KR19990030400A - Conductive Synthetic Resin Pipe - Google Patents

Abstract

The present invention relates to a conductive synthetic resin pipe that can be used to detect the buried position and the like using a buried pipe detector.

According to the present invention, in a synthetic resin tube embedded in the basement for use in communication cable protection or gas pipes, taps, etc., the synthetic resin tube (8) is a conductive resin produced by mixing a conductive material in the synthetic resin is embedded around the synthetic resin tube Or a conductive resin part 10 formed by attaching and a conductor 12 embedded or attached to a circumference of the synthetic resin tube 8 so as to conduct electricity with the conductive resin part 10. A conductive synthetic resin tube is provided.

Description

Conductive Synthetic Resin Pipe

The present invention relates to a conductive synthetic resin tube, and more particularly, to a conductive synthetic resin tube capable of detecting the embedding position using a buried pipe detector.

In general, buried pipes buried underground and used to supply gas, water, and the like are mainly made of metal, which is a conductor, and the buried position should be measured as necessary.

The buried pipe detector, which measures the buried position of the buried pipe, uses a buried pipe mainly composed of a metal which is a conductor, and is composed of a high frequency transmitter connected to the buried pipe, and a portable receiver receiving high frequency transmitted from the high frequency transmitter. do.

Therefore, as shown in FIG. 1, when the high frequency transmitted from the high frequency transmitter 2 is transmitted along the buried pipe 6, which is a conductor, the operator places the buried pipe 6 to the portable receiver 4 on the ground. By measuring the high frequency transmitted from, the buried direction and the depth of the buried pipe 6 can be measured.

In particular, in the case of water pipes, it is possible to measure the leakage of the pipe using the buried pipe detector. This method of measuring leakage is based on the fact that water is conductive. When a leak occurs in a pipeline, a high frequency is transmitted to the water accumulated in the vicinity of the pipeline, so that the high frequency is transmitted from the entire water, and thus the site where the high frequency is transmitted suddenly expands. In this case, it can be seen that leakage occurred in the vicinity.

As such, the buried pipe 6 made of a conductive metal has an advantage of easily measuring the buried direction and buried depth by using the buried pipe detector as described above, but the gas contained in the gas flowing inside the pipe There has been a problem in that oxidized by water or tap water to corrode, or deposits accumulate inside by adsorption of organic matter. Therefore, the lifespan is short, so it is necessary to replace frequently, there is a problem that the tap water can be contaminated.

Therefore, recently, in order to solve this problem, synthetic resin tubes having excellent corrosion resistance, chemical resistance, and moldability are used in comparison with metal tubes, but synthetic resin tubes are insulators that do not conduct electricity, and therefore, problems using the buried pipe detector are impossible. There was this. Therefore, in the case of laying work, a separate copper wire is laid outside the synthetic resin pipe so that the pipe can be detected, but the work for laying the copper wire is complicated, and the copper wire is damaged by another construction or contaminated by contaminated groundwater. Copper wire has a problem of rapidly oxidizing. In addition, in a complicated urban pipeline, since a copper line is laid separately from the pipeline, it is difficult to accurately detect the pipeline, which may cause damage to the pipeline during repair work.

The present invention is to solve the above problems, an object of the present invention is to detect the buried position, etc. using the buried pipe detector, it is excellent in corrosion resistance, chemical resistance and moldability, easy to embed a conductive synthetic resin pipe To provide.

1 is a reference diagram showing how to use the buried pipe detector

Figure 2 is a partial cross-sectional view showing a conductive synthetic resin tube according to the present invention

Figure 3 is a partial cross-sectional view showing another embodiment of the present invention

Figure 4 is a cross-sectional view illustrating a connection method of the embodiment

5 and 6 are exemplary views showing another embodiment according to the present invention.

Explanation of symbols for main parts of the drawings

8. Synthetic resin pipe 10. Conductive resin part

12. Conductor

According to the present invention, in a synthetic resin tube embedded in the basement for use in communication cable protection or gas pipes, taps, etc., the synthetic resin tube (8) is a conductive resin produced by mixing a conductive material in the synthetic resin is embedded around the synthetic resin tube Or a conductive resin part 10 formed by attaching and a conductor 12 embedded or attached to a circumference of the synthetic resin tube 8 so as to conduct electricity with the conductive resin part 10. A conductive synthetic resin tube is provided.

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

2 illustrates a conductive synthetic resin tube according to the present invention, which illustrates a conductive synthetic resin tube applied to a gas pipe or a water pipe that is used by continuously connecting a plurality of synthetic resin tubes.

The conductive resin part 10 is formed by integrally embeding the conductive resin in the periphery of the synthetic resin tube 8 made of a general synthetic resin such as PVC or PE. The conductive resin is prepared by mixing a conductive material such as carbon black in a predetermined ratio with a general synthetic resin, and in addition to the general properties excellent in moldability, corrosion resistance and chemical resistance, there is a conductive feature. The conductive resin portion 10 is integrally embedded in the form of a strip or wire on the peripheral surface of the synthetic resin tube (8) during the extrusion process of manufacturing the tube, in this way, during the production of the synthetic resin tube, the peripheral surface of the synthetic resin tube It is a common technique to buy synthetic resins of different quality.

The conductive resin portion 10 is formed by embedding the conductive resin formed in the strip or wire shape in the longitudinal direction in the peripheral portion of the synthetic resin tube, as shown in Figure 3, the conductive resin in the entire peripheral portion of the synthetic resin tube It is also possible to apply | coat and comprise.

The conductor 12 is embedded in the circumferential portion of the synthetic resin tube 8 so as to be energized with the conductive resin portion 10 to be concealed. The conductor 12 is composed of a copper wire having a very small resistance value compared to the conductive resin portion 10 made of a conductive resin, and when extruded the synthetic resin tube 8 and the conductive resin portion 10, in a gel state By embedding a plurality of copper wires in the helical direction on the circumferential surface of the uncured synthetic resin tube 8, and then molding and curing, it can be embedded so as to conduct electricity with the conductive resin portion 10. As described above, the conductor 12 is formed of copper wire and is not limited to being embedded in the circumferential surface of the synthetic resin tube 8 in a helical direction, and may vary in material, number, and shape according to the intention of the manufacturer. It is also possible to embed in the straight direction of the synthetic resin tube 8 as necessary.

Thus, as shown in Figure 4, by coupling the end of the conductive synthetic resin pipe configured in this way to both ends of the joint pipe 16 is provided with a copper band 14 on the inner peripheral surface, the conductive resin portion 10 is a copper band ( 14) connected to each other through the electricity, and when the high-frequency transmitter 20 of the buried pipe detector is connected to one end of the conductive synthetic resin pipe, the high-frequency transmitted from the high-frequency transmitter 2 is the conductor 12 through the conductive resin (10) And, the high frequency transmitted by the conductor 12 is transmitted to the next conductive synthetic resin tube through the conductive resin portion 10 which is energized by the copper band 14 at the connection portion of each conductive synthetic resin tube. Accordingly, the buried position of the conductive synthetic resin tube can be measured by measuring the high frequency wave continuously transmitted to the conductive synthetic resin tube by the portable receiver 4.

In the present embodiment, the conductive synthetic resin tube is connected using the joint pipe 16 as described above, but the connection method of the conductive synthetic resin tube may be variously changed according to the intention of the operator. In particular, in the case of a water pipe, since water, which is a conductive material, flows inside the conductive synthetic resin pipe, it is possible to allow the conductive resin part 10 to be energized with each other by allowing the water to contact the conductive resin part 10.

The conductive synthetic resin pipe configured as described above can not only detect the buried position of the pipe by using the buried pipe detector, but also the conductor 12 is embedded and concealed by the conductive resin part 10 so that the conductor 12 is corroded or externally impacted. There is an advantage that can be prevented from being disconnected by. In addition, when the conductor 12 is disconnected due to the difference in thermal expansion rate and elongation of the conductor 12 composed of the synthetic resin tube 8 and copper, the disconnected portion of the conductor 12 by the conductive resin part 10. Since is energized, it is possible to prevent the high frequency from being transmitted by the disconnection of the conductor 12.

In addition, since it is composed of synthetic resin having better corrosion resistance and formability than metal, it is possible to prevent contamination of tap water supplied to the conductive synthetic resin pipe due to corrosion, and to prevent accumulation of deposits inside by adsorption of organic matter. Therefore, as well as long life, since the conductor 12 is integrally embedded in the synthetic resin tube 8, there is an advantage that can be accurately detected.

In the present embodiment, the conductive synthetic resin pipes are used to connect a plurality of examples, but when connecting each manhole with a single pipe, such as a communication cable protection tube, the conductive synthetic resin pipe is made long to connect each manhole Thus, it is also possible to connect each manhole with a single pipe.

Figure 5 shows another embodiment according to the present invention, the conductive resin portion 10 is configured by applying a conductive resin on the circumferential surface of the conductor (12). The conductive resin part 10 configured as described above is longitudinally formed on the circumferential surface of the synthetic resin tube 8 together with the conductor 12 so that a part of the surface thereof is exposed to the outside of the synthetic resin tube 8 when the synthetic resin tube 8 is manufactured. It is embedded or adhered to the circumferential surface of the synthetic resin tube 8 with a separate adhesive, thereby increasing the contact area of the conductive resin portion 10 and the conductor 12, there is an advantage that can improve the electrical conductivity. Figure 6 shows another embodiment according to the present invention, the conductive resin portion 10 is configured by attaching a conductive tape consisting of a conductive resin to the peripheral surface of the synthetic resin tube (8). Therefore, after attaching the conductor 12 to the circumferential surface of the synthetic resin tube 8, the conductive tape is attached to the circumferential surface of the synthetic resin tube 8 so that the conductor 12 is concealed, and the conductor 12 and the conductive The resin portion 10 can be energized with each other. The conductive synthetic resin tube configured as described above is applied to the general synthetic resin tube 87 in which the conductive resin portion 10 is not formed, which has the advantage of easily configuring the conductive resin portion 10.

As described above, according to the present invention, the conductive resin portion 10 which is energized with the conductor 12 and the conductor 12 in the synthetic resin tube to conceal the conductor 12 and prevent the conductor 12 from being disconnected. By providing a buried pipe detector, it is possible to detect the buried position, etc., it is possible to provide a conductive synthetic resin pipe excellent in corrosion resistance and formability.

Claims (1)

In the synthetic resin tube embedded in the underground used for protecting communication cables or gas pipes, taps, etc., the synthetic resin tube 8 is formed by embedding or attaching a conductive resin produced by mixing a conductive material in the synthetic resin around the synthetic resin tube A conductive synthetic resin comprising a conductive resin portion 10 and a conductor 12 embedded or attached to a circumference of the synthetic resin tube 8 so as to conduct electricity with the conductive resin portion 10. tube.