KR100838633B1 - Pipe path detecting cable using conductor wires braid and connecting method thereof - Google Patents

Abstract

A pipe detecting wire using a pressed braid wire and a connecting method thereof are provided to prevent the pipe detecting wire from being separated from a piping even though soil or concrete is poured by connecting pipe detecting wires with an electric conducting bar covered with a heat shrinking tube. A pipe detecting wire(11) using a pressed braid wire is formed with a plastic cover(13) outside and multiple pressed braid wires(17) having a through hole(19) inside, and connected with each other by an electric conducting bar(1) inserted partly to the through hole. A connecting method of the pipe detecting wire using a pressed braid wire comprises the steps of adjoining the pipe detecting wire to be connected, inserting a part of the electric conducting bar into an inside of both the pressed braid wires of the pipe detecting wire, and sealing an outside with a heat shrinking tube(7).

Description

PIPE PATH DETECTING CABLE USING CONDUCTOR WIRES BRAID AND CONNECTING METHOD THEREOF}

The present invention relates to a pipeline probe, and more particularly, to a synthetic resin pipe buried pipeline probe attached to the synthetic resin pipe embedded in the ground to detect the embedded path of the synthetic resin pipe by electromagnetic waves.

Pipes embedded in the ground or concrete, such as water supply pipes, sewer pipes, gas pipes, and boiler pipes, are difficult to visually identify their paths from the outside after they are buried. However, during the plumbing repair work, plumbing replacement work, and excavation work around the pipe, it is necessary to know the exact position of the buried pipe so that the drilling work can be performed without damaging the pipe, and the plumbing repair work or the pipe replacement work can be carried out quickly. . Cast iron, steel, copper, etc. may be used as a piping material, but recently, synthetic resin pipes having enhanced strength and impact resistance have been widely used due to the advantages of no corrosion. In the case of metal pipes, the buried path of the pipe can be detected to some extent by using a metal detector or by detecting electromagnetic waves generated by the current flowing through the pipe.However, in the case of synthetic resin pipes, metal buried or electromagnetic wave detectors can be used to detect the buried path. It is impossible to detect.

Therefore, in embedding the synthetic resin pipe, a pipe probe including a metal material is provided along the embedding path of the synthetic resin pipe.

However, the shape and embedding method of the pipeline probe installed at this time is made in various ways.

For example, when embedding a synthetic resin pipe, a method of burying pipe line probes connected to the synthetic resin pipe in parallel with the synthetic resin pipe and laying them together is used. Buried pipeline probes are metal wires or metal strips, or metal wires or metal strips covered with synthetic resin. Since uncoated metal wires or metal strips are easily corroded and disconnected with time, metal wires or metal strips coated with synthetic resin are mainly used (Utility Model Registration No. 20-361933). However, this method of installing the pipeline probe is not only easy for the pipeline probe to escape from the path of the synthetic resin pipe when the soil or concrete is dropped during the buried process, or when water penetrates into the soil after the buried or the soil is sedimented. When I do excavation work for repair, there is a disadvantage that it is easy to be damaged by an excavator.

Therefore, in recent years, a metal wire or a metal strip that is separately molded and then attached to a synthetic resin pipe or integrated by extrusion molding with a synthetic resin pipe is mainly used as a pipe probe. In this case, the metal wire or the metal strip may be unified without coating (Publication Utility Model Publication No. 96-27460, Utility Model Registration Application No. 20-2007-3958). (Utility Model Registration No. 20-310800, Patent Registration No. 10-607574, Patent Registration No. 10-770154).

However, the pipeline probe which is integrated with the synthetic resin pipe has the following problems and its improvement is required.

Synthetic resin pipes are standardized and produced in a certain length. When integrating pipeline probes into these synthetic pipes, the pipeline probes are separated from each other by synthetic resin pipe units. Separate pipeline probes should be connected to each other. This allows the current to flow between only two points in the long buried path so that the entire buried path can be detected.

However, in this case, if the pipeline probe is connected by a general wire connection method of removing some of the tip covering of the pipeline probes connected to each other, braiding the conductors together and attaching insulating tapes, in the process of laying the pipe by laying soil or concrete, There is a problem that the connection portion of the pipeline probe is easily separated. In this case, the pipeline probe has no meaning.

Therefore, in general, in the manufacturing process of synthetic resin pipes, the connectors or plugs formed in advance are coupled to both ends of the pipeline probes attached to or integrated with each synthetic resin pipe to be transported to the pipe construction site, and the connectors of adjacent pipeline probes are connected at the pipe construction site. (Patent No. 10-770154, Patent No. 10-607574). However, the piping is different from the layout and the required length of the pipes in each construction site, can not be constructed using only a certain length of pipes, cut to the required length. In this case, the pipeline probe is not easy to connect due to the above-mentioned reasons, and in order to separate the connector or plug from the work site and reassemble it, a separate crimping device such as a crimping mechanism is required, and the work time is excessively increased. Leave it as it is and only cut the pipe. Therefore, after the pipe work is completed, the connecting portion of the pipeline probe always has an extra length, which causes the pipeline probe to deviate from the pipeline at a certain distance from the connecting portion of the pipeline probe, which eliminates unnecessary waste of the pipeline probe. As a result, the construction cost of the pipeline probe is not only increased, but the connection portion of the pipeline probe is spaced apart from the pipe, which causes the connector or plug to be disconnected when the soil or concrete is dropped to bury the pipe. In addition, when the pipeline probe is separated from the pipe, it is difficult to accurately detect the pipeline, and there is a disadvantage that it is easy to be damaged by an excavator when performing an excavation work for repairing the pipe. Above all, it is very difficult to seal the connection terminals of the connector and plug when connecting the pipeline probe by the connector or plug.

Therefore, the preferred pipeline probe should be cut to fit the length of the pipe installed at the construction site and attached to the pipe, and it should be easy to connect with adjacent pipeline probes by simple operation. It should not be separated in the process, and after embedding, it should be able to reliably block the penetration of moisture.

The present invention devised to solve the problems of the above-described conventional pipeline probe of the synthetic resin pipe is cut by the operator to fit the length of the pipe installed at the construction site and adhered to the pipe closely, and easily connected to the adjacent pipeline probe by simple operation An object of the present invention is to provide a pipeline probe and a method of connecting the same using a crimped braid wire.

Another object of the present invention is to provide a pipeline probe using a crimped braided wire that is attached to fit the curved cross-sectional shape of the pipe is not easily separated from the pipe after the attachment.

Still another object of the present invention is to provide a pipeline probe and a connection method using a crimped braided wire which is not easily separated even when the soil or concrete is dropped for embedding the pipe once connected.

Still another object of the present invention is to provide a pipeline probe and a method of connecting the same using a crimped braid which can reliably block the penetration of moisture and the like after embedding.

The pipeline probe using the crimped braided line according to the present invention solves the above-mentioned problems. The braided braided wire has a flat hollow inside after braiding a plurality of linear conductors, and has a flat hollow inside, and a synthetic resin outside the crimped braided line. And a double-sided tape attached to the lower surface of the coating and the extrusion band-shaped coating.

It is preferable to form grooves recessed inwardly in at least one of the upper and lower surfaces of the coating along the coating longitudinal direction.

The connection method of the pipeline probe using the crimped braided ship according to the present invention to solve the above problems is to provide an electrically conducting bar that can be inserted into the inner hollow of the crimped braided line of the pipeline probe is connected, After adjoining both ends of the pipeline probe, the conductive rod is partially inserted into the crimped braid of both pipeline probes, and then the outside thereof is sealed by a heat shrink tube.

Preferably, the conductive rod is provided with a locking jaw that can be prevented from being caught by the crimped braided line of the pipe probe.

According to the present invention having the above-described configuration, after the operator cuts the pipeline probe according to the length of the pipe installed in the construction site and adheres closely to the pipe, it can be connected to the adjacent pipeline probe with a simple operation, once connected In case of dropping soil or concrete for embedding, the connection part is not easily separated, and the entire pipeline probe is not only in close contact with the pipe even after construction, but also has the effect of reliably blocking the penetration of moisture after laying.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the pipeline probe and the connection method using the crimped braided ship according to the present invention.

1 is an exploded perspective view showing only the double-sided tape in the pipeline probe using the crimped braid according to the present invention, Figure 2a is an exploded perspective view of the conductive rod and the heat shrink tube used for the simple electrical connection of the pipeline probe according to the present invention 2B and 2C are perspective views showing a method of pre-combining the conductive rod and heat-shrink tube shown in FIG. 2A before use in connection of a pipeline probe, and FIGS. 3A to 3D show a crimping piece according to the present invention. A working flow chart showing a method of electrically connecting a pipeline probe using shipbuilding using a conductive rod and a heat shrink tube shown in FIG. 2C, and FIGS. 4A and 4B show a crimped braid line according to the present invention on an outer surface of a synthetic resin pipe. This diagram shows the state of the electrical connection using the conductive rod and the heat shrink tube shown in FIG. 2C after attaching the pipeline probe. It shows the use of the state diagram, respectively.

Referring to Figure 1, the pipeline probe according to the present invention gathers a plurality of linear conductors such as steel wire, copper wire, copper alloy wire (preferably 2 strands to 12 strands) and braided by a braiding machine (roller) By a flat braided wire 17 having a hollow 19 through which the conductive rod 1 can be inserted flatly by the flat wire, and a synthetic resin tube rounded outside the crimped braided wire 17. 23a, 23b) The band-like coating 13 is molded so as to be easily attached to the outer surface, and the double-sided tape 21 is attached to the lower surface thereof.

The crimped braided wire 17 is composed of a plurality of linear conductors, and any one of the conductors is in contact with the conductive rod 1, thereby providing electricity. The linear conductor may be braided by gathering a plurality of linear conductors of the same material, or may be braided by mixing linear conductors of different materials such as steel wire and copper wire or steel wire and copper alloy wire. When the wires and copper wires are mixed, they can have both the tensile strength of the wires and the electric conductors of the wires. In addition, fiber yarns may be further braided for tensile strength and breakage prevention.

The coating 13 is a synthetic resin coating such as PVC, which is somewhat stretchable. This is because it is easy to insert the conductive rod 1 into the crimp braided line 17 when the sheath 13 has elasticity.

The double-sided tape 21 is a protective paper is attached to both sides of the adhesive film, the upper protective paper is peeled off when attached to the coated lower surface, the protective paper on the lower surface of the pipeline probe 11 according to the present invention synthetic resin pipe (23a, 23b) Peel off when attached.

In the drawings, a case in which one crimped braided line 17 is accommodated in a single sheath 13 is illustrated as an example. However, two to six crimped braided lines may be arranged in parallel and coated as necessary.

Referring to FIGS. 1 and 4A, grooves 15 are recessed inwardly in a length direction of the coating on either or both surfaces of the band-shaped coating 13 or the lower surface of the coating 13. When the pipe line probe 11 according to the present invention is attached to the outer surface of the round synthetic resin pipes 23a and 23b, it is preferable to prevent the edge of the coating 13 from falling off by elasticity. The groove 15 may also be very useful when removing some of the coating of the tip portion connected to the pipe probe 11 when the pipe line is connected. In general, the stripper has a structure that is difficult to remove the band-like sheath at a time, but if the scissors are cut by the length of the sheath to be removed along the groove 15 and both wings are removed first, the remaining crimped braided line 17 This is because the surrounding sheath can be easily removed with a stripper.

The pipeline probe having the above-described structure is very quick and easy in the work site for connecting the synthetic resin pipes 23a and 23b by using the conductive rod 1 and the heat shrink tube 7 shown in FIGS. 2A to 2C. In addition to being connected, watertightness and airtightness can be achieved perfectly. Referring to FIG. 2A, the conductive rod 1 has a structure in which both ends thereof can be inserted into the inner hollow 19 of the crimped braid line 17 of the pipeline probe, and in the middle thereof, to adjust the insertion depth. The stop jaw 5 is formed. In FIG. 2A, the cross section of the conductive rod 1 is illustrated as an example. However, since the coating of the pipeline probe according to the present invention has a certain degree of elasticity with the synthetic resin coating, the cross section of the conductive rod 1 has a circular shape. You may have it. The heat-shrinkable tube 7 is a polyolefin-based tube for publicly known. The heat shrink tube 7 shrinks and hardens when heat is applied. In addition, when using a heat shrink tube coated with a hot melt (hot melt) there is enhanced sealing (seasonality and water tightness) after shrinkage curing.

Once inserted into the hollow of the crimped braided line 17, the conductive bar 1 is provided with a locking jaw (3) that can be prevented from being caught in the linear conductor mesh of the crimped braided line. The shape of the locking jaw 3 can be formed by those skilled in the art in various shapes.

2B and 2C, the conductive rod 1 and the heat shrink tube 7 may be separated from each other and supplied to a synthetic resin pipe connection work site, and then used for electrical connection of the pipeline probe according to the present invention. It is desirable to be pre-assembled and supplied to the plastic pipe connection work site for quickness and simplicity of the connection work. In assembling the conductive rod 1 and the heat shrink tube 7, the conductive rod 1 is placed in the heat shrink tube 7 as shown in FIGS. 2B and 2C, and heat is applied to the middle portion of the heat shrink tube 7. It may be added so that this portion contracts around the stop jaw 5 of the conductive rod 1.

Hereinafter, with reference to Figures 3a to 4b, a method for quickly and simply connecting the pipe probe according to the present invention at the synthetic resin pipe installation site.

First, as shown in FIG. 3A, the sheath 21 of the tip to be connected to the pipeline probe 11 is removed by a predetermined length by the above-described method, so that a part of the compression braided line 17 is exposed. In this state, the conductive rod 1 may be inserted directly into the crimped braided hollow 19 of the both side probes, but as shown in FIG. 3B, the exposed crimped braided line 17 is divided into upper and lower parts and cut. It is then bent upwards and downwards to be in close contact with the upper and lower surfaces of the coating. This is not only necessary to facilitate the insertion of the conductive rod 1 into the hollow 19 of the crimped braid line 17, but also to increase the tensile strength of the connecting portion after the contraction of the heat shrink tube 7 to the connected pipe line. It is necessary for the probe 11 not to be easily separated. Next, as shown in FIGS. 3C and 3D, the two sides of the conductive rod 1 are partially inserted into the crimped braided hollow 19 of the pipeline probe 11 connected to each other, and then the heat is applied to the heat shrink tube 7. The heat shrink tube is brought into close contact with the conductive rod 1 and the sheath 13 of the pipeline probe 11. The crimped braid wire 17 is caught by the heat shrink tube 7 integrated with the conductive rod 1 while maintaining the airtightness when the heat shrink tube 7 is thermally contracted after the conductive rod 1 is inserted into the hollow 19. It acts as a jaw to bring about the effect of leaving the conductive rod 1 off. This pipeline probe connection work can be performed very quickly and easily by the operator at the construction site of the synthetic resin pipe (23a, 23b).

4a shows a state in which a worker cuts the pipeline probe 11 to the length of the synthetic resin pipe to be installed and attaches it to the outer surface of the synthetic resin pipes 23a and 23b, and then removes only the cover 13 of the connection portion. 4b shows a state in which the pipeline probe 1 is connected by the above-described process.

As shown in Figure 3a to 4b, according to the pipeline probe using the crimped braided ship and the connection method according to the present invention, the operator cuts the pipeline probe 11 to the length of the pipe installed in the construction site synthetic resin pipe After closely attached to (23a, 23b), it can be connected to the adjacent pipeline probe 11 by simple operation, and once connected, the connection site is not easily separated even when the soil or concrete is dropped for laying the pipe. After the construction, the entire pipeline probe 11 is not only in close contact with the pipe, but also has the effect of reliably blocking the penetration of moisture and the like after embedding.

As mentioned above, although the present invention has been described with reference to the drawings, the scope of protection of the present invention is not intended to be limited thereto. It should be interpreted as crazy.

1 is an exploded perspective view showing only the double-sided tape in the pipeline probe using the crimped braiding line according to the present invention.

Figure 2a is an exploded perspective view of the conductive rod and the heat shrink tube used for the simple electrical connection of the pipeline probe according to the present invention.

2B and 2C are perspective views showing how the conductive rod and the heat shrink tube shown in FIG. 2A are previously joined prior to use in connecting the pipeline probe.

3A to 3D are working flowcharts illustrating a method of electrically connecting a pipe probe using a crimped braid wire according to the present invention using the conductive rod and the heat shrink tube shown in FIG. 2C.

Figures 4a and 4b is the use of the present invention showing the state of the electrical connection using the conductive rod and heat shrink tube shown in Figure 2c after attaching the pipeline probe using the crimped braiding line according to the invention on the outer surface of the synthetic resin pipe State diagram.

                  Explanation of symbols on the main parts of the drawings

1 conductive rod 3 hanging jaw

5: stop jaw 7: heat shrink tube

9: heat shrinkable portion 11: pipeline probe

13: cloth 15: groove

17: crimp braided wire 19: hollow

21: double sided tape 23a, 23b: synthetic resin tube

Claims (4)

Pipeline probe using a crimped braided line, characterized in that the synthetic resin coating is formed on the outside and a plurality of crimped braided lines having a hollow inside, connected by a conductive rod that is partially inserted into the hollow. The method of claim 1, A grooved probe using a crimping braiding line, wherein grooves recessed inwardly are formed in one side or both sides of the coated upper surface or the lower surface of the coating. In connecting the pipeline probes using the crimped braid wire having a hollow therein to each other, by providing an electric conducting bar that can be inserted into the hollow inside of the crimped braided wire, adjacent to the pipe line probe to be connected, A method of connecting a pipeline probe using a crimping braid, characterized in that the conductive rod is partially inserted into the crimp braid of both pipeline probes, and the outside thereof is sealed by a heat shrink tube. The method of claim 3, wherein The conductive rod is connected to the pipeline probe using a crimping braiding line, characterized in that the locking jaw is formed to prevent from being caught in the crimping braiding line of the pipeline probe.

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