect what is in the thermal expansion gap (h).

The present invention having such a configuration will be described in more detail with reference to specific dimensions in reference to a water pipe 10 of 300 mm.

The water pipe 10 is cut at intervals of 500 to 1,000 mm in a section where the water pipe 10 made of cast iron, steel pipe and synthetic resin is being repaired and the water pipe 10 is inserted into the cut portion of the water pipe 10 And the liner work is performed to seal the both ends of the water pipe 10 and supply the high temperature steam or water to use the expansion property of the water pipe 11 to press the water pipe 11 to the water pipe 10.

When the liner work for pressing the maintenance pipe 11 to the inside diameter of the water pipe 10 is performed, the maintenance pipe 11 is exposed to the outside of the water pipe 10 with a protrusion interval L of 500 to 800 mm And the tip end is cut so that the tube 12 is further projected.

The stop ring 16 having a thickness of at least two times the thickness of the water pipe 10 and having a width of 15 to 30 mm is inserted into the outer diameter of the exposure pipe 12. [

The outer tube 13 having a diameter and a thickness of the water pipe 10 and made of the same material as the exposure tube 12 is cut to have a length of 400 to 650 mm and an outer tube weld groove 14 is formed from the inside, (12) so that the ends of the exposure tube (12) and the outer tube (13) coincide with each other.

The molten synthetic resin is supplied to the outer pipe weld groove 14 and welded to the outer pipe weld portion 18 when the outer pipe 13 is joined to the outer pipe 13 by the outer diameter of the exposure pipe 12, The end welded portion 15 is welded by supplying the molten synthetic resin at the front end where the tube 12 and the outer tube 13 coincide with each other or by an electric welding method so that the exposure tube 12 and the outer tube 13 are integrally formed And the outer tube 13 is provided so as to coincide with the outer diameter of the water pipe 10.

The stop ring 16 fitted inside the outer tube 13 is aligned with the tip of the outer tube 13 and the molten synthetic resin is supplied to the stop ring 16 and the outer tube 13 from the ring weld 17 And has a thermal expansion interval h of 60 to 120 mm between the tip of the water pipe 10 and the stop ring 16.

Since the thermal expansion gap h between the water pipe 10 and the stop ring 16 shrinks and expands depending on the influence of various thermal expansion coefficients depending on the water temperature and the external temperature of the water pipe 11, And the stop ring 16 prevents the thermal expansion gap h from being shrunk so that the outer tube 13 is prevented from being separated from the main body 21 of the capillary connection 20 and leaking .

Since the maintenance pipe 11 is exposed at the opposite end of the water pipe 10, the tip of the maintenance pipe 11 is cut and removed so that the water pipe 10 and the maintenance pipe 11 are located at the same position.

The exposed pipe 12 is coupled to the left side of the main body 21 of the capillary connection port 20 at the cut portion of the water pipe 10 and the water pipe 10 is connected to the opposite side of the exposed pipe 12, The packing 24 is inserted and the pressure roller 23 is engaged with the outer side of the connecting head 22 so that the packing fixing protrusion 25 fixes the packing 24 and the connecting bolt 26 and the nut 27 press the wheel 24 23 are connected to the connection head 22 so as to maintain the watertightness, thereby completing the maintenance work.

The present invention is characterized in that the protective pipe 19 protruding from the stop ring 16 toward the water pipe 10 encapsulates a part of the outer diameter of the water pipe 10 and is located at the thermal expansion interval h among the inner pipe 12, To prevent damage due to the impact of soil or stones, and to protect them, thereby prolonging the service life.

The present invention for easily performing the repairing operation as described above makes it possible to solve the difficulty due to the step difference by making the outer tube 13 coupled to the outer diameter of the exposure tube 12 have the same outer diameter as the water pipe 10, It is possible to connect the connector 20 to the connector 20 with a simple structure, so that the operation can be completed easily and quickly in correspondence with the thermal expansion coefficient, and the operation can be performed at a low cost, so that the cost can be greatly reduced.

In the present invention, a repair pipe is protruded, an outer pipe is installed to have an outer diameter such as a water pipe, and a stop ring is provided to cope with the thermal expansion coefficient. A simple structure of the outer pipe allows convenient operation The present invention provides a very useful invention that allows the user to do the same.

10: water pipe 11: maintenance pipe
12: Exposure tube 13: Outside view tube
14: Outer tube weld groove 15:
16: stop ring 17: ring weld
18: outer tube welded part 19: protective tube
20: a capillary connection port 21: a main body
22: connection head 23:
24: packing 25: packing fixing projection
26: connecting bolt 27: nut

Claims (7)

A portion of the water pipe 10 to be repaired with aging is partially cut and the pipe 11 is inserted into the cut portion of the water pipe 10 to press the pipe 11 to the water pipe 10 by heating, A water pipe connection structure for finishing a connection work using a capillary connection port (20) after a work,
An exposure pipe 12 having an inner diameter of the water pipe 10 and a maintenance pipe 11 exposed to the outside of the water pipe 10 and having a protrusion interval L;
An outer tube 13 coupled to an outer diameter of the tube 11 to fix the tube 11 to the tube 11 with a thermal expansion gap h therebetween;
A repair pipe 11 is formed at the tip of the water pipe 10 opposite to the water pipe 10 so that the outer pipe 13 and the end of the water pipe 10 are inserted into the inner diameter of the pipe connection 20, Wherein the connecting pipe is connected to the connecting pipe.
The method according to claim 1,
The outer tube 13 is coupled to the outer diameter of the exposure tube 12 so that its tip is formed at the same position and is welded like the tip weld 15 and welded to the outer tube 13 (14) is welded to the outer tube welded portion (18).
The method according to claim 1,
The outer tube 13 is formed so as to have a thickness twice as thick as the outer tube 13 inside and has a stop ring 16 having a width of 15 to 30 mm and is welded and fixed with a ring welding portion 17 The water supply connection structure of the improved maintenance water pipe.
The method according to claim 1,
Wherein the outer pipe (13) has the same diameter and thickness as the water pipe (10) and is coupled to one side of the inner diameter of the main body (21) of the capped connection pipe (20).
The method according to claim 1,
Wherein the exposure pipe 12 is formed so as to protrude 6000 to 1,000 mm from the water pipe 10 integrally with the water pipe 11 and coincide with the water pipe 10 on the opposite side. .
The method according to claim 1,
Wherein the thermal expansion gap (h) is set to 60 to 120 mm so as to correspond to the thermal expansion coefficient of the maintenance pipe (11).
The method of claim 3,
Wherein the stop ring (16) is further provided with a protective pipe (19) that covers a part of the outer diameter of the water pipe (10) and protects the thermal expansion gap (h) of the exposure pipe (12).

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