KR100621651B1 - Non-excavating repair materials of a pipe - Google Patents

Abstract

The present invention relates to a non-excavation repair member of a pipeline installed in close contact with an inner wall surface of a pipeline which is expanded and then broken and cracked after being inserted into the pipeline in a contracted state in a cylindrical shape, and is unwound when it is wound in a cylindrical shape. Has a predetermined elastic force, one end overlapping the other end and overlapping the sleeve is formed with a engaging hole, the other end of the sleeve is joined to the outer surface of the sleeve, the engaging projection is fastened to the engaging hole so as not to shrink after the sleeve is expanded Consists of side sheets protruding to the side, excluding the overlapping area, there is no processing part such as incision in the sleeve itself, ensuring reliable exponentialness without disturbing the flow of sewage. Afterwards, restraint that suppresses contraction can be made more sure and stable.

Pipeline, non-excavation, repair member, auxiliary sheet

Description

Non-excavating repair materials of a pipe

1 is a perspective view for explaining a non-excavation repair member according to the prior art.

Figure 2 is a state of use of the non-excavation repair member of the pipeline according to the present invention.

3 is a perspective view of the present invention.

4 is an exploded perspective view of the present invention.

5 is a cross-sectional view of the present invention.

6 and 7 is a reference diagram for explaining the operation of the present invention installed in the pipeline.

Figure 8 is an exploded perspective view for explaining the repair member of the present invention is further provided with a sealing index material.

* Description of the symbols for the main parts of the drawings *

100: sleeve 110: hook hole

200: auxiliary sheet 210: jamming projection

300: sealing index material

The present invention relates to a non-excavation repair member of the pipeline, in particular, there is no machining portion such as incision in the sleeve itself except for the overlapping area can be ensured high reliability index without disturbing the flow of sewage. In addition, the present invention relates to a non-excavation repair member of a conduit adapted to make the restraint which restrains shrinkage more secure and stable after expansion.

In general, the non-excavation repair member refers to a member for repairing various abnormal parts that may cause leakage, such as partially ruptured pipelines, gaps in joints, or steps. This repair member is wound into a cylindrical shape and inserted into the conduit in a contracted state, and then expanded and installed in close contact with the damaged and cracked conduit.

As a non-excavation internal repair method for repairing a pipeline while it is buried underground, the entire repair method is repaired by inserting a synthetic resin pipe into the abnormal section as a whole, and only the abnormal site using adhesive resin solution and glass fibers. Lining part repair method to partially repair by applying impregnated adhesive resin solution to glass fiber, and hardening partially. In addition to adhesive resin liquid and glass fiber, stainless steel plate configured to be wound in the inside of this repair material as a reinforcing support tube Improved lining partial repair method for hardening and repairing abnormal areas, reinforcing ring method for installing a non-excavated repair member of stainless steel configured to be wound in a cylindrical form in close contact with the pipeline.

Among the above methods, the reinforcing ring method using the non-excavation repair member is widely used for non-excavation repair due to the relatively short working time and the simple construction method. Therefore, it is urgent to develop a non-excavation repair member with better performance. to be.

1 is a perspective view for explaining a non-excavation repair member according to the prior art.

As shown, the non-excavation repair member according to the prior art is composed of a sleeve 10 wound in a cylindrical shape made of stainless steel, the sleeve 10 is wound around one end of the outer peripheral surface of the sleeve 10 The latching protrusion 11 is formed to restrain the shrinkage of the sleeve 10 while being caught in the other end of the sleeve 10 after being expanded in the extended state.

Looking at how to repair the pipeline (P) using such a repair member as follows.

First, the sleeve 31 is mounted on the outer side of the water bag-type water retainer 30 in which the body 31 expands by air injection. At this time, the water retainer 30 body 31 is in a state in which air is deflected and the sleeve 10 is also in a state of being contracted in a small cylindrical shape. On the outside of the sleeve 10 is attached a rubber ring 20 for tightening the sleeve 10 with a suitable force. The rubber ring 20 keeps the cylindrical shape without being released when the sleeve 10 is contracted and inflated, while the catching protrusion 11 is the other end of the sleeve 10 after the sleeve 10 is inflated. Plays an important role in ensuring that

Subsequently, the water retainer 30 equipped with the sleeve 10 is inserted into the pipe line P to be positioned inside the water pipe P requiring repair, and the body 31 is expanded by injecting air into the water retainer 30. When the sleeve 10 is wound to a smaller size gradually expands and becomes larger and is in close contact with the inner wall of the pipe (P). Then, the water retainer 30 draws air from the body 31 and contracts it, separates it from the sleeve 10, and pulls it out of the conduit P. Then, the sleeve 10 tends to be contracted by the elastic restoring force, but the locking protrusion 11 is in close contact with the inner wall of the pipeline P as it is expanded while being caught by the other end of the sleeve 10. As a result, the main installation of the sleeve 10 for repairing the pipeline P is completed, and if necessary, the operation of further compressing the sleeve 10 to the pipeline P is further performed.

However, the conventional repair member has a serious problem due to the formation of the cut portion in the sleeve 10 itself to form the locking projection (11). In other words, the inner surface of the sleeve 10 is not formed smoothly, and there is a problem that hinders the smooth flow of sewage after installation, and it is difficult to secure reliable exponentiality due to leakage from the cut-out portion. It was.

In addition, only one of the locking projections 11 has a problem that the restrained state is frequently released after being installed in the conduit due to insufficient degree of restraint as well as the degree of restraint in relation to being fastened to the other end of the sleeve 10. . This problem has occurred especially when a force is applied directly or indirectly to the sleeve 10 installed inside the pipeline for various reasons such as dredging.

In addition, the conventional repair member is often not securely restrained by the locking projection 11 after the expansion in the pipeline (P). This is because the other end of the sleeve 10 positioned at the outside in the overlapping area does not adhere properly to one end of the sleeve 10 located at the inner side, but the rubber ring 20 is installed while the locking projection is installed in the sleeve ( This is because the other end of 10) is frequently encountered.

Therefore, the present invention has been proposed to solve the conventional problems as described above, the object of the present invention can be ensured high reliability of the exponent without disturbing the flow of sewage after installation, as well as shrinkage after expansion It is to provide a non-excavation repair member of a pipeline so that restraining restraint can be made more sure and stable.

In order to achieve the above object, the non-excavation repair member of the pipeline according to the technical idea of the present invention is wound in a cylindrical shape and is inserted into the pipeline in a contracted state and then expanded and then installed in close contact with the inner wall of the broken and cracked pipeline. In the non-excavation repair member of the pipeline, it has a predetermined elastic force to be released to its original state when it is wound in a cylindrical shape, one end overlapping with the other end, the sleeve is formed with a locking hole, and the outer end of the other end of the sleeve Bonded, characterized in that the technical configuration characterized in that it comprises an auxiliary sheet formed by protruding to the outer side the engaging projection is fastened to the engaging hole so as not to shrink after the sleeve is expanded.

Here, the engaging holes may be formed in plural at regular intervals along the longitudinal direction of the sleeve, and the engaging projections may be formed in plural along the longitudinal direction of the auxiliary sheet at regular intervals corresponding to the engaging holes.

In addition, the auxiliary sheet may be characterized in that only the other end end is bonded to the sleeve so that the spaced apart from the sleeve toward one end.

In addition, the locking projection may be characterized in that the auxiliary sheet is formed in the trapezoidal shape after being partially inclined in the outward direction.

In addition, the left and right both ends of the sleeve may be formed to be inclined outwardly to a predetermined degree so that the diameter of the left and right both ends is wider in the wound state.

In addition, the sleeve may be characterized in that a plurality of corrugated bone is formed in a predetermined width along the outer peripheral surface.

In addition, the outer surface of the sleeve may be characterized in that the sealing material for sealing of rubber material is attached.

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

Figure 2 is a state diagram used in the non-excavation repair member of the pipeline according to the present invention.

As shown, the non-excavation repair member of the pipe line according to the present invention is wound in a cylindrical shape is inserted into the pipe line (P) in a small contracted state and then expanded to require repair due to breakage and cracks, etc. Closely installed inside.

According to the present invention, it is possible to securely restrain the contraction after expansion by the auxiliary sheet 200 in which the protrusion is formed, and at the same time, to ensure reliable exponentialness without disturbing the flow of sewage in the state installed inside the pipeline P. It is configured to be guaranteed.

Hereinafter, the configuration of the non-excavation repair member of the pipeline according to the present invention will be described in detail.

3 is a perspective view of the present invention, Figure 4 is an exploded perspective view of the present invention, Figure 5 is a cross-sectional view of the present invention.

As shown, the present invention comprises a sleeve 100 and an auxiliary sheet 200 which serves to reliably restrain the sleeve 100 from being contracted after it is inflated.

The sleeve 100 has an elastic force that tends to be released to its original state when it is wound in a cylindrical shape, and is made of a material excellent in corrosion resistance and corrosion resistance. Any material having the above characteristics as the material of the sleeve 100 may be adopted, and stainless steel may be appropriate. The thickness of the sleeve 100 may be such that it is easy to shrink and expand while having an elastic force. One end of the sleeve 100 has a plurality of engaging holes 110 are formed at regular intervals along the longitudinal direction of the sleeve 100. Here, the area in which the catching hole 110 is formed is mostly limited to a portion crossing the other end of the sleeve 100, thereby minimizing leakage due to the formation of the catching hole 110.

The sleeve 100 has a plurality of corrugated bone 130 is formed in a predetermined width along the outer circumferential surface. The corrugated bone 130 is formed in a shape in which the sleeve 100 is partially folded and protrudes outward by a forming roller (not shown). Such corrugated bone 130 may be particularly useful when two adjacent pipes are stepped apart. That is, the corrugated bone 130 is installed on the connection part of the pipeline accurately, and then install the repair member of the present invention and rub the inner circumferential surface of the sleeve 100 with a compression roller, etc., the corrugated bone protruding outwardly This step fills the gap between the pipelines. As described above, the repair member of the present invention is smoothly installed even in the stepped section by connecting the pipelines by the formation of the corrugated bone 130. The corrugated bone 130 may be formed in a wider width in the sleeve 100, it may be formed in the entire sleeve (100). In addition, the auxiliary sheet 200 may be formed. However, the present invention in mind that both the wrinkled bone 130 is formed on the sleeve 100 and that it is not, and that the wrinkled bone 130 is formed in the stepped connection of the pipelines during repair of the pipeline, In other parts, it is preferable to arrange and install the one in which the wrinkle bone 130 is not formed.

 On the other hand, the left and right both ends 120 of the sleeve 100 is formed to be inclined to a predetermined degree in the outward direction. As a result, the present invention can be closely adhered to the inside of the pipeline while overcoming the thickness of the protrusion in the outward direction due to the auxiliary sheet 200 and the locking protrusion 210 installed to the outside of the sleeve 100.

The auxiliary sheet 200 is bonded to the outer surface of the other end of the sleeve 100, the locking projection 210 is fastened to the engaging hole 110 of the sleeve so as not to contract after the sleeve is expanded is formed. . The locking protrusion 210 may be formed by partially cutting the auxiliary sheet 100 in a trapezoidal shape (or having a semi-circular shape) and bending the small side of the cut portion in the outward direction of the auxiliary sheet 100. At this time, the bending degree of the locking protrusion 210 is appropriately 30 ° to 45 ° so as to be securely caught in the locking hole 110, and when inflated, does not catch the locking hole 110 of the sleeve 100 and contracts. It should be formed in such a way that it can be caught only in time. Here, the locking protrusion 210 is formed in plural along the longitudinal direction of the auxiliary sheet 200 at a predetermined interval corresponding to the locking hole 110. As such, when the engaging protrusion 210 and the engaging hole 110 are formed in plural in correspondence with each other, the repair member of the present invention can be installed in various cylindrical sizes in accordance with the size of the pipeline, and in most cases, unlike the prior art, A plurality of groups 210 and the engaging hole 110 is in a state that is fastened at the same time to exhibit a more certain binding force. In addition, only the other end of the auxiliary sheet 200 is bonded to the sleeve 100 by welding. As such, when only the other end of the auxiliary sheet 200 is bonded to the sleeve 100, one end of the sleeve 100 intersects with the other end of the sleeve 100 as the auxiliary sheet 200 increases toward one end thereof. The contact with the wealth becomes possible more closely. As such, when the auxiliary sheet 200 is in close contact with one end of the sleeve 100, the locking protrusion 210 formed on the auxiliary sheet 200 is more than the locking hole 110 formed at one end of the sleeve 100. It is fastened securely.

Hereinafter, the installation operation of the present invention will be described with reference to other drawings, which are attached above, including FIGS. 6 and 7, which are reference views for explaining the operation of the present invention installed in a pipeline.

First, in order to install the repair member of the present invention in the conduit (P), the body 31 is required for a stretcher 30 is stretchable. For reference, the repair device 30 may be used as long as the repair member of the present invention can be located in a position requiring repair in the pipeline P and widely inflated, and the body 31 for convenience. The maintenance machine 30 in the form of a tube which expands by air injection is demonstrated in mind.

When the water retainer 30 is provided as described above, the water retaining member of the present invention is mounted on the outer surface of the body 31 of the water retainer 30. At this time, the body (31) and the sleeve 100 according to the present invention is fitted in a rubber ring 20 on the outer surface of the sleeve 100 so as to be in a small contracted state and maintain the contracted state. When the repair member of the present invention is mounted to the body 30 of the repair device 30, it is inserted into the pipe line P to accurately position it in a position requiring repair.

Thereafter, when the body 31 of the water retainer 30 is inflated, the sleeve 100 is gradually expanded while overcoming the elastic force of the rubber ring 20 fitted to the outside. In this process, one end of the sleeve 100 in which the engaging hole 110 is formed is gradually moved to the other end along the outer surface of one end of the auxiliary sheet 200. At this time, since the locking protrusion 210 protruding outwardly in the auxiliary sheet 200 protrudes obliquely in a direction coinciding with the direction in which one end of the sleeve 100 moves, the one end of the sleeve 100 is moved during expansion. Do not disturb.

In this manner, the sleeve 100 gradually expands and finally comes into close contact with the inner wall of the pipeline P.

 Meanwhile, the corrugated bone 130 protruding from the sleeve 100 is flatly compressed when the sleeve 100 is in close contact with the inner wall of the conduit P. Although the corrugated bone 130 is not shown, it is usefully used to fill the step when the connection part between the pipes is stepped. In this case, tools such as a pressing roller (not shown) may be used to closely contact the sleeve 100 to the inner wall of the conduit P.

After the water retainer 30 is contracted by the body 31 to be separated from the sleeve 100 and removed by pulling out of the conduit (P). Then, only the repair member of the present invention remains in close contact with the inner wall of the pipeline (P). This is because when the body 31 of the water retainer 30 is contracted, the sleeve 100 also tends to be retracted to its original state, but the engaging protrusion 210 formed on the auxiliary sheet 200 is provided at one end of the sleeve 100. This is because it is fastened while being caught by the formed fastening hole 110 to maintain the expanded state.

This completes the installation of the repair member according to the present invention.

8 is an exploded perspective view for explaining the repair member of the present invention is further provided with a sealing index material.

As shown, the present invention may be further provided with a sealing index member 300 is attached to the outer surface of the sleeve (100).

The sealing index member 300 is composed of any one of a variety of materials having a waterproof or waterproof effect, including foam rubber.

As described above, the sealing index member 300 in a manner of being bonded to the outer surface of the sleeve 100 solves the problem of the conventional index member having simply covered on a sleeve wound in a cylindrical shape. To explain this, the conventional water repellent material is made of a cylindrical shape separate from the sleeve so that the sleeve is used to cover the outer surface in the contracted state to a small size. According to this method, when the sleeve is stretched to a large size, the conventional index member is also stretched together, resulting in a thin and taut state. For this reason, the conventional water repellent material is easily damaged when it is installed on the inner wall of the pipeline together with the sleeve, or there is a problem in that it cannot fully exhibit the intended waterproof or water repellent effect, but the water repellent material 300 according to the present invention has such a problem. Nothing at all.

The preferred embodiment of the present invention has been described above. The present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the non-excavation repair member of the conduit according to the present invention is provided with a smooth inner surface of the conduit because there is almost no machining part such as an incision in the sleeve itself except for an overlapping region. After the effect of not disturbing the flow of sewage.

In addition, since the present invention does not leak through the cut-out processing site for the same reason as above, it is ensured high reliability index after being installed in the pipeline.

In addition, the present invention has the effect that the locking projection and the plurality of locking holes are simultaneously fastened to have a sufficient restraining force.

In addition, the present invention has an effect that the locking projection is formed in the auxiliary sheet padded on the outer surface of the sleeve is more securely restrained fastening with the locking hole formed in the sleeve.

In addition, the present invention can be made easier to repair the pipeline because it is possible to more securely fasten as described above.

 In addition, the present invention is able to fill the step between the pipeline by the corrugated bone protruding on the outer surface of the sleeve can be easily installed even in the place where the two pipelines are connected.

In addition, the present invention can be expected to have a long-term index effect by the sealing index material that is bonded to the outer surface of the sleeve, there is no fear of damage during expansion of the sleeve.

Claims (7)

In the non-excavation repair member of the pipeline, which is wound in a cylindrical state and inserted into the pipeline in a contracted state and then expanded and installed in close contact with the inner wall of the broken and cracked pipeline, A sleeve having a predetermined elastic force to be released to its original state when being wound in a cylindrical shape, and having a locking hole formed at one end overlapping with the other end; And an auxiliary sheet joined to an outer surface of the other end of the sleeve, and including an auxiliary sheet formed to protrude to an outer side so that the locking protrusion engaged with the locking hole is not contracted after the sleeve is expanded. The method of claim 1, The catching hole is formed in a plurality at regular intervals along the longitudinal direction of the sleeve, The hook projection is a non-excavation repair member of the pipe line, characterized in that formed in plurality in the longitudinal direction of the auxiliary sheet at a predetermined interval corresponding to the locking hole. The method of claim 2, The auxiliary sheet is not excavated repair member, characterized in that only the other end is joined to the sleeve so that the spaced apart from the sleeve toward one end. The method of claim 1, The locking projection is a non-excavation repair member of the pipe line, characterized in that the auxiliary sheet is formed in the trapezoidal form is partially cut outwardly. The method of claim 1, The non-excavation repair member of the conduit, characterized in that the left and right both ends of the sleeve is formed to be inclined to a predetermined degree to the outside so that the diameter of the left and right both ends in the wound state is wider. The method according to any one of claims 1 to 5, The sleeve is a non-excavation repair member, characterized in that a plurality of corrugated bone is formed in a predetermined width along the outer peripheral surface. The method according to any one of claims 1 to 5, The non-excavation repair member of the pipe line, characterized in that the sealing material for sealing of rubber material is attached to the outer surface of the sleeve.

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