KR101316027B1 - Apparatus for pulling in liner tube for non-digging renovation - Google Patents

Abstract

The present invention relates to a traction device for a non-excavation method for repairing tubes that can be carried out more quickly and smoothly.
Towing device of the non-excavation method maintenance tube according to the present invention is a towing unit for towing a tow line connected to the end side of the repair tube at the arrival manhole side; An introduction guide unit installed at an upper opening side of the starting manhole of the underground pipe line and guiding a repair tube introduced through the upper opening of the starting manhole; An upper guide unit installed at an upper end side of the arrival manhole of the underground pipeline; And a lower guide unit installed at a lower side of the arrival manhole of the underground pipe passage, wherein each of the upper guide unit and the lower guide unit has one or more guide rollers for guiding a pull line of the non-excavation method repair tube. Is rotatably installed, the tension between the upper guide unit and the lower guide unit is installed in tension in the vertical direction, one end of the tension line is tensionally connected to the upper guide unit side, the other end of the tension line Is fixed to the lower guide unit side, the upper guide unit is supported on the upper side of the arrival manhole, and the lower guide unit is characterized in that it is supported on the lower side of the arrival manhole.

Description

Traction device for non-excavation repair tube {APPARATUS FOR PULLING IN LINER TUBE FOR NON-DIGGING RENOVATION}

The present invention relates to a repair tube for non-excavation method, and more particularly to a traction apparatus for a non-excavation method repair tube that can be carried out more quickly and smoothly the towing operation of the non-excavation method repair tube.

In general, underground buried pipes such as water pipes, sewer pipes, gas pipes, communication pipes, etc. are flooded due to structural aging and subsidence of underground soil, ground pressure fluctuations, cracks and breaks caused by external loads, Wastewater in the soil penetrates underground through these cracks and broken parts, contaminating the soil and causing ground erosion.

Recently, as a repair method for underground buried pipes, a non-excavated method that does not excavate around a buried pipe is widely used. Non-excavated methods include a traction method, an inversion method, and a traction reverse method.

Traction industry is a method of integrating the repair tube to the inner wall surface of the pipeline by inserting the maintenance tube into the pipeline by traction and expanding it by applying pneumatic or water pressure to the inner diameter surface of the maintenance tube and curing it for a long time with steam or hot water heat. , The reversal method is a method of inverting the repair tube into the pipeline by pneumatic or hydraulic pressure, and then hardening it for a long time by steam heat or hot water heat to adhere the repair tube to the inner wall surface of the pipeline. Traction reversal method is a method that takes advantage of the traction and reversing method.

This non-excavation method heat cures the repair tube to form Cured-In-Place-Pipe (CIPP) on the inner wall of the underground pipe. In particular, the repair tube is impregnated with resin. The reinforcement layer is configured to be in close contact with or adhered to the inner wall of the underground pipe by the resin.

On the other hand, in the non-excavation method, the traction method and the traction reversal method are disadvantages in that the repair tube is severely damaged due to contact or friction with the manhole, the inlet or the outlet of the underground pipe during the towing of the repair tube into the underground pipe. There was this.

In addition, as the repair tube contacts or rubs the inside of the manhole, the inlet or the outlet of the underground pipe, external force is generated during the towing operation of the repair tube, and thus, the towing operation of the repair tube is not smooth. There was a disadvantage of being overloaded.

In particular, in the case of a long construction length per repair tube or a large diameter pipeline (800 ~ 1500mm), the contact or friction of the repair tube is more severe, it is difficult to smooth the towing operation has a disadvantage in that the entire construction time takes a long time.

The present invention has been made in view of the above point, and provides a traction apparatus for a non-excavation method for the maintenance tube to be carried out more quickly and smoothly during the insertion of the repair tube into the underground tube. Its purpose is to.

One aspect of the present invention for achieving the above object is a towing apparatus of a non-excavation method for the maintenance tube to be pulled from the arrival manhole side of the underground pipeline to the maintenance tube introduced through the start manhole of the underground pipeline,

A towing unit for pulling a tow line connected to an end side of the maintenance tube from an arrival manhole side;

An introduction guide unit installed at an upper opening side of the starting manhole of the underground pipe line and guiding a repair tube introduced through the upper opening of the starting manhole;

An upper guide unit installed at an upper end side of the arrival manhole of the underground pipeline; And

And a lower guide unit installed at a lower side of the arrival manhole of the underground pipeline.

Each of the upper guide unit and the lower guide unit is provided with at least one guide roller rotatably individually for guiding the tow line of the maintenance tube for the non-excavation method,

Between the upper guide unit and the lower guide unit, the tension line is installed in a tension in the vertical direction, one end of the tension line is tensionally connected to the upper guide unit side, the other end of the tension line on the lower guide unit side By being fixed, the upper guide unit is supported on the upper side of the arrival manhole, and the lower guide unit is supported on the lower side of the arrival manhole.

In the introduction guide unit, three guide rollers are arranged in a triangular structure, and each guide roller is rotatably installed, and a maintenance tube is introduced through the upper opening of the starting manhole by three guide rollers arranged in the triangular structure. It is characterized by guiding.

The upper guide unit is partially supported by the upper opening of the arrival manhole, one or more guide rollers are rotatably installed on one side of the upper guide unit, and the tension line is tensioned on the other side of the upper guide unit. It is characterized in that the tension unit is installed.

A locking jaw is formed at at least one end of the upper guide unit, and the upper guide unit is supported by the locking jaw caught by an upper edge of the opening of the arrival manhole, or a hook extending in the circumferential direction from the locking jaw. It is characterized by being caught by the upper opening edge of the arrival manhole by a ring and the locking jaw.

The tension unit includes a ratchet gear rotatably installed on the side wall of the upper guide unit and a latch piece installed adjacent to the ratchet gear,

A plurality of teeth are formed on an outer circumferential surface of the rat gear, a rotation shaft is integrally extended to one side of the rat gear, the rotation shaft and the rat gear rotate together, and an insertion slot into which one end of the tow rope is inserted is inserted into the rotation shaft. It is formed, one end of the latch piece is pivotally installed on the upper guide unit side, the other end of the latch piece is characterized in that the stopper capable of engaging on the tooth side of the ratchet gear.

The lower guide unit is supported across the lower opening of the arrival manhole, and the guide roller is rotatably installed on one side of the lower guide unit, and the other end of the tension line is fixed to the other side of the lower guide unit. It is characterized in that the shaft is installed.

A locking jaw is formed at an end of the lower guide unit, and the locking jaw of the lower guide unit is caught and supported by a lower opening edge of the arrival manhole.

An auxiliary guide unit is installed below the start manhole, and the auxiliary guide unit is provided with a plurality of guide rollers spaced apart in a horizontal direction.

According to the present invention, the traction operation efficiency of the repair tube can be increased by introducing the guide tube unit while the maintenance tube is stably folded by the introduction guide unit having a plurality of guide rollers arranged in a triangular structure at the upper opening side of the start manhole, and also the maintenance tube. By stably guiding the tow line to tow through the upper guide unit and the lower guide unit of the arrival manhole, there is an advantage that the maintenance tube can be reliably prevented from contacting or rubbing against the inner wall surface of the underground pipeline or the inside of the manhole during towing. .

In particular, the present invention, the upper guide unit and the lower guide unit for guiding the traction line to be towed by the traction unit is securely supported by the tension unit and the tension line to the upper and lower ends of the arrival manhole, respectively, the traction efficiency by the traction unit There is an advantage that can be greatly improved.

1 is a view showing a state in which the traction device of the maintenance tube for non-excavation method according to an embodiment of the present invention is applied.
FIG. 2 is an enlarged view of a portion A of FIG. 1.
3 is a plan view seen from the arrow B direction of FIG.
FIG. 4 is an enlarged view of a portion C of FIG. 1.
FIG. 5 is an enlarged view of a portion D of FIG. 1.
6 is a perspective view illustrating the upper guide unit of FIG. 4.
7 is a perspective view illustrating the lower guide unit of FIG. 5.

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

1 to 7 is a view showing a traction device of a non-excavation method for the maintenance tube according to an embodiment of the present invention.

As shown, the traction device of the maintenance tube for non-excavation method according to the present invention by the traction unit 100 and the traction unit 100 to pull the traction line 15 connected to one end side of the maintenance tube 10 It includes a plurality of guide units (210, 220, 230) for guiding the maintenance tube 10 and the traction line 15 to be towed.

The repair tube 10 is towed by the towing unit 100 into the repair section 1a to be repaired in the underground pipeline 1.

The maintenance section 1a of the underground pipeline 1 is formed with an introduction end 1b adjacent to the starting manhole 2 or other accessible entrance and a leading end 1c adjacent to the arrival manhole 3 or other accessible entrance. have. Thus, the repair tube 10 is introduced into the underground pipe line 1 by being introduced from the start manhole 2 and pulled to the leading end 1c through the introduction end 1b of the repair section 1a.

The towing unit 100 may be configured with various towing mechanisms such as a towing position for towing the repair tube 10 introduced through the starting manhole 2 on the arrival manhole 3 side.

The plurality of guide units 210, 220, 230 are installed at the upper side of the introduction guide unit 210 installed at the start manhole 2 side of the underground pipeline 1 and the arrival manhole 3 of the underground pipeline 1. The upper guide unit 220, the lower guide unit 230 is installed on the lower side of the arrival manhole (3) of the underground pipeline (1).

The introduction guide unit 210 is installed at the upper opening side of the start manhole 2 of the underground pipeline 1, and the three guide rollers 211, 212, 213 are arranged in a triangular structure in the introduction guide unit 210. Each guide roller 211, 212, 213 is rotatably installed on the introduction guide unit 210. By the guide rollers 211, 212, and 213 arranged in a triangular structure in this way, the maintenance tube 10 may be introduced while being properly folded at the top opening side of the starting manhole 2, thereby pulling the maintenance tube 10 to a work. This can be done more efficiently.

In addition, an auxiliary guide unit 240 is installed below the start manhole 2, and a plurality of guide rollers 241 are installed in the auxiliary guide unit 240 so as to be spaced apart in the horizontal direction, and the plurality of guide rollers 241. The maintenance tube 10 introduced through the starting manhole 2 can be stably guided in the horizontal direction into the underground pipeline 1.

In addition, the auxiliary guide unit 240 may facilitate the installation work in the start manhole (2) by being configured as a structure that can be folded and expandable and height adjustable.

Between the upper guide unit 220 and the lower guide unit 230, the tension line 250 is installed in a tension in the vertical direction, one end of the tension line 250 is connected to the upper guide unit 220 side tension, The other end of the tension line 250 is fixed to the lower guide unit 230 side, so that the upper guide unit 220 is supported on the upper side of the arrival manhole 3, and the lower guide unit 230 of the arrival manhole 3 It is supported on the bottom side.

The upper guide unit 220 is installed to be supported across the upper opening side of the arrival manhole (3), in particular at least one end of the upper guide unit 220 is formed with a locking jaw 225, the upper guide unit ( The catching jaw 225 of the 220 may be caught and supported by the upper opening edge of the arrival manhole 3.

One side of the upper guide unit 220 is provided with one or more guide rollers 221 rotatably installed to guide the tow line 15 connected to the end of the maintenance tube 10, the tension unit on the other side of the upper guide unit 220 260 is installed.

The tension unit 260 includes a ratchet gear 261 rotatably installed on the sidewall of the upper guide unit 220, and a latch piece 262 disposed adjacent to the ratchet gear 261.

A plurality of teeth 261a are formed on an outer circumferential surface of the rat gear 261, and a rotation shaft 263 is integrally extended to one side of the rat gear 261, thereby rotating shaft 263 and the rat gear 261. Can rotate together. In addition, an insertion slot 263a into which one end of the tow line 250 is inserted is formed at the rotation shaft 263.

One end of the latch piece 262 is pivotally installed on the upper guide unit 220 side, and the other end of the latch piece 262 is provided with a stopper 262a that can be engaged with the teeth 261a side of the latch gear 261. Is formed.

The lower guide unit 230 is installed to be supported across the lower opening side of the arrival manhole 3, in particular, at least one end of the lower guide unit 230 is formed with a locking jaw 235, the lower guide unit ( The locking jaw 235 of the 230 may be caught and supported by the bottom opening edge of the arrival manhole 3.

One side of the lower guide unit 230 is provided with one or more guide rollers 231 rotatably installed to guide the tow line 15 connected to the end of the maintenance tube 10, the fixed shaft on the other side of the lower guide unit 230 233 is installed, the other end of the tension line 250 is fixedly tied to the fixed shaft 233.

On the other hand, the tension line 250 is tensioned in the vertical direction by the tension operation of the tension unit 260 in the state in which the other end of the tension line 250 is fixed to the fixed shaft 233 side of the lower guide unit 230. .

That is, while the other end of the tension line 250 is fixed to the fixed shaft 233 side of the lower guide unit 230, one end of the tension line 250 is inserted into the insertion slot 263a side of the rotation shaft 263. After rotating the rotary shaft 263 and the ratchet gear 261, one end of the tension line 250 is wound on the rotation axis 263 side, the tension line 250 is applied to the tension operation of the tension unit 260 It is firmly tensioned in the vertical direction. The tension state of the tension cord 250 is fixedly maintained as the stopper 262a of the latch piece 262 is caught on the side of the teeth 261a of the rat gear 261.

8 and 9 illustrate another example of the upper guide unit 220 described with reference to FIGS. 4 and 6.

As shown, the upper guide unit 220 is installed to be supported on the upper opening side of the arrival manhole (3), in particular, at least one end of the upper guide unit 220 is formed with a locking step 225, the upper The locking jaw 225 of the guide unit 220 may be caught and supported by the upper opening edge of the arrival manhole (3).

In addition, a ring-shaped locking ring 265 may be installed to extend in the circumferential direction from the locking step 225 so as to be caught and supported by the upper opening edge of the arrival manhole 3. The configuration except for the locking ring 265 is as described with reference to FIGS. 4 and 6.

As described above, the present invention, the maintenance tube 10 through the introduction guide unit 210 having a plurality of guide rollers 211, 212, 213 arranged in a triangular structure on the upper opening side of the start manhole (2) is stable By introducing while folding into the water can improve the towing operation efficiency of the maintenance tube 10, and also the tow line 15 for pulling the maintenance tube 10 to the upper guide unit 220 and the lower guide unit of the arrival manhole ( By stably guiding through 230, there is an advantage that the maintenance tube 10 can be reliably prevented from contacting or rubbing against the inner wall surface of the underground pipeline 1 or the inside of the manholes 2 and 3 during towing.

In particular, the present invention, the upper guide unit 220 and the lower guide unit 230 for guiding the traction line 15 to be towed by the traction unit 100 is the arrival manhole by the tension unit 260 and the tension line 250 As it is firmly supported on each of the top and bottom of (3), there is an advantage that can significantly improve the traction efficiency by the traction unit 100.

1: underground pipeline 2, 3: manhole
10: Repair Tube 15: Tow Line
100: towing unit 210: introduction guide unit
220: upper guide unit 230: lower guide unit
240: auxiliary guide unit 250: tension
260: tension unit

Claims (8)

As a towing device for non-excavation repairing tube, which pulls a repair tube introduced through a manhole at the beginning of a underground pipe from the arrival manhole of the underground pipe,
A towing unit for towing a tow line connected to one end side of the maintenance tube from an arrival manhole side;
An introduction guide unit installed at an upper opening side of the starting manhole of the underground pipe line and guiding a repair tube introduced through the upper opening of the starting manhole;
An upper guide unit installed at an upper end side of the arrival manhole of the underground pipeline; And
And a lower guide unit installed at a lower side of the arrival manhole of the underground pipeline.
Each of the upper guide unit and the lower guide unit is provided with at least one guide roller rotatably individually for guiding the tow line of the maintenance tube for the non-excavation method,
Between the upper guide unit and the lower guide unit, the tension line is installed in a tension in the vertical direction, one end of the tension line is tensionally connected to the upper guide unit side, the other end of the tension line on the lower guide unit side The upper guide unit is fixed by being supported on the upper side of the arrival manhole, and the lower guide unit is pulled device of the maintenance tube for the non-excavation method, characterized in that the lower side of the arrival manhole. The method according to claim 1,
In the introduction guide unit, three guide rollers are arranged in a triangular structure, and each guide roller is rotatably installed, and a maintenance tube is introduced through the upper opening of the starting manhole by three guide rollers arranged in the triangular structure. Towing apparatus of the maintenance tube for non-excavation method, characterized in that for guiding while folding. The method according to claim 1,
The upper guide unit is partially supported by the upper opening of the arrival manhole, one or more guide rollers are rotatably installed on one side of the upper guide unit, and the tension line is tensioned on the other side of the upper guide unit. Traction device of the non-excavation method maintenance tube, characterized in that the tension unit is installed. The method according to claim 3,
A locking jaw is formed at at least one end of the upper guide unit, and the upper guide unit is supported by the locking jaw caught by an upper edge of the opening of the arrival manhole, or a hook extending in the circumferential direction from the locking jaw. Towing apparatus of the maintenance tube for the non-excavation method, characterized in that supported by the ring and the engaging jaw caught in the upper opening edge of the arrival manhole. The method according to claim 3,
The tension unit includes a ratchet gear rotatably installed on the side wall of the upper guide unit and a latch piece installed adjacent to the ratchet gear,
A plurality of teeth are formed on an outer circumferential surface of the rat gear, a rotation shaft is integrally extended to one side of the rat gear, the rotation shaft and the rat gear rotate together, and an insertion slot into which one end of the tow rope is inserted is inserted into the rotation shaft. Is formed, one end of the latch piece is pivotally installed on the upper guide unit side, the other end of the latch piece is a stopper for non-excavation method characterized in that the stopper is formed on the teeth side of the ratchet gear is formed. Traction device. The method according to claim 1,
The lower guide unit is supported across the lower opening of the arrival manhole, one or more guide rollers are rotatably installed on one side of the lower guide unit, and the other end of the tension line is fixed to the other side of the lower guide unit. Traction device of the non-excavation method repair tube, characterized in that the fixed shaft is installed. The method of claim 6,
A locking jaw is formed at an end of the lower guide unit, and the locking jaw of the lower guide unit is caught by a lower opening edge of the arrival manhole, and is supported by a traction device for a non-excavation method. The method according to claim 1,
An auxiliary guide unit is installed below the start manhole, and a plurality of guide rollers are installed in the auxiliary guide unit to be spaced apart in the horizontal direction.

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