KR101546351B1 - System and method for pipeline renovation - Google Patents

Abstract

The present invention relates to a pipe repair apparatus and a pipe repair method using the same, which can pull a repair tube in a pipe very rapidly and stably, and also can assure sealing performance as to an open end of the repair tube. The pipe repair apparatus according to the present invention includes: the repair tube which is longitudinally installed in a predetermined length in an underground pipe; a sealing unit which has at least a pair of pressurizing objects sealing the end of the repair tube by pressurizing the end upward and downward; and an injection tube which injects an expansion fluid into the repair tube by being inserted into one end of the repair tube. The pair of pressurizing objects are combined with each other vertically under the state that the end part of the repair tube is intervened between the pair of pressurizing objects, thereby sealing the end part of the repair tube. An end part of a pulling wire is connected to the sealing unit and thus the sealing unit and the repair tube are pulled from the underground pipe by pulling of the pulling wire.

Description

SYSTEM AND METHOD FOR PIPELINE RENOVATION BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a pipe repairing apparatus, and more particularly, to a pipe repairing apparatus and a piping repairing apparatus that can secure a sealability to an open end of a repairing tube as well as capable of tracing a repairing tube very quickly and stably in a pipeline, And a pipe repairing method using the same.

In general, underground pipelines such as water pipes, sewage pipes, gas pipes, communication pipes, oil pipes and the like are structurally deteriorated due to structural deterioration, subsidence of underground ground, fluctuation of earth pressure on the ground, cracks and breakage due to external load, The water inside the pipe penetrates through cracks and broken parts to cause contamination of the soil or erosion of the ground. Therefore, maintenance of the underground pipe is frequently required.

Recently, the repair method of underground excavation has been widely carried out.

The non-drilling repair method includes a soft lining method (a pulling method, an inverting method, a traction reversing method), and a pipe making method.

The pulling method is a method in which the repair tube is brought into close contact with the inner wall surface of the pipe by pulling the repair tube into the pipe, expanding the pipe by applying pneumatic pressure or water pressure to the inner surface of the repair tube and then curing the pipe with steam heat or hot water for a long time, Is a method in which the maintenance tube is brought into close contact with the inner wall surface of the pipeline by pulling the maintenance tube into the pipeline, then reversing the inversion tube inside the repair tube by pneumatic pressure or water pressure, and then curing it with steam heat or hot water heat for a long time. The traction reversal method is a method that takes advantages of traction and reversal method.

In the conventional pulling method among the non-excavation repairing methods, a manifold having an injection valve for injecting an inflation fluid (vapor pressure, water pressure, etc.) is provided at the open end of the repair tube. Or after being inserted into the open end of the repair tube by means of a fixing clamp, a fixing band, or the like.

However, since the operator manually joins the maintenance tube and the manifold folder, it is impossible to completely seal the gap between the maintenance tube and the manifold to the outside, and since the gas injected into the maintenance tube is high temperature and high pressure, There is a problem that the gas injected into the reinforcing tube leaks through the gap between the tubes

In addition, it takes a long time to install the manifold on the end of the maintenance tube, which causes a disadvantage that a lot of time is spent in the repair work of the entire pipeline.

KR 10-1383855 B1 (2014.04.10)

SUMMARY OF THE INVENTION The present invention has been made to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide an apparatus and a method for sealing a repair tube, And a pipeline maintenance method using the same.

According to an aspect of the present invention, there is provided a pipeline repair apparatus for repairing an underground pipeline,

A repair tube installed longitudinally in the underground conduit by a predetermined interval;

A sealing unit having at least a pair of pressing members for sealing the ends of the maintenance tube by pressing them in the vertical direction; And

And an injection tube inserted into one end of the repair tube adjacent to the sealing unit to inject inflation fluid into the repair tube,

A pair of pressing members are vertically coupled with each other in a state where an end of the maintenance tube is interposed between the pair of pressing members so that the pair of pressing members seal the end of the repair tube,

Wherein the end of the traction wire is connected to the sealing unit so that the sealing unit and the repair tube are pulled in the underground channel by pulling the pull wire.

A folded portion is formed at an end of the repair tube as the end of the repair tube is folded and the folded portion of the repair tube is interposed between the pair of pressure members, So that the end of the maintenance tube is sealed.

Wherein the fastening means has a fastening bolt passing through the pair of pressing bodies in a vertical direction and a fastening nut fastened to a threaded portion of the fastening bolt, wherein the fastening bolt is provided with a pair of pressing bodies And is fastened by a fastening nut.

Wherein the fastening bolt comprises a pair of fastening bolts symmetrically coupled with respect to the pair of pressing bodies, a part of the threaded portion of the fastening bolt protrudes outward from the fastening nut, and the projected threaded portion of the fastening bolt The connection unit is detachably connected to the connection unit, and the end of the pulling wire is connected to the connection unit.

The connecting unit includes a first connecting member having a pair of fitting rings detachably fitted to the pair of fastening bolts, and a second connecting member having a spring hook detachably connected to the first connecting member. Wherein the second connector is connected in a direction orthogonal to the first connector, and a pull wire is detachably connected to the second connector.

The end of the repair tube is wound on the outer surface of the connection body so that the connection body is positioned between the overlapping portions of the repair tube, And the pair of pressure members adjacent to the body are coupled to the ends of the repair tube.

Wherein the injection tube has a tip portion closed at its tip and an injection hole is formed on the outer circumferential surface of the distal end of the injection tube adjacent to the tip portion.

The injection tube has a stopper ring for regulating an insertion depth on an outer circumferential surface of the injection tube, and the stopper ring is adjustably positioned along the longitudinal direction by an adjusting screw.

A through hole having a size smaller than that of the injection tube is formed at one end adjacent to the sealing unit of the maintenance tube, and the injection tube is inserted into the through hole and inserted.

And a discharge pipe for discharging the inflating fluid injected into the maintenance tube to the outside is inserted into the other end of the maintenance tube.

According to another aspect of the present invention, there is provided a pipeline repair method for repairing an underground pipeline by using the pipeline repair apparatus described above,

 A primary sealing step of sealing one end of the above-described maintenance tube with the pressing bodies of the sealing unit;

A pulling step of pulling the repair tube within the underground conduit by connecting a pulling wire to the sealing unit of the repairing tube;

A secondary sealing step of sealing the other end of the repair tube with the pressing member of the sealing unit after the traction of the repair tube is completed;

An injection tube mounting step of inserting an injection tube into one end of the repair tube adjacent to the sealing unit;

An inflating fluid injecting step of injecting the inflating fluid into the interior of the repair tube through the infusion tube;

A step of installing a discharge tube by inserting a discharge tube at the other end of the maintenance tube; And

And an expansion fluid discharging step of discharging the inflating fluid injected through the inflow pipe through the discharge pipe to the outside of the maintenance tube after curing the inflating fluid over a certain period of time.

According to the present invention, since the end portion of the repair tube is highly airtightly sealed by the pressing members of the sealing unit in the folded state, external leakage can be surely prevented at the time of inflation fluid being inflated, There is an advantage that the traction of the maintenance tube can be performed more quickly and stably by connecting the traction wire to the unit.

Further, since the injection tube is only inserted in a state in which the end portion of the repair tube is sealed by the sealing unit, the injection apparatus can be installed more quickly and easily than the conventional manifold. For example, it takes at least 30 minutes to seal the conventional manifold to the end of the repair tube. However, according to the present invention, since the injection tube needs only to pass through the end of the repair tube, The installation work of the injection pipe is performed and the installation work time is greatly reduced.

According to the present invention, as the pair of pressure members are fastened by the fastening means, the pair of pressure members can press the open end of the repair tube very tightly, whereby the sealability with respect to the end portion of the repair tube becomes large There is an advantage that it can be increased.

According to the present invention, since the fastening bolt is fastened by the fastening nut at a position where the fastening bolt does not interfere with the repairing tube, the end of the repairing tube of the pair of pressers can be sealed very tightly without damaging the end of the repairing tube There is an advantage.

According to the present invention, since the connecting unit is detachably connected to a part of the projected threaded portion of the fastening bolt, the connecting operation of the pulling wire can be performed very easily and quickly, and thus the efficiency of pulling work of the repairing tube is remarkably improved.

According to the present invention, it is very easy to fit the fastening bolt through the fitting ring of the first connecting body and the spring hook of the second connecting body is easily connected to the first connecting body, So that the connecting operation can be performed very easily and quickly, so that the towing operation of the maintenance tube can be performed very steadily and quickly.

According to the present invention, since the connecting member is provided at the end portion of the repair tube, the pulling wire can be installed very easily, and pulling of the repairing tube can be very effectively performed by pulling the pulling wire.

According to the present invention, the injection tube can be stably and quickly inserted into one end of the repair tube by the tip portion, and in particular, the infusion tube is inserted with the resin component impregnated into the repair tube as the inflation fluid is injected through the injection tube The injection tube can be very tightly coupled to the end of the repair tube because it can be airtightly bonded to the outer circumferential surface.

The present invention is advantageous in that the insertion depth can be appropriately adjusted according to the diameter of the repair tube as the position is adjusted along the longitudinal direction on the outer circumferential surface by the stopper ring on the outer circumferential surface of the injection tube.

The present invention is advantageous in that insertion of the injection tube can be performed more simply and quickly as the through hole is previously formed in the repair tube.

1 is a view showing a state in which a pipeline repair apparatus according to an embodiment of the present invention is pulled by a pull wire in an underground pipeline.
FIG. 2 is a view illustrating a process in which an expansion fluid is injected and expanded after a pipeline repair apparatus according to an embodiment of the present invention is pulled in an underground pipeline.
3 is an enlarged view of a portion indicated by an arrow A in Fig.
4 is an exploded perspective view showing a state in which the pressing members of the sealing unit are separated in Fig.
5 is a side view showing an alternative configuration of the sealing unit of the pipeline repair apparatus according to the present invention.
6 is a plan view as viewed in the direction of arrow B in Fig.
7 is a perspective view showing an injection pipe of a pipeline repair apparatus according to the present invention.
FIG. 8 is a process diagram showing a pipeline maintenance method according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For the sake of convenience, the size, line thickness, and the like of the components shown in the drawings referenced in the description of the present invention may be exaggerated somewhat. The terms used in the description of the present invention are defined in consideration of the functions of the present invention, and thus may be changed depending on the user, the intention of the operator, customs, and the like. Therefore, the definition of this term should be based on the contents of this specification as a whole.

1 to 7 show a pipeline maintenance apparatus according to an embodiment of the present invention.

1 and 2, the pipeline repair apparatus according to the present invention includes a repair tube 11 installed in a longitudinal direction in a longitudinal section of the underground pipeline 1, A sealing unit 20 having at least one pair of pressing members for sealing by pressing in the direction of the sealing unit 20 and an inlet tube 30 (not shown) which is inserted into one side of the repair tube 11 adjacent to the sealing unit 20 to inject the inflation fluid into the repair tube ).

The maintenance tube 11 has a maintenance layer made of a woven or nonwoven fabric such as polyester or glass fiber, and the inside of the repair layer may be impregnated with a resin such as unsaturated polyester, vinyl ester, epoxy or the like.

A traction wire 5 is connected to one end of the maintenance tube 11 and one end of the maintenance tube 11 is inserted into the underground conduit 1 through the one manhole 2a of the underground conduit 1, The maintenance tube 11 is pulled in the inside of the underground pipe 1 by the pulling of the pipe 5.

The sealing unit 20 has at least a pair of pressure members 21, 22 for pressing and sealing the end portion of the maintenance tube 11 in the up-and-down direction.

A folded portion 11a is formed at the end of the repair tube 11 as the end of the repair tube 11 is folded and the folded portion 11a of the repair tube 11 is connected to a pair of pressure members 21, and 22, respectively. As described above, since the pair of pressing members 21 and 22 are vertically coupled to the folded portion 11a of the maintenance tube 11, the sealing property of the maintenance tube 11 to the folded portion 11a can be greatly increased have.

1, a sealing unit 20 is provided at one end of the maintenance tube 11 to pull the end of the repair tube 11 in a sealed state when the towing wire 5 is pulled. After the maintenance tube 11 is completely pulled in the underground conduit 1, the other end of the maintenance tube 11 is cut, and then the sealing unit 20 is installed to seal the other end of the repair tube 11 .

In addition, two or more pairs of pressure members 21 and 22 may be provided so as to increase the sealing performance of the end portion of the maintenance tube 11. For example, as shown in FIGS. 3 and 4, two pairs of pressure members 21 and 22 May press the end of the maintenance tube 11 to seal it. Two or more pairs of pressure members 21 and 22 may be coupled to each other at the end of the maintenance tube 11 along the longitudinal direction.

The pressing members 21 and 22 are formed of a small plate member having a length L1 shorter than the width W1 and the width W1 of the pressing members 21 and 22 is larger than the width W1 of the supporting member 11 Width W2. The pair of pressing members 21 and 22 are fastened by the fastening means 25 in the vertical direction with the folded portion 11a of the maintenance tube 11 interposed between the pair of pressing members 21 and 22 So that the end of the maintenance tube 11 is hermetically sealed by the pair of pressure members 21, 22.

Particularly, the fastening means 25 is fastened through the pair of pressure members 21 and 22 in the vertical direction so that the pair of pressure members 21 and 22 are tightly fitted to the folded portion 11a of the maintenance tube 11 As shown in Fig.

As described above, as the fastening means 25 is fastened through the pair of pressure members 21 and 22, the pair of pressure members 21 and 22 can press the end portion of the maintenance tube 11 very tightly And the sealing property of the end portion of the maintenance tube 11 can be greatly increased.

The fastening means 25 has a fastening bolt 25a passing through the pair of pressing bodies 21 and 22 in the vertical direction and a fastening nut 25b fastened to the threaded portion of the fastening bolt 25a. With this configuration, the head portion of the fastening bolt 25a is located on the lower surface of the lower pressing body 21, and the threaded portion of the fastening bolt 25b passes through the pair of pressing bodies 21 and 22, And projects toward the upper side of the pressure body 22, and a fastening nut 25b is fastened to the threaded portion of the fastening bolt 25a.

Particularly, a pair of fastening bolts 25a and a pair of fastening nuts 25b are symmetrically fastened to the pair of pressing bodies 21, 22 so as to enhance the sealing property to the end portion of the maintenance tube 11 .

The fastening bolt 25a passes through the pair of pressure members 21 and 22 at a position where the fastening bolt 25a does not interfere with the maintenance tube 11 and is then fastened by the fastening nut 25b, There is an advantage that the end portion of the maintenance tube 11 by the pair of pressure members 21 and 22 can be very tightly sealed without damaging the end portion of the maintenance tube 11. [

According to one embodiment, as shown in FIGS. 3 and 4, a connecting body 41 to which a pulling wire 5 is connected is provided at the end of the maintenance tube 11. 22 of the sealing unit 20 are attached to the overlapping portion 11a of the repair tube 11 after the ends of the repairing tube 11 are wound on the outer surface of the connecting body 41, The coupling member 41 is firmly coupled to the clearance of the overlapping portion 11a of the maintenance tube 11.

The connecting member 41 has a cylindrical structure, and the end portion of the maintenance tube 11 can be easily wound around the connecting member 41. At both ends of the linking member 41, an engaging groove 41a to which the end of the pulling wire 5 is engaged is formed.

As described above, since the connecting member 41 is provided at the end of the maintenance tube 11, the installation of the traction wire 5 is made very simple and the pulling of the traction wire 5 pulls the maintenance tube 11 very effectively There is an advantage that can be achieved.

According to another embodiment, the fastening means 25 includes a pair of fastening bolts 25a symmetrically coupled to the pair of pushing members 21, 22, and a fastening bolt 25a fastened in correspondence with the fastening bolts 25a And a pair of coupling nuts 25b.

A part of the threaded portion of the fastening bolt 25a protrudes outward from the fastening nut 25b and the connecting unit 50 is detachably connected to a part of the threaded portion of the fastening bolt 25a, 50) is connected to the end of the traction wire.

Since the connecting unit 50 is detachably connected to a part of the projecting thread of the fastening bolt 25a, the connecting operation of the traction wire 5 can be performed very simply and quickly, There is an advantage that the working efficiency is greatly improved.

The connecting unit 50 is provided with a first connecting body 51 having a pair of fitting rings 53 detachably fitted to the pair of fastening bolts 25a and a second connecting body 51 detachably connected to the first connecting body 51 And a second link body 52 having a spring hook 54,

The first connecting body 51 is formed in a bar shape having a fitting ring 53 at both ends thereof and the fitting ring 53 of the first connecting body 51 is detachably fitted to the fastening bolt 25a have.

The second link member 52 has a cylindrical structure having a spring hook 54 such as a carabiner at both ends thereof and one spring hook 54 of the second link member 51 is connected to the first link member 51, and the pulling wire 5 is connected to the other side spring hook 54 of the second linking body 51. 6, the second connection body 52 is connected to the first connection body 51 in a direction orthogonal to the first connection body 51 and the second connection body 52 is connected to the pulling wire 5 in a detachable manner .

According to this alternative embodiment, it is very easy to fit the fastening bolt 25a through the fitting ring 53 of the first connector 51 and the second connector 52 The connection of the pulling wire 5 can be maintained extremely stably and stably as well as the connecting operation thereof can be made very simple and quick so that the pulling operation of the maintenance tube 11 Can be very stable and quick.

The injection tube 30 is formed with a closed tip portion 31 at its tip and an injection hole 32 is formed on the outer peripheral surface of the distal end of the injection tube 30 adjacent to the tip portion 31, The inflating fluid can be injected into the maintenance tube 11 through the openings.

Thus, the injection tube 30 can be stably and quickly inserted into the end portion of the maintenance tube 11 by its closed tip portion 31, and particularly, as the inflation fluid is injected through the injection tube 30, Since the resin component impregnated into the tube 11 can be hermetically adhered to the outer circumferential surface of the injection tube 30 into which the resin component impregnated into the tube 11 is inserted, the injection tube 30 can be very tightly coupled to the end of the repair tube 11 have.

The stopper ring 33 is provided on the outer circumferential surface of the injection pipe 30 to regulate the insertion depth at which the injection pipe 30 is inserted into the end portion of the maintenance tube 11, 34 so as to be positionally adjustable along the longitudinal direction of the injection tube 30. As the position of the stopper ring 33 is adjusted along the longitudinal direction on the outer circumferential surface of the injection tube 30, the depth of insertion of the stopper ring 33 can be appropriately adjusted according to the diameter of the repair tube 11.

A through hole (not shown) smaller than the injection tube 30 is formed in advance on one side of the maintenance tube 11 adjacent to the sealing unit 20, and the injection tube 30 can be forcibly inserted into the through hole. As described above, since the through hole is previously formed in the maintenance tube 11, insertion of the injection tube 30 can be performed more easily and quickly.

2, the sealing unit 20 is installed at the opposite end of the maintenance tube 11, that is, the position where the injection tube 30 is installed, so that the other end of the repair tube 11 is sealed Thereafter, the discharge pipe 38 is inserted, and the inflation fluid injected into the maintenance tube 11 through the discharge pipe 38 can be discharged to the outside. A muffler 39 is installed at the end of the discharge pipe 38.

According to this configuration, when the maintenance tube 11 is inflated by the inflation fluid such as steam or water pressure injected through the infusion tube 30 and then hardened after a certain period of time, the inflation fluid is discharged through the discharge tube 38 can do.

As described above, according to the present invention, since the ends of the repair tube 11 are tightly sealed by the pressure members 21 and 22 of the sealing unit 20 in the folded state, external leakage can be surely prevented And the traction wire 5 is connected to the sealing unit 20 sealing the end portion of the maintenance tube 11, so that the traction of the maintenance tube can be performed more quickly and stably.

In addition, since the injection tube 30 is only inserted in a state in which the end of the repair tube 11 is sealed by the sealing unit 20, the installation of the injection apparatus is very quick and simple compared with the conventional manifold There are advantages to be able to. For example, it takes at least 30 minutes to sealingly connect the conventional manifold to the end of the repair tube. However, according to the present invention, since the injection tube 30 is only inserted into the end of the repair tube 11, The installation work of the injection tube 30 is performed within 2 minutes and the installation work time is greatly reduced.

8 is a process diagram showing a pipe maintenance method for repairing the underground pipe 1 by using the pipe repair apparatus described above.

8, the pipeline maintenance method according to the present invention includes a primary sealing step S1 for sealing one end of the maintenance tube 11 with the pressure members 21, 22 of the sealing unit 20, A retraction step S2 for retracting the maintenance tube 11 by connecting the traction wire 5 to the sealing unit 20 of the maintenance tube 11 and a retraction step S2 for retracting the maintenance tube 11 after the retraction of the maintenance tube 11 is completed A second sealing step S3 of sealing the other end of the sealing tube 20 with the pressing bodies 21 and 22 of the sealing unit 20; (S5) for injecting the inflating fluid into the repair tube (11) through the infusion tube (30), and an inflation fluid injection step (S5) for injecting the inflation fluid into the repair tube 38), a discharge tube mounting step (S6) for inserting the inflating fluid injected through the inflow pipe (38) into the repair tube (11) after curing the inflated fluid after a lapse of a predetermined time, And a fluid discharge step (S7).

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

1: underground conduit 5: pull wire
11: Maintenance tube 20: Sealing unit
21, 22: pressing body 25: fastening means
25a: fastening bolt 25b: fastening nut
30: injection tube 31:
32: injection hole 33: stopper ring
34: adjusting screw 41: connecting body
50: connection unit

Claims (5)

A repair tube installed longitudinally in the underground conduit by a predetermined interval;
A sealing unit having at least a pair of pressing members for sealing the ends of the maintenance tube by pressing them in the vertical direction;
An injection tube inserted into one end of the repair tube adjacent to the sealing unit to inject inflation fluid into the repair tube; And
And a stopper ring regulating an insertion depth of the injection tube,
Wherein the stopper ring is adjustably positioned along the longitudinal direction of the injection tube at the outer circumferential surface of the injection tube by an adjusting screw,
The pair of pressure members are vertically coupled by a pair of fastening bolts in a state in which the ends of the repair tube are interposed between the pair of pressure members so that the pair of pressure members seal the end of the repair tube , The end of the pulling wire is connected to the fastening bolt of the sealing unit through the connecting unit,
Wherein the connection unit includes a first connector having a pair of fitting rings detachably fitted to the pair of fastening bolts, and a second connector having a spring hook detachably connected to the first connector, And a sieve body. The method according to claim 1,
A folded portion is formed at an end of the repair tube as the end of the repair tube is folded and the folded portion of the repair tube is interposed between the pair of pressure members, And the end of the maintenance tube is sealed. The method of claim 2,
Wherein the fastening means has a fastening bolt passing through the pair of pressing bodies in a vertical direction and a fastening nut fastened to a threaded portion of the fastening bolt, wherein the fastening bolt is provided with a pair of pressing bodies And is fastened by a fastening nut. The method according to claim 1,
Wherein the injection tube has a tip portion closed at its tip and an injection hole is formed on an outer circumferential surface of the distal end of the injection tube adjacent to the tip portion. A pipeline repair method for repairing an underground pipeline by using a pipeline repair apparatus according to any one of claims 1 to 4,
A primary sealing step of sealing one end of the maintenance tube with the pressing bodies of the sealing unit;
A pulling step of pulling the repair tube within the underground conduit by connecting a pulling wire to the sealing unit of the repairing tube;
A secondary sealing step of sealing the other end of the repair tube with the pressing member of the sealing unit after the traction of the repair tube is completed;
An injection tube mounting step of inserting an injection tube into one end of the repair tube adjacent to the sealing unit to insert the tip portion of the injection tube into the repair tube;
An inflating fluid injecting step of injecting the inflating fluid into the interior of the repair tube through the infusion tube;
A step of installing a discharge tube by inserting a discharge tube at the other end of the maintenance tube; And
And an inflating fluid discharging step of discharging the inflating fluid injected through the inflow pipe to the outside of the repairing tube after curing the inflating fluid over a predetermined period of time,
Wherein the pipe is installed while adjusting the insertion depth of the injection pipe by stoppering in the injection pipe installation step.

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