KR20090079623A - Rubber liner and nonexcavated pipe line regenerating method using rubber liner - Google Patents

Abstract

A rubber liner and a non-excavation type pipeline rehabilitation method using the same are provided to apply to a noncircular pipe by using rubber having elastic restoring force, not to erupt any particular elements in case of contacting with water, to apply widely from a small pipe to a large pipe, to apply to partial repair and entire repair by installing rubber liner having the appointed length to be overlapped with each other, to use special adhesives quickened hardening by water in due consideration of the condition of the inside of a watery or damp pipeline, and to minimize the projecting part inside a pipeline and to minimize the reduction of a flow rate by attaching rubber liner with special adhesives. A rubber liner(10) is used for repairing a pipeline, and composed of a cylindrical body(12) having the larger outside diameter(D) than the inside diameter of the pipeline and manufactured with cylindrical rubber, and a coupler formed on one or two ends of the cylindrical body to couple with an adjacent rubber liner and composed of inner, outer stepped parts(13,14) jointed by lap joint.

Description

Rubber liner and nonexcavated pipe line regenerating method using rubber liner

The present invention relates to a rubber liner used for aged water and sewage and various water supply pipes, and a non-excavation pipe rehabilitation method using the same, in particular, the pipe is large and the rotation radius is small, and can be applied to all non-circular pipes, and The present invention relates to a rubber liner that absorbs pressure fluctuations and to an unexcavated pipeline regeneration method using the same.

Techniques for rehabilitation of old pipes are divided into water supply and sewerage according to the type of pipeline to be applied, and they are divided into partial rehabilitation and total rehabilitation according to the scale of rehabilitation. Partial repair rehabilitation refers to a method of repairing a severely damaged part individually, and a full rehabilitation rehabilitation refers to a method of repairing a certain section at a time because there are many severely damaged points.

Partial repair and rehabilitation of sewage system is to clean the inside of the pipe to be rehabilitated, and then to the outside of the rubber tube type jig made to move the product impregnated with the liquid resin in the glass fiber cloth or glass fiber nonwoven fabric in the inside of the pipe. After winding, the rubber tube is expanded to be in close contact with the inner wall of the tube, and then hardened and regenerated. This method is uneconomical when the fiberglass-reinforced plastic lining layer and the pipe wall are separated when the water and water inside the pipe are not dried, and there are many repair points.

The overall repair and rehabilitation method of the sewage system is to clean the inside of the pipe to be rehabilitated, and then put the product impregnated with the liquid resin on the glass fiber cloth or the glass fiber nonwoven fabric inside the vinyl tube, and then move it to the construction site in common. Afterwards, the inside and the outside of the vinyl tube is partially inverted, and the hot water covered by the boiler is supplied between the vinyl and the vinyl to invert the entire vinyl tube, and then hardened by the temperature of the hot water. / Hot water heat curing method) and the method of supplying steam heat between vinyl and vinyl to turn the entire vinyl tube upside down and then curing it by steam heat temperature (steam pressure inversion / steam heat curing method) and vinyl Air is supplied between the vinyl to turn the entire vinyl tube upside down, and then hot water is sprayed through the nozzle to harden it (air inversion / hot water showering). Method), the vinyl tube is turned upside down and then pulled into the conduit using a winch, inflated by air pressure and then hardened by steam heat (towing / steam heat curing), and more recently by a robot instead of a winch. For example, a method of expanding by air pressure and curing by steam heat (robot insertion / steam heat curing method) is used. Like the partial repair of sewage system, this method has a problem of separating the glass fiber reinforced plastic lining layer and the pipe wall when the water and water inside the pipeline are not dried, and the curing time of the resin is limited. If the length of the section is long, there is a problem that curing occurs during the process.

The water supply system uses a different method from the sewerage system. In the case of sewerage, the repair site can be easily accessed through manholes installed at 50m intervals. Difficulties to approach lead to differences in approach.

The partial repair method of water supply is a method of partially repairing by installing a rubber band using a manpower or a robot in a part requiring repair and then installing and fixing a support or support made of stainless steel. This method is advantageous for the rehabilitation of a single point, but it is uneconomical when there are many repair points, and the step difference between the inner surface of the pipe and the stainless steel support and the rubber band is large, which adversely affects the decrease in flow rate and the fluid flow. If it is in contact with water and is damaged or damaged by the flow of water, it is likely that the reinforcement is lost.

The overall repairing method of water supply is the same as the method of descaling and cleaning the inside of the rehabilitation pipe, and after distorting and deforming the lining pipe made of PE, towing it inside the pipe, By supplying and expanding to restore the lining pipe to a circular shape (PE lining rehabilitation method), and epoxy powder coating inside the pipe to form a lining layer for rehabilitation (epoxy lining rehabilitation method) is used. In the PE lining rehabilitation method, the PE lining pipe is difficult to be applied to large pipes because only relatively small apertures are produced, and it is impossible to apply if the pipe shape is non-circular, and it is applicable only to the use of curved pipes with a large radius of rotation. The application conditions are difficult. Epoxy lining rehabilitation method requires epoxy powder coating inside the pipeline, so additional facilities such as ventilation facilities are required.If it is not completely cured, solvents such as thinner, amine or bisphenol-A, etc. There is a possibility.

Therefore, the present invention was created in view of the above circumstances, and can be applied to non-circular pipes using rubber having elastic restoring force, and other components are not eluted even when contacted with water, and all from small pipes to large pipes. It can be applied, and it can be applied to both partial repair and total repair because rubber liners made of a certain length overlap each other and can be applied for both partial repair and total repair. It is an object of the present invention to provide a rubber liner that can minimize the reduction of the flow rate by minimizing the protrusion of the inside of the pipeline by using an adhesive and adhering the rubber liner with a special adhesive.

Specific means of the present invention for achieving the above object,

In the rubber liner used to repair the pipeline,

It has an outer diameter larger than the inner diameter of the pipeline, has a cylindrical body made of cylindrical rubber, characterized in that it comprises a coupling means for mutually engaging with the mating rubber liner adjacent to both ends or one end of the cylindrical body.

In addition, according to the present invention, the outer diameter of the rubber liner is characterized in that composed of 1% to 10% larger than the inner diameter of the pipeline.

In addition, according to the invention, the coupling means is characterized in that consisting of the inner, outer stepped portion joined through the overlapping joint.

In addition, according to the present invention, the inner and outer stepped portion is characterized in that it further comprises a plurality of ring-shaped projections to increase the watertight force.

In addition, according to the present invention, characterized in that the elastic ring for pushing the outer stepped portion in the outer diameter direction with an elastic force on the inner peripheral surface of the outer stepped portion.

In addition, according to the present invention, the coupling means is characterized by consisting of an annular groove and an annular projection for fitting to the both ends of the cylindrical body.

In addition, according to the present invention, the other end of the cylindrical body is characterized in that the circular taper is formed to facilitate the flow in and out of the fluid.

On the other hand, the non-excavation pipe rehabilitation method using the rubber liner of the present invention,

Removing rust, scale, and foreign matters inside the pipe to be regenerated due to aging, corrosion and breakage by using high pressure water or a high pressure abrasive mixed with abrasive at a predetermined ratio, and then cleaning the inside of the pipe cleanly;

It is characterized in that it comprises the step of forcibly inserting the rubber liner into the conduit to install the required length by making close contact with the inner surface of the conduit with elastic restoring force.

In addition, the non-excavation pipe rehabilitation method using the rubber liner of the present invention, characterized in that it further comprises the step of applying a special adhesive to the inner surface of the pipe line and the rubber liner at the same time or selectively.

According to the rubber liner of the present invention and the non-excavation pipeline rehabilitation method using the same, since the pipeline is not excavated, it is advantageous to apply the damaged old pipeline to a complicated downtown or traffic congestion area. In addition, it is eco-friendly to shorten the life of the pipeline by simply rehabilitating the rubber liner inside the pipeline, shorten the construction period, and reduce the cost of construction.

In addition, it can be applied to non-circular pipes by using rubber with elastic restoring force, and it does not elute harmful substances even when it comes in contact with water. It can be applied from small pipes to large pipes. Since the construction overlaps with each other, there is an advantage that can be applied to both partial repair and total repair.

In addition, the rubber liner is adhered to the pipeline through the water hardening resin and is not affected by water or moisture. In addition, the cured resin in water has the advantage of minimizing the decrease in flow rate by flattening the grooves or protrusions of the inner wall of the pipe.

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

The rubber liner 10 of the present invention has a cylindrical shape as shown in FIGS. 1 and 2. The rubber liner 10 is installed by being forcedly fitted into the repaired or aged pipe 1.

The rubber liner 10 may be made of, for example, water rubber of a material in which harmful components are not eluted as drinking water. The rubber liner 10 has an outer diameter D, a thickness t, and a length L larger than the inner diameter d of the conduit 1.

Preferably, the outer diameter D of the rubber liner 10 is 1% to 10% larger than the inner diameter d of the conduit 1. If the outer diameter (D) of the rubber liner 10 is less than 1% of the inner diameter (d) of the conduit (1), the elastic restoring force in close contact with the inner wall of the conduit (1) is weak, and the outer diameter (D) of the rubber liner (10) Is larger than 10% of the inner diameter d of the conduit 1, it is difficult to force the rubber liner 10 into the conduit 1, and it is difficult to cause elastic restoration.

Both ends of the cylindrical body 12 are coupled to each other and the mating rubber liner 10, the coupling means is included to have a watertight.

The coupling means may be composed of inner and outer stepped portions 13 and 14 joined by overlapping joints as shown in FIGS. 2, 3 and 11. In this case, the inner and outer stepped portions 13 and 14 may further include a plurality of ring-shaped protrusions 13a and 14a as shown in FIG. 3 to increase the watertight force. At this time, it is preferable that the ring-shaped protrusions 13a and 14a are arranged by shifting positions of the ring-shaped protrusions 13a and 14a. In addition, the inner ring of the outer step portion 14, as shown in Figure 4 may be further provided with an elastic ring 20 for pushing the outer step portion 14 in the outer diameter direction with an elastic force.

As another embodiment, the coupling means may include an annular groove 130 and an annular protrusion 140 for fitting to both ends of the cylindrical body 12, as shown in FIG. At this time, the annular protrusion 140 is configured to fit into the annular groove 130 of the neighboring rubber liner 10.

On the other hand, rubber liners 10A and 10B having circular tapers 15 and 16 can be provided at the beginning and the end of the repair (rehabilitation) section of the conduit 1. Here, the circular taper 15, 16 is for making fluid flow in and out smoothly.

The non-excavation pipeline rehabilitation construction method using the rubber liners 10, 10A, 10B, and 10C configured as described above will be described.

In the present embodiment, when the inner diameter (d) of the pipeline 1 is set to 1,500 mm, the rubber liner 10 has an outer diameter (D) of 1575 mm, a thickness (t) of 40 mm and a length (L) of 500 mm. That is, in the present embodiment, the outer diameter D of the rubber liner 10 is larger than 5% of the inner diameter d of the conduit 1.

<Cleaning Inside Pipeline>

First, foreign matter, rust, and scale inside the pipeline damaged by aging corrosion and breakage are removed using high pressure water or abrasive water (water mixed with an abrasive) (S10). In this way, the inner wall surface of the pipeline is made flat.

<Cleaning Inside the Pipeline>

Next, to wash the inside of the pipeline (1) (S12). This is a step of discharging the foreign matter, rust and scale removed by the cleaning operation out of the pipeline using water, and cleans the inside of the pipeline.

At this time, the inner surface of the tube after cleaning and cleaning process may be dried using hot air.

<Special adhesive application>

Then, by selectively using as needed, the special adhesive (3) is applied to the inner wall of the conduit (1) in which the above cleaning and cleaning process is completed (S14). This is applied when unevenness or surface condition is severe on the inner wall of the conduit 1, a process that does not need to be applied when the condition of the inner wall surface of the conduit 1 is good. In the present embodiment, the special adhesive 3 used an underwater curing resin.

If the unevenness or surface condition of the inner wall of the conduit 1 is severe, when the special adhesive is applied, the inside of the conduit has a flat and smooth surface. At this time, the special adhesive is lubricated in a liquid state without curing to be easily adjusted in the installation process of the rubber liner (10).

<Rubber Liner Installation>

Then, a plurality of rubber liners 10 having an outer diameter (D) larger than the inner diameter (d) of the conduit (1) to be inserted into the interior of the conduit (1) in sequence (S16). In this case, as shown in FIG. 6, the rubber liner 10 is completely in close contact with the inner wall of the conduit 1 by elastic restoring force even if the rubber liner 10 is forcedly fitted in a non-shrinked state.

That is, when the rubber liner 10 in the non-circular state is pushed outward, it is elastically rebounded in a contracted state and restored to a circular shape, and at the same time, the rubber liner 10 is in close contact with the inner surface of the pipeline 1 by its elastic restoring force.

At this time, the adjacent line of the rubber liner 10 is in close contact with the surface through the inner and outer stepped portions (13,14). In addition, the special adhesive 3 applied to the inner wall of the pipe line 1 is hardened by being bonded to the rubber liner 10 (S18), and the rubber liner 10 has fine bubbles or pin holes 1a. This will improve the watertight performance. At this time, the flange portion of the conduit 1 is made through the disk-shaped rubber liner 10C as shown in FIG.

In addition, the rubber liner 10 has elasticity after installation to distribute the shock absorption and the load according to the flow of water (turbulence) and pressure changes to deliver to the tubular body. At this time, the rubber liners (10A, 10B) having a circular taper (15, 16) may be installed at the start and end of the repair section in the pipeline (1).

The rubber liner 10 constructed as described above forms a smooth rubber layer inside the repair conduit 1 to further improve the flow of water.

In addition, since the rubber liner 10 has elasticity after curing of the special adhesive, it is possible to absorb shocks due to water turbulence and pressure change, and to distribute the load to the pipe to improve the life of the pipe.

In addition, the inner and outer stepped portions 13 and 14 increase the coupling force (F2) in proportion to the internal pressure (F1) of the pipe (1) to increase the leakage preventing force. Particularly, the circular protrusions 13a and 14a are compressed to the inner and outer stepped portions 13 and 14 to subsequently perform the function of preventing leakage.

In addition, since the rubber liner 10 is made of rubber and has a contraction and elastic restoring force, the rubber liner 10 can be applied to a non-circular pipe and has an advantage that it can be applied to a curved pipe having a small rotation radius.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

The following drawings, which are attached in this specification, illustrate preferred embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited to.

1 is a partially cut away perspective view of a rubber liner according to the present invention;

Figure 2 is a front sectional view of the rubber liner according to the present invention.

Figure 3 is a first modified example of the coupling portion of the rubber liner according to the present invention.

Figure 4 is a second modified example of the coupling portion of the rubber liner according to the present invention.

Figure 5 is a third modified example of the coupling portion of the rubber liner according to the present invention.

Figure 6 is a side cross-sectional view of the rubber liner adhered to the conduit according to the present invention.

Figure 7 is a construction state of the rubber liner according to the present invention.

8 is an exemplary view showing a state in which the rubber liner according to the present invention is deformed by the hydraulic pressure inside the pipe.

9 is a block diagram of a rubber liner applied to the start and end of the pipeline regeneration section.

Figure 10 is a construction flow diagram of the non-excavated pipeline rehabilitation method using a rubber liner according to the present invention.

11 is a fourth modified example of the coupling portion of the rubber liner according to the present invention.

Figure 12 is an application example of the rubber liner when the flange joint according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10,10A, 10B, 10C: Rubber Liner

12: cylindrical body

13: inner step

13a, 14a: ring-shaped protrusion

14: outer stepped portion

15,16: round taper

130: annular groove

140: annular protrusion

Claims (9)

In the rubber liner used to repair the pipeline 1, A relative rubber liner having an outer diameter (D) larger than the inner diameter (d) of the conduit (1), having a cylindrical body (12) made of cylindrical rubber, and adjacent to both ends or one end of the cylindrical body (12). Rubber liner, characterized in that comprises a coupling means for engaging with each other 10). The method of claim 1, The outer diameter (D) is a rubber liner, characterized in that configured 1% ~ 10% larger than the inner diameter (d). The method of claim 2, The coupling means is a rubber liner, characterized in that consisting of the inner, outer stepped portion (13,14) joined through the overlapping joint. The method of claim 3, wherein The inner and outer stepped portion (13, 14) rubber liner, characterized in that it further comprises a plurality of ring-shaped projections (13a, 14a) to increase the watertight force. The method according to claim 3 or 4, Rubber liner, characterized in that the inner ring of the outer stepped portion (14) is further provided with an elastic ring (20) for pushing the outer stepped portion (14) in the outer diameter direction with an elastic force. The method of claim 2, The coupling means is a rubber liner, characterized in that consisting of an annular groove 130 and the annular projection 140 for fitting to both ends of the cylindrical body (12). The method according to any one of claims 1 to 4 and 6, Rubber liner, characterized in that the other end of the cylindrical body 12 is formed with a circular taper (15, 16) for smooth flow of fluid. Removing rust, scale, and foreign matters inside the pipe to be regenerated due to aging, corrosion and breakage by using high pressure water or a high pressure abrasive mixed with abrasive at a predetermined ratio, and then cleaning the inside of the pipe cleanly; A rubber liner using the rubber liner, comprising the step of forcibly inserting the rubber liner selected in claims 1 to 7 into the pipe line 1 to be in close contact with the inner surface of the pipe line 1 with elastic restoring force, and installing the rubber liner as necessary. Excavation Pipe Rehabilitation. The method of claim 8, Non-excavation pipeline rehabilitation method using a rubber liner, characterized in that further comprising the step of simultaneously or selectively applying a special adhesive to the inner surface and the outer surface of the rubber liner (10).

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