KR200367141Y1 - Pipe locator - Google Patents

Abstract

The present invention relates to a pipe detector that can detect the pipe position of a non-metallic pipe that is buried underground or in the facility but the pipe position is not confirmed.

The present invention uses a transmitter 22 having a connection port 24, 26 and a receiver 28 having a detection rod 30, and a first open end 12 and a worker exposed to the ground or accessible to a worker. It provides a pipe detector to detect the pipe position of the non-metallic pipe line 10 having two open ends (14) buried in the ground or in the facility but the pipe position is not confirmed. According to the present invention, the conduit detector is connected to the conductive wire projector 32 consisting of a propulsion medium storage tank 34 and a projection tube 42 connected to the propulsion medium supply source 50 at the rear end thereof, and a connection port of the transmitter 22. Through the first end 18 and the projection tube 42 connected to the 24 and projected to the conduit 10 through the conduit 10, after passing through the conduit 10, the connection port of the transmitter 22 And a conductive wire 16 having a second end 20 connected to 26 to constitute a circuit of the transmitter 22 and a closed circuit.

Description

Pipe Detector {PIPE LOCATOR}

The present invention relates to a pipeline detector, and more particularly, to a pipeline detector for detecting the embedding position of a synthetic resin nonmetallic pipeline embedded in the ground or in a facility.

Conventional pipes such as metal pipes buried underground or installed in the facility can be accurately identified the pipe position according to the piping diagram of the contractor, but pipelines in the underground or facility without such a pipe diagram need a pipe detector for detecting this.

Conventional pipeline detectors can only detect metallic pipelines buried underground or in facilities. In order to detect the location of metallic pipelines buried in the underground or facility, connect the cable on one side of the transmitter to an accessible part exposed to the ground from the metallic pipelines buried in the underground or facility, and the transmitter at the part judged to be the end of the pipeline. Connect the other cables of the cables so that these cables form a closed loop with the transmitter, then send an electrical signal of a certain frequency to the cable from the transmitter, and detect the predicted portion of the pipeline through the detection rod of the mobile receiver to detect the signal over the predetermined size. When is received, it is possible to determine whether the conduit passes at the site where such a signal is received. This is possible because the metallic conduits are conductive.

However, these pipeline detectors of the prior art have the drawback of being limited to metallic pipelines only. In general, pipes embedded in the ground or in the facility are made of synthetic resin pipes in addition to metals in many cases. Since the non-metallic pipes of the synthetic resins are themselves non-conductive, the above-mentioned pipe detectors of the related art cannot be used.

It is an object of the present invention to provide a pipe detector capable of detecting a pipe position of a non-metallic pipe made of synthetic resin embedded in a ground or a facility whose pipe position is not confirmed.

To this end, in the present invention, using a transmitter having a connection port and a receiver having a detection rod, the first or second open end is exposed to the ground or accessible to a worker, and is buried in the ground or the facility, Pipeline detectors are provided to detect the location of pipes in unidentified nonmetallic pipelines. According to the present invention, the pipeline detector is projected into a pipeline through a conductive wire projector consisting of a propulsion medium storage tank and a projection tube connected to a source of propulsion medium at a rear end thereof, and a first end and a projection tube connected to a connection port of a transmitter. After passing through the conduit and through the conduit, it is characterized by consisting of a conductive wire having a second end connected to the connection port of the transmitter and constituting the circuit and the closed circuit of the transmitter.

The conductive wire is further connected to the second end thereof so as to propel the conductive wire by the propulsion medium when the conductive wire is projected through the projection tube into the pipeline.

A ball valve is connected to the projection tube to control the supply of the propulsion medium, and the insertion tube is inclined with respect to the center axis of the projection tube to insert the second end of the additionally connected conductive wire.

The insertion tube has an end closed with a closing plate, with a spiral in the middle, and an insertion hole into which an additional conductive wire can be inserted between the closing plate and the spiral, and a slot from the insertion hole to a position passing through the center of the closing plate. The insertion tube is formed with an insertion hole of the same size as the insertion hole of the insertion tube, and a cap having a slot formed from the insertion hole to a position passing through the center of the closed end is spirally inserted into the spiral portion of the insertion tube. Combined.

When the insertion hole and the slot of the cap are aligned with the insertion hole and the slot of the insertion tube, the conductive wire can be inserted into the insertion hole of the additional cap and the insertion hole of the insertion tube, and when the cap is locked against the insertion tube. Only the end portion of the slot formed therein at the center of the closing plate of the insertion tube and the overlapping portion of the slot formed therein at the center of the closed end of the cap are opened so that the conductive wire can pass therethrough.

The conductive wire may be supplied from a reel supported through a support fixed to the projection tube.

Referring to the present invention in more detail based on the accompanying drawings as follows.

1 is a front view of a conductive wire projector used in the present invention the pipeline detector.

2 is a cross-sectional view of the same.

Figure 3 is a partial perspective view showing the wire insertion opening of the conductive wire projector.

Figure 4 and Figure 5 is a partial cross-sectional view showing a process of charging the leading end of the conductive wire to the wire insertion hole of the conductive wire projector used in the pipeline detector of the present invention.

6 is a partial cross-sectional view showing a process in which the conductive wire is projected.

7 is an explanatory diagram illustrating the connection of a transmitter by passing a conductive wire through the conduit and detecting the conduit with a detector;

8 is an illustration showing that the conductive wire is provided in the form of a reel.

Explanation of Signs of Major Parts of Drawings

10 ... pipeline 16 ... conductive wire

22 ... Transmitter 28 ... Receiver

32 ... conductive wire projector 34 ... propellant storage tank

42. Projector 50. Source of Propulsion Media

First, the present invention detects a conduit in a manner as shown in FIG. That is, as shown in FIG. 7, the first open end 12 and the second open end 14 which are exposed to the ground or accessible by a worker in the pipeline 10 buried in the ground or in the facility but whose pipe position is not confirmed. Then, the conductive wire 16 is penetrated into the conduit 10 between the first open end 12 and the second open end 14, so that the first end 18 and the second end of the conductive wire 16 are separated. The end 20 is connected to the connection ports 24 and 26 of the transmitter 22 to form a circuit and a closed circuit of the transmitter 22, and sends an electric signal carrying a specific frequency to the conductive wire 16 to move the receiver. The detection rod 30 of 28 detects the position where the pipeline 10 passes.

According to the present invention, a conductive wire projector 32 as shown in FIGS. 1 to 6 is used to penetrate the conductive wire 16 in the conduit 10.

The conductive wire projector 32 is a propulsion medium storage tank 34 in which a propulsion medium such as compressed air or a pressure medium is stored, and a ball valve connected to the tip of the propulsion medium storage tank 34 and opened and closed by a handle 36. It consists of the valve tube 40 in which 38 was built, and the projection tube 42 connected to the front-end | tip of this valve tube 40. As shown in FIG. The rear end of the propulsion medium storage tank 34 is connected to the propulsion medium supply source 50, such as the propulsion medium supply pump 44, the propulsion medium cylinder 46 and the propulsion medium source 48, as shown in FIG.

In addition, the projection tube 42 is inclinedly connected to the insertion tube 52 into which the conductive wire 16 is inserted. The conductive wire 16 has a small weight 54 attached to its tip, and the weight 54 of the conductive wire 16 is inserted into the projection tube 42 through the insertion tube 52. Insertion tube 52 for inserting the conductive wire 16 into the projection tube 42 is smaller than the diameter of the projection tube 42 and connected inclined with respect to the central axis toward the tip of the projection tube 42, The angle of inclination is preferably 45 ° in view of efficiency in projection.

As shown in FIG. 3, the insertion tube 52 has an end closed with a closing plate 56, and a spiral 58 is formed in the middle thereof. An insertion hole 60 is formed between the closing plate 56 and the spiral portion 58 to insert the conductive wire 16 with the weight 54 at the tip. From the insertion hole 60, the closing plate 60 is formed. The slot 62 is formed in the insertion pipe 52 and the closing plate 56 to the position which passes through the center of 56. As shown in FIG. The end of this slot 62 in the closing plate 56 extends to the position beyond the center of the closing plate 56 which is the center of the insertion tube 52.

On the other hand, the insertion tube 52 is coupled to the cap 66 having a closed end 64 which is spirally coupled to the spiral portion 58 of the insertion tube 52. The insertion part 68 of the same size as the insertion hole 60 of the insertion pipe 52 is formed in the side part of this cap 66, The position which passes the center of the closed end 64 from this insertion hole 68. The slot 70 is formed so far.

When the cap 66 is helically coupled to the spiral portion 58 of the insertion tube 52, the insertion hole 60 and the slot 62 of the insertion tube 52 are inserted into the cap 66 at any position. The insertion hole 60 and the slot of the insertion tube 52 when the cap 66 is fully screwed into the spiral portion 58 of the insertion tube 52 when the cap 68 is coincident with the slot 70 and the slot 70. The slot 62 is closed by the insertion hole 68 and the other part in which the slot 70 is not formed in the cap 66, and the slot formed in the center part of the closing plate 56 of the insertion pipe 52 ( Only the overlapping portion of the slot 70 formed therein at the end of the end portion 62 and the center of the closed end 64 of the cap 66 is openable.

The operation of the pipeline detector of the present invention is as follows.

First, as mentioned above, the first open end 12 and the second exposed to the ground or accessible by a worker in a non-metallic pipeline 10 buried in the ground or in a facility, but the pipe position is not confirmed and thus require detection. Check the open end 14.

The operator connects the projection tube 42 of the conductive wire projector 32 to the first open end 12 of the conduit 10, and the propulsion medium supply pump 44 and the propulsion medium cylinder at the rear end of the conductive wire projector 32. The propulsion medium supply pump 44 of the propulsion medium supply source 50 consisting of the 46 and the propulsion medium source 48 is connected. In describing the operation of the pipeline detector according to the present invention, the propelling medium will be described as compressed air, but the propelling medium may be a compressible gas or a liquid that can be propelled under pressure in addition to the compressed air.

The ball valve 38 of the conductive wire projector 32 is closed by using the handle 36, and then the propulsion medium supply tank 50 is operated to operate the propulsion medium storage tank 34 of the conductive wire projector 32. In this case, pressurized air, which is the propulsion medium, is stored.

Then, the cap 66 is slightly released from the insertion tube 52 connected to the projection tube 42 of the conductive wire projector 32, and the insertion hole 68 and the slot 70 of the cap 66 are inserted into the insertion tube 52. To the insertion hole 60 and the slot 62 of the.

The conductive wire 16 is attached to the tip of the tip with the insertion hole 68 and the slot 70 of the cap 66 aligned with the insertion hole 60 and the slot 62 of the insertion tube 52. (54) is inserted into the insertion hole 68 of the cap 66 and the insertion hole 60 of the insertion tube 52, and the conductive wire 16 connected to the weight 54 is the slot of the matched cap 66 The slots 70 and the slots 62 of the insertion tube 52 are inserted to be disposed at the end sides of the slots 70 and 62.

Subsequently, when the cap 66 is locked with respect to the insertion tube 52, the end portion of the slot 62 formed therein and the closed end 64 of the cap 66 are formed at the center of the closing plate 56 of the insertion tube 52. Only the overlapping portion of the slot 70 formed thereon in the central portion of the open state and the insertion hole 60 and the slot 62 of the insertion tube 52 is mostly closed. The end portion of the slot 62 and the end portion of the slot 70 formed thereon which overlaps and is in an open state will be a passage through which the conductive wire 16 passes.

In this way, the conductive wire is inserted into the insertion tube 52 connected to the projection tube 42 of the projector 32, and the ball valve 38 is opened by the rotation of the handle 36 while the cap 66 is locked.

By opening the ball valve 38, compressed air under pressure is discharged from the propulsion medium storage tank 34 toward the projection tube 42, and the weight 54 is connected to the tip of the conductive wire 16 in an instant. 10 and the weight 54 and the conductive wire 16 connected thereto pass through the conduit 10, and the weight 54 is released toward the second open end 14 of the conduit 10. Come out. At this time, the end portion of the slot 62 of the insertion tube 52 and the end portion of the slot 70 formed thereon, which overlaps with the end portion of the slot 62, become a passage for guiding the conductive wire 16.

The conductive wire 16 penetrating the conduit 10 connects the first end 18 and the second end 20 to the connection ports 24 and 26 of the transmitter 22 to form a circuit of the transmitter 22. And a closed circuit, and transmits an electric signal carrying a specific frequency to the conductive wire 16.

Then, the operator uses the detection rod 30 of the mobile receiver 28 is embedded in the ground or facility to detect the expected pipe position of the pipe line 10 whose pipe position is not confirmed. The detection rod 30 of the receiver 28 is approached to the expected pipe position of the conduit 10 so that when the transmitted signal of the transmitter 22 is received and detected as a received signal of a predetermined magnitude or more, the conduit 10 is detected. It can be determined by the piping position of.

8 shows that the conductive wire 16 is provided in the form of a reel 72. The conductive wire 16 should have a length greater than the length of the conduit 10 whose length is to be detected. In addition, this conductive wire 16 should be able to supply smoothly when projected into the conduit 10. For this purpose, for example, it is preferable that the support 74 is fixed to the projection tube 42 and the reel 72 in which the conductive wire 16 is wound is rotatably supported.

As such, the present invention allows the pipe position of the non-metallic pipeline made of synthetic resin embedded in the ground or facility where the pipe position is not confirmed to be accurately detected.

Claims (7)

A first open end 12 and a second open end exposed to the ground or accessible by a worker using a transmitter 22 having a connection port 24, 26 and a receiver 28 having a detection rod 30. In a pipeline detector having (14) to detect a pipe position of a non-metallic pipeline 10 buried in the ground or in a facility but whose pipe position is not confirmed, A conductive wire projector (32) comprising a propulsion medium storage tank (34) and a projection tube (42) to which the propulsion medium supply source (50) for supplying the propulsion medium to the rear end of the pipeline detector is connected; The first end 18 connected to the connection port 24 of the transmitter 22 and the projection tube 42 is projected to the conduit 10 through the conduit 10 and the conduit ( 10 and the conductive wire 16 having a second end 20 connected to the connection port 26 of the transmitter 22 and constituting a circuit and a closed circuit of the transmitter 22 Characteristic pipeline detector. The pipe detector according to claim 1, wherein the propelling medium is at least one of compressed air, a compressible gas, or a liquid that can be propelled under pressure. The method of claim 1, wherein when the conductive wire (16) is projected through the projection tube (42) to the conduit (10), the conductive wire (16) is propelled by the propulsion medium to its second end (20). Pipe detector, characterized in that it comprises a weight (54) connected to. 4. The ball valve (38) according to any one of claims 1 to 3, wherein the ball valve (38) is connected to control the supply of the propulsion medium to the projection tube (42) and the conductive wire (16) to which the weight (54) is connected. And an insertion tube (52) connected inclined with respect to the center axis of the projection tube (42) to insert the second end (20). 5. The insertion tube 52 has an end closed with a closing plate 56, and a spiral portion 58 is formed in the middle, and between the closing plate 56 and the spiral portion 58. An insertion hole 60 into which the conductive wire 16 with the weight 54 can be inserted and a slot 62 from the insertion hole 60 to a position passing through the center of the closing plate 56 are provided. Is formed, the insertion hole 68 of the same size as the insertion hole 60 of the insertion tube 52 is formed and slotted from the insertion hole 68 to the position passing through the center of the closed end 64 A capillary detector (70) formed with a spiral coupled to the helix portion (58) of the insertion tube (52). According to claim 5, wherein the insertion hole 68 and the slot 70 of the cap 66 is made to match the insertion hole 60 and the slot 62 of the insertion tube 52 In this state, the conductive wire 16 can be inserted into the insertion hole 68 of the cap 66 and the insertion hole 60 of the insertion tube 52 at the tip thereof. When the cap 66 is locked with respect to the insertion tube 52, an end portion of the slot 62 and the cap 66 formed thereon at the central portion of the closing plate 56 of the insertion tube 52. Pipeline detector, characterized in that only the overlapping portion of the slot (70) formed therein at the central portion of the closed end of the (64) is opened so that the conductive wire (16) can pass through. The pipe detector according to claim 1, wherein the projection tube (42) comprises a reel (72) supported through a support (74) and the conductive wire (16) is supplied from the reel (72).