KR101220526B1 - Non-excavation type replacing apparatus for plastics water pipe - Google Patents

Abstract

The present invention relates to a non-excavation replacement device for a synthetic resin sewage pipe for repairing or replacing the sewage pipe on the synthetic resin material and the sewage pipe with a new sewage pipe.

Conventionally, a non-excavation replacement device for replacing a synthetic resin sewage pipe has been proposed, but since the pre-installed synthetic resin sewage pipe is crushed and discharged using a vacuum suction device, it takes a long time and requires a lot of work processes. In order to solve this problem, in order to solve the problem, in the non-excavation replacement device for a synthetic resin sewage pipe including a cutting means that is inserted into the inside of the existing synthetic resin sewage pipe to cut a plurality of places in the longitudinal direction, the cutting means 30 is a body 32 having an elastic force in which the inner and outer fixing plates 36, 38 are fixed at both ends and a plurality of mixed water supply pipes 48 are formed inside, and on the outside of the body 32. A plurality of guide plates 52 fixed in the longitudinal direction and connected to the mixed water supply pipe 48 to eject the high pressure water to the outside; 50 provides a synthetic resin material sewage tolerance trenchless replacement formula wherein the bar.

Therefore, according to the present invention, since the existing synthetic resin sewage pipe is replaced with a new sewage pipe without breaking, the construction time is shortened, the construction work is easy and convenient, and the construction cost is significantly reduced.

Sewer, repair, replacement, non-excavation, incision

Description

Non-excavation type replacing apparatus for plastics water pipes

The present invention relates to a non-excavating replacement device for a synthetic resin sewage pipe, and more particularly, to replace and repair the synthetic resin sewage pipe without excavation when replacing the synthetic resin sewage pipe buried underground, or damaged or deformed to replace it. The present invention relates to a non-excavating replacement device for a synthetic resin sewage pipe that is made possible.

In general, when a synthetic resin sewage pipe buried underground is structurally or functionally aged and deformed or damaged due to ground pressure, the sewer pipe is replaced by a digging method, or the sewer pipe is repaired by a non-digging method. .

The excavation method is a method of excavating the land in which sewage pipes are buried, crushing the already installed synthetic resin sewage pipes, and removing new synthetic resin sewage pipes, and embedding new synthetic resin sewage pipes. In the residential districts and roads of the city, there are many obstacles such as gas pipes, communication lines, surrounding buildings, and traffic that are pre-installed in the vicinity.

In the non-excavation method, a new sewage pipe is introduced into a deformed or damaged sewage pipe without dismantling the synthetic resin sewage pipe, and then crushed and discharged the sewer pipe installed first, and then a new sewage pipe is installed or a new sewage pipe inside the sewage pipe installed first. It is a method to close and fix the sewage pipe by using adhesive between the old sewer pipe and the new sewage pipe, and it is possible to replace the sewage pipe in a certain section as well as the sewage pipe work. This is the preferred situation for easy and reduced construction costs.

However, when crushing the synthetic resin sewage pipe pre-installed in the non-excavation method and discharging it by using a vacuum suction device as in the prior art, there is a problem that it takes a lot of work time and a lot of work processes, and the existing synthetic resin material When a new synthetic resin sewage pipe is introduced into the sewage pipe, it is not only easy to insert the synthetic resin sewage pipe, but also it is difficult to bond the existing synthetic resin sewage pipe with the new synthetic resin sewage pipe and it takes a lot of construction time. Problems were inherent.

The present invention has been invented to solve the above problems, the object of the present invention is very easy and convenient to repair or replace the synthetic resin sewage pipe, shorten the construction time and can significantly reduce the construction cost synthetic resin To provide a non-drillable replacement device for sewage pipes.

Non-excavation replacement device for a synthetic resin sewage pipe according to the present invention for achieving the object as described above, the synthetic resin material for sewage pipes, including a cutting means for cutting into a plurality of locations in the longitudinal direction is introduced into the existing synthetic resin sewer pipe In the non-excavating replacement device, the cutting means is a body having an elastic force is fixed to the inner and outer fixing plate at both ends and a plurality of mixed water supply pipe in the inner side, and a plurality of fixed in the longitudinal direction on the outer side of the body And a spray pipe connected to the guide plate and the mixed water supply pipe for discharging high pressure water to the outside.

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According to the present invention, since the existing synthetic resin sewage pipe is not crushed and replaced with a new synthetic resin sewage pipe, the construction time is shortened, the construction work is easy and convenient, and the construction cost is significantly reduced.

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

1 is a block diagram illustrating a non-excavation replacement method for a synthetic resin sewage pipe according to the present invention.

When the flexible pipe of the synthetic resin is applied and structurally and functionally deformed or broken, the process of internally examining the sewage pipe for irradiating the inside of the existing synthetic resin sewage pipe 10 formed of the flexible pipe of the synthetic resin material using a known CCD camera (S10) ).

At this time, if the reduction ratio of the inner diameter of the existing synthetic resin sewage pipe 10 is more than 65% to perform a replacement operation.

Subsequently, as shown in FIG. 2, a ground softening process (S20) is performed to allow the ground of the deformation part 12 to soften by passing the expander 20 into the inside of the existing synthetic resin sewage pipe 10.

The expander 20 is preferably made of aluminum, the rope 22 is connected to both sides of the expander 20, the winch is connected to one side of the rope 22 to move, When the expander 20 passes through the deformable portion 12, the ground around it softens.

The expander 20 is preferably transported from the upstream side to the downstream side, and the rollers 16 and 18 are installed at the bent portion of the manhole 14 so that the rope 22 is smoothly transferred by the winch.

When the ground is softened by the expander 20 in the periphery of the deformation part 12 in the ground softening process (S20), the sewage pipe cutting process (S30) of cutting the existing synthetic resin sewage pipe 10 in the longitudinal direction is performed.

In the sewage pipe cutting process (S30) as shown in Figure 3 while cutting the means 30 is to cut three places of the existing synthetic resin material sewer pipe 10 in the longitudinal direction.

The cutting means 30 is a rugby ball-shaped soft rubber, preferably a body 32 formed of a silicon material, and formed on both ends of the body 32 to the plurality of bolts 34 to maintain a predetermined shape It includes a pair of inner and outer fixing plates 36, 38 fixed by a predetermined interval.

The diameter of the body 32 is about 5% larger than the inner diameter of the sewage pipe 10 so that the outer surface of the body 32 and the existing synthetic resin material sewage pipe 10 when input into the interior of the existing synthetic resin sewage pipe 10 It is preferable to make the inner side of the contact closely.

In the center of the inner and outer fixing plates (36, 38), the guide tube 40 is fixedly installed in the longitudinal direction so that cables, ropes, and the like can pass therethrough.

And one side of the body 32 is not shown water supply pipe for supplying water to the mixing portion 42 and the mixing portion 42 and the water and the abrasive is mixed so as to cut the existing synthetic resin sewage pipe 10 A water supply pipe connection portion 44 to be connected and an abrasive pipe connection portion 46 to be connected to an unshown abrasive supply pipe for supplying an abrasive are respectively formed.

The mixing portion 42 is formed with a plurality of mixed water supply pipes 48 formed by dividing the inner body direction of the body 32, preferably at an angle of 120 °, and each of the mixed water supply pipes 48 has a body ( The injection pipe | tube 50 which injects mixed water outside the 32 is connected.

The distal end of the injection tube 50 is fixed to a band-shaped guide plate 52 formed of a metal material provided with a plurality of pieces in a longitudinal direction with a predetermined distance to the outside of the body 32 to deform the shape of the body 32. Even in the case, the tip of the injection pipe 50 is always configured to inject mixed water in the outer circumferential direction.

A plurality of towing rings 54 are formed on the outside of the outer fixing plate 38 so as to fix the ropes and transport them to one side, and four towing rings 54 are formed.

The cutting means 30 configured as described above connects the rope 22 to the traction ring 54 and supplies a water supply pipe and an abrasive not shown to supply water to the water supply pipe connection 44 and the abrasive pipe connection 46. When the abrasive pipe (not shown) is connected and the mixed water is injected at high pressure through the injection pipe 50 while transferring the inside of the existing synthetic resin sewage pipe 10, the injection pipe 50 is mixed with the water as shown in FIG. Incisions 10a, 10b and 10c in the longitudinal direction are formed at each position of the existing synthetic resin sewage pipe 10 for spraying the.

The diameter of the body 32 of the cutting means 30 is formed to be about 5% larger than the internal diameter of the existing synthetic resin sewage pipe 10 when the body 32 is inserted into the existing synthetic resin sewage pipe 10 for cutting The outer surface of the c) is in close contact with the inner surface of the existing synthetic resin sewage pipe 10, so that the incisions 10a, 10b, 10c cut by the mixed water are formed in a straight line.

When a plurality of cutouts 10a, 10b, 10c are formed in the existing synthetic resin sewage pipe 10 over the corresponding length of the deformable portion 12 in the longitudinal direction, a new inside of the existing synthetic resin sewage pipe 10 is formed. In order to facilitate the insertion of the sewer pipe, the sewer pipe diameter expansion step (S40) of expanding the inner diameter of the existing synthetic resin sewer pipe 10 is performed.

In the sewer pipe diameter expansion step (S40), it is preferable to use the expander 20 used in the ground softening step (S20).

The sewage pipe diameter expansion step (S40) is carried out as necessary, and may not be performed in the case of soft ground.

When the diameter of the existing synthetic resin material sewer pipe 10 is expanded in the sewer pipe expansion process (S40), a sewage pipe replacement process (S50) of inserting a new synthetic resin sewage pipe 100 into the inside thereof is performed.

In the sewer pipe replacement process (S50), a hydraulic expander 60 is applied, and the hydraulic expander 60 has a pull ring 64 in front of the expander main body 62 as shown in FIGS. 7 and 8. Are coupled, a plurality of side expansion cylinders 66 and rods 68 are installed on both sides, and the ends of the rods 68 are in contact with the inner surface of the existing synthetic resin sewer pipe 10. In accordance with the operation of (66), the side expansion pipe part 70 which extends the diameter of both side parts of the existing synthetic resin material sewer pipe 10 by repeating forward and backward operations is coupled.

In addition, a plurality of upper and lower expansion cylinders 72 and rods 74 are provided on the upper and lower sides of the main body 62, and the rods 74 have forward and backward operations according to the operation of the cylinders 72. The upper and lower expansion pipe portions 76 extending in the diameter of the upper and lower portions of the synthetic resin sewage pipe 10 by repeating are combined.

The side expansion portion 70 and the upper and lower expansion portion 76 is preferably formed in an arc shape so as to be movable even in the advanced state inside the synthetic resin sewage pipe (10).

A plurality of wheels 70a and 76a are coupled to the side expansion pipe part 70 and the upper and lower expansion pipe parts 76 so as to easily move in contact with the inner surface of the synthetic resin sewage pipe 10 during movement.

In addition, a pipe coupling portion 78 formed with a male screw is formed on the rear surface of the expander main body 62, and a new synthetic resin sewage pipe 100 is coupled to the pipe coupling portion 78 by a screwing method so that the main body ( It is conveyed integrally with 62).

Therefore, in the sewage pipe replacement process (S50), as shown in Figure 9 screw the new synthetic resin material sewage pipe 100 to be replaced in the pipe coupling portion 78 formed on the back side of the expander body 62, the front The hydraulic expander 60 is introduced into the existing synthetic resin sewage pipe 10 in the state in which the rope 22 is connected to the towing ring 64, and is transferred to the downstream side using a winch W installed outside the manhole. On the opposite side, the hydraulic resin (M) is used to push and transfer the new synthetic resin sewage pipe (100). At this time, the existing synthetic resin sewer pipe while operating the side expansion cylinder (66) and the upper and lower expansion cylinder (72). Advancing while expanding the diameter of (10).

And the front of the expander main body 62 is equipped with a known CCD camera to perform the work while monitoring the monitor from the outside.

When the hydraulic expander 60 is inserted into the inside of the existing synthetic resin sewage pipe 10 and the side expansion cylinder 66 or the upper and lower expansion cylinder 72 is operated when the obstacle is found when the monitor is observed by the rod As the diameters 68 and 74 are repeatedly moved forward and backward, the diameter of the side expansion portion 70 and the upper and lower expansion portions 76 is in contact with the inner surface of the existing synthetic resin sewage pipe 10 to apply pressure to thereby expand the diameter. Accordingly, the new synthetic resin sewage pipe 100 fastened to the pipe coupling part 78 is smoothly introduced into the existing synthetic resin sewage pipe 10.

The wheels 70a and 76a are coupled to the side expansion part 70 and the upper and lower expansion part 76 when the hydraulic expander 60 extends the diameter of the existing synthetic resin sewer pipe 10 while being transported. 70a and 76a make contact with the inner surface of the existing synthetic resin sewage pipe 10 so that the hydraulic expander 60 is more smoothly transferred.

In addition, since the plurality of cutouts 10a, 10b, 10c are formed in the length of the existing synthetic resin material sewer pipe 10, the operation of expanding the diameter of the existing synthetic resin material sewer pipe 10 is made easier and smoother. You lose.

Expanding the diameter of the existing synthetic resin material sewer pipe 10 by the hydraulic expander 60, for example, when the diameter of the synthetic resin sewer pipe 10 is 300mm, the side expansion portion 70 and the upper and lower expansion portion 76 It is possible to extend the diameter to 340 ~ 360mm by using.

The new synthetic resin sewage pipe 100 is introduced into the existing synthetic resin material sewer pipe 10 through the hydraulic expander 60, and then the hydraulic expander 60 passes through the existing synthetic resin material sewer pipe 10. When the new synthetic resin sewage pipe 100 is separated from the coupling portion 78, the sewage pipe is replaced as shown in FIG. 10.

And by connecting the length of the new synthetic resin sewer pipe 100 according to the length of the existing synthetic resin material sewer pipe 10, it is possible to replace the existing synthetic resin material sewer pipe 10 as a new synthetic resin sewer pipe 100 as a whole.

The new synthetic resin sewage pipe 100 is formed to a size of about 300mm ~ 500mm that is easy to flow through the manhole, it is preferable to use them by connecting them with screws.

The present invention as described above is not limited to the above-described specific embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various changes without departing from the gist of the present invention as claimed in the claims. will be.

The present invention will be applicable to any case of non-excavation repair or replacement of synthetic resin material sewer pipe or water pipe buried underground.

1 is a block diagram illustrating a non-excavation replacement method for a synthetic resin sewage pipe according to the present invention.

Figure 2 is a cross-sectional view showing a state in which the expansion tube is introduced into the inside of the synthetic resin sewage pipe in the present invention.

Figure 3 is a perspective view showing the cutting means in the non-excavation replacement device for a synthetic resin sewage pipe according to the present invention.

Figure 4 is a cross-sectional view of the cutting means in the non-excavation replacement device for a synthetic resin sewage pipe according to the present invention.

5 is a cross-sectional view of the cutting means viewed from another direction in FIG. 4.

Figure 6 is a state of use of the cutting means in the non-excavation replacement device for a synthetic resin sewage pipe according to the present invention.

7 is a plan view of the non-excavation replacement device for the synthetic resin sewage pipe according to the present invention.

8 is a view showing the operating state of the non-excavation replacement device for a synthetic resin sewage pipe according to the present invention.

9 is a cross-sectional view showing a state in which a new synthetic resin sewage pipe is introduced by the present invention.

10 is a cross-sectional view showing a state replaced with a new synthetic resin sewage pipe according to the present invention.

Explanation of symbols on the main parts of the drawings

10, 100: synthetic resin sewage pipe 20: expansion machine

30: cutting means 32: body

36: inner fixing plate 38: outer fixing plate

48: mixed water supply pipe 50: injection pipe

52: guide plate 60: hydraulic expander

62: main body 66: side expansion cylinder

70: side expansion part 72: cylinder for upper and lower expansion

76: upper and lower expansion portion 78: pipe coupling portion

Claims (5)

In the non-excavation replacement device for a synthetic resin sewage pipe which is inserted into the existing synthetic resin sewage pipe and includes a cutting means for cutting a plurality of places in the longitudinal direction, The cutting means 30, the body 32 having an elastic force is fixed to the inner and outer fixing plates 36, 38 at both ends and a plurality of mixed water supply pipe 48 on the inside, and the body 32 A plurality of guide plates 52 fixed in the longitudinal direction on the outside of the synthetic resin material sewer pipe, characterized in that it is connected to the mixed water supply pipe 48 and the discharge pipe 50 for discharging the high pressure water to the outside Non-rigged replacement device. delete delete delete delete

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