KR101411281B1 - Pipe assembly for detecting and method for manufacturing the same - Google Patents

Abstract

The present invention relates to a detection pipe assembly including a pipe; a position detection unit attached to a portion of the outer surface of the pipe in an extension direction of the pipe, and embedded with at least one detection wire; and a cover for covering the position detection unit in the longitudinal direction. Since the position detection unit does not protrude from the outer surface of the pipe, it is possible to reduce the risk of damage or disconnection of the detection wire due to a load or external impact.

Description

TECHNICAL FIELD [0001] The present invention relates to a pipe assembly for detecting a pipe,

The present invention relates to a detection pipe assembly and a method of manufacturing the same.

Generally, a pipe that supplies electricity, water or gas, or discharges sewage or sewage is buried in the ground to prevent the risk of fire, explosion or breakage.

At this time, as the material of the pipe buried in the underground, a plastic material such as polyethylene (PE) is used as well as a metal material such as steel.

On the other hand, the pipe buried in the underground may become difficult to locate in accordance with the change of the underground environment such as the change of the terrain as a long time passes. That is, it may become difficult to grasp the exact location of the pipe buried underground due to external factors that could not be predicted at the time of burial.

When the excavation work for another construction is performed in a situation where the position of the pipe buried in the underground can not be accurately grasped, there is a great risk of damaging the pipe already buried, and in particular, In case of damage, there is a great risk of fire or explosion.

Therefore, in order to prevent this, it is necessary to accurately locate the pipe buried underground.

In this way, in order to grasp the position of the buried pipe, when the buried pipe is made of a metal material, the buried position of the pipe is grasped by using the magnetic field.

That is, since the metal material pipe is electrically conductive, a specific electric signal is transmitted through the metal pipe itself, and a magnetic field of a specific electric signal formed along the metal pipe is detected using a detector for detecting a magnetic field, do.

However, when the buried pipe is made of plastic, which is an insulator such as polyethylene, it is impossible to transmit an electric signal through the pipe itself.

Therefore, an electric signal is applied by attaching a position detecting wire, which is a separate covered electric wire, for transmitting electric signals around the pipe of the plastic material.

Next, a conventional buried pipe detecting method will be described with reference to FIG.

Referring to FIG. 1, a first pipe 11 is buried in a basement 1, and a second pipe 12 branched from a first pipe 11 is buried together. The first pipe 11 is a pipe made of a steel material while the second pipe 12 is a pipe made of a plastic material such as polyethylene and the second pipe 12 is connected to the inlet pipe 12a, Lt; / RTI >

As already described, the surface of the second pipe 12 made of a plastic material is attached with a position detection line 13 on the surface along the second pipe 12. [

In this case, the number of the position detecting lines 13 is one and the position detecting line 13 is formed in the longitudinal direction of the second pipe 12 from the outer surface of the second pipe 12 before the second pipe 12 is buried (I.e., extending direction), and attaches the position detecting wire 13 to the outer surface of the second pipe 12 by using tape, a clamp, an adhesive, or the like.

One end of the position detecting wire 13 is connected to the first wire connecting portion 13a and the first wire connecting portion 13a is electrically connected to the transmitter 100. [ The transmitter 100 is a device for applying an electric signal to the position detection line 13. [

The other end of the position detecting wire 13 is connected to the second wire connecting portion 13b and the second wire connecting portion 13b is electrically connected to the first pipe 11. [

The ground bar connection line 110 electrically connected to the transmitter 100 is connected to the ground bar 120. The ground rod 120 is inserted into the basement near the transmitter 100.

With this connection structure, when an electric signal is output from the transmitter 100, the electric signal is transmitted along the position detection line 13 attached to the outer surface of the second pipe 12, Through the ground bar 120 and the ground bar connecting line 110 installed in the underground 1. [

Therefore, when an electric signal flows along this path, a magnetic field is generated at a position where the electric signal flows, and the magnetic field generated by the detector 130 is detected to determine the position and depth of the second pipe 12 do.

However, since the position detection line 13 is exposed and attached to the outer surface of the pipe 12 in this way, the position detection line 13 ) Is damaged and the risk of disconnection is increased and the risk of electric leakage is increased.

Particularly, since only the portion to which the position detection line 13 is attached is derived from the outer surface of the pipe 12, the load due to the earth, rubble, etc. or the load due to the external impact So that the risk of damaging the position detecting line 13 led to the outer surface of the pipe 12 is further increased.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to improve the stability of position detection lines attached to pipes and pipes.

SUMMARY OF THE INVENTION The present invention has been made in order to accurately and easily detect the position of a pipe.

A detection pipe assembly according to one aspect of the present invention includes a pipe, a position detection part attached to a part of an outer surface of the pipe along an extension direction of the pipe and incorporating at least one detection wire, And a covering lid.

The position detection unit may further include a protective film having the at least one detection line embedded therein.

The protective film may be made of PVC.

The at least one detection line may include a signal transmission line formed of twisted lines and a covering portion covering the signal transmission line.

The lid can be made of low density polyethylene or medium density polyethylene.

The cover may have a C-shaped cross-section.

The detection pipe assembly according to the above feature may further include a space between the pipe and the cover in which the position detection unit is not located.

The pipe may be made of polyethylene.

According to this feature, since the position detecting portion does not protrude directly on the outer surface of the pipe, the risk of damage or disconnection of the detection line due to load or external impact is reduced.

In addition, the impact applied to the position detecting portion by the shock absorbing by the lid itself and the space formed between the lid and the pipe is further reduced, further reducing the risk of damage and disconnection of the detection line located in the position detecting portion.

In addition, since two detection lines are used, it is not necessary to provide a separate ground rod, and a stable closed circuit state is maintained, so that the position of the pipe can be quickly and accurately grasped.

FIG. 1 is a schematic view illustrating a method of detecting the position of a buried pipe according to the prior art.
2 is a cross-sectional view of a detection pipe assembly in accordance with one embodiment of the present invention.
3 is a perspective view of a lid according to an embodiment of the invention.
Fig. 4 is a view showing the internal structure of the detection line shown in Fig. 2. Fig.
5 is a schematic view illustrating a method of detecting a position of a pipe using a detection pipe assembly according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

A detection pipe assembly according to an embodiment of the present invention will now be described with reference to the accompanying drawings.

The structure of the detection pipe assembly according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 4. FIG.

A detection pipe assembly according to an embodiment of the present invention includes a pipe 200 and a position detection unit 220 attached to a part of the outer surface of the pipe 200 along the extension direction (300), and a lid (400) covering the position detection unit (300).

At this time, the pipe 200 is made of a plastic material such as polyethylene and has a hollow or elliptical cross-sectional shape.

The position detecting unit 300 includes two detection lines 301 and 302 insulated from each other and a protective film covering the two detection lines 301 and 302 and incorporating two detection lines 301 and 302 therein 303).

Each of the detection lines 301 and 302 is a covered wire and includes signal transmission lines 31 and 32 formed of copper (Cu) and formed of twisted wires, and signal transmission lines 31 and 32, (311) and (321). Accordingly, the signal transmission lines 31 and 32 are formed by a plurality of disconnection lines twisted together.

Each of the covering portions 311 and 321 is made of polyvinyl chloride (PVC), in particular, soft PVC to protect the shielding signal transmission lines 31 and 32 from external impact or physical force, Thereby insulating the transmission lines 31 and 32 from each other.

The protective film 303 surrounds the two detection lines 301 and 302 and is made of PVC such as the covering portions 311 and 321.

Therefore, the two detection lines 301 and 302 are embedded in the protective film 303. The space between the outer surface of the protective film 303 and the detection lines 301 and 302 is filled with the protective film 303, The impact applied to the detection lines 301 and 302 is absorbed by the protection film 303 and the magnitude of the impact applied to the detection lines 301 and 302 is relaxed.

The cover 400 is made of a soft polyethylene such as low density polyethylene (LDPE) or medium density polyethylene (MDPE) and has a substantially semicircular (i.e., C-shaped) It is a semicircular tube with a cross-sectional shape.

The lid 400 covers the position detecting portion 300 extending along the longitudinal direction of the pipe 200 from the outer surface of the pipe 200 so that the position detecting portion 300 is inserted into the lid 400, .

That is, since the position detecting unit 300 exists in a space formed between a part of the outer surface of the pipe 200 and the cover 400 positioned thereon, the position detecting unit 300 is in contact with the pipe 200 And the upper portion of the position detecting unit 300 is in contact with the lid 400.

The position detecting unit 300 is positioned within the space between the lid 400 and the pipe 200 and the pressing operation of the lid 400 is performed by the position detecting unit 300, Since the position of the position detecting unit 300 located in the space is stably maintained by the first and second elastic members 321 and 322,

Accordingly, a separate welding, melting or bonding process for attaching the position detecting part 300 to the outer surface of the pipe 200 made of a plastic material is unnecessary. This makes it possible to greatly reduce the attachment time of the position detection unit 300 and to prevent the coating of the detection lines 301 and 302 from being affected by heat or shock applied to attach the position detection unit 300 to the outer surface of the pipe 200 The problem of peeling or disconnection is solved and the problem of damaging the pipe 200 is also solved.

An empty space 401 in which the position detecting unit 300 is not present is present between the lid 400 and the pipe 200. The space 401 is formed from the outside of the lid 400, Thereby absorbing the impact transmitted to the position detecting unit 300 existing in the inside and protecting the position detecting unit 300.

Since the lid 400 does not expose the position detecting unit 300 to the outer surface of the pipe 200 and the load caused by the soil or the rubble is not directly applied to the position detecting unit 300, The risk of damage to the device is further reduced.

When the lid 400 is located on the outer surface of the pipe 200 and the position detecting unit 300 located in the lid 400 is required to be removed when the pipe 200 is connected to the pipe 200, The lid 400 is easily removed from the pipe 200 and the problem of damaging the surface of the pipe 200 during removal of the lid 400 is reduced.

Further, since the position detecting unit 300 located on the pipe 200 in the lid 400 is not subjected to adhesive or other bonding process, the separation process of the pipe 200 and the position detecting unit 300 can be performed manually And the surface of the pipe 200 is not damaged during the removal process of the position detection unit 300. [

2, the angle [theta] formed by the surface of the pipe 200 and the surface of the lid 400 and the size (e.g., height and width) of the lid 400 are set to be equal to the outer diameter of the pipe 200 And as the outer diameter of the pipe 200 increases, the angle? Decreases.

For example, the height H of the inner surface of the cover 400 is 3.2 mm to 4 mm, the width D of the inner surface is 8 mm to 16 mm, and the thickness T may be 1 mm to 2 mm have.

The degree of protrusion of the lid 400 protruding from the surface of the pipe 200 gradually increases from the surface of the pipe 200 to the top of the lid 400 so that the load applied to the lid 400 is transmitted to the lid 400 ). ≪ / RTI > Accordingly, the risk of breakage or dislodging of the lid 400 due to an external impact is greatly reduced, and the amount of impact transmitted to the position detection unit 300 is also reduced.

Further, as already described, since it is made of low-density polyethylene or medium-density polyethylene which is softer than high density polyethylene (HDPE), the external impact is prevented from being transmitted to the position detecting unit 300 existing in the cover 400 400, the impact transmitted to the position detection unit 300 is greatly reduced.

When a strong impact is applied from the outside to the side of the lid 400 or the pipe 200, since the space 401 exists in the lid 400, the position detecting unit 300 detects the position of the other space 401 in the direction in which the impact is applied. And the damage is reduced

In addition, since the signal transmission lines 31 and 32 are formed of a plurality of single wires, the impact applied to the signal transmission lines 31 and 32 is absorbed by the air layer formed between the plurality of single wires, As compared with the case where the signal transmission line is formed by this disconnection, in the case of twisted wire, since the strength due to the impact is strong, the risk of disconnection of the signal transmission lines 31 and 32 is greatly reduced.

In order to manufacture a detection pipe assembly having such a structure, the position detecting unit 300 is already manufactured as a separate product, and the pipe 200 and the lid 400 are separated by a separate process And extrusion-molded.

Accordingly, the pipe 200 having the inside diameter and the thickness is first molded by extrusion molding using the forming mold, and the pipe 200 is elongated while moving along a moving part such as a conveyer belt.

Next, the position detector 300 already manufactured on the upper surface of the pipe 200 which is extruded and moved along the moving part is arranged and moves together with the pipe 200 moving along the moving part. At this time, a roller or the like is placed on the outer surface of the pipe 200 to stably position the position detection part 300 on the outer surface of the pipe 200, which is cooled to about 50 to 90 degrees. Pressure is applied to the position detection unit 300. [

형상)의 덮개(400)가 파이프(200)의 외부 표면에 위치한 위치 탐지부(300)를 덮는 상태로 압출 성형된다. 이로 인해, 위치 탐지부(300)를 탑재한 파이프(200)는 다시 위치 탐지부(300)를 덮는 덮개(400)를 압출한 후 이동부를 따라 이동한다.Next, in a separate extruder,

Shaped cover 400 is extruded so as to cover the position detecting portion 300 located on the outer surface of the pipe 200. [ Thus, the pipe 200 mounting the position detecting unit 300 moves again along the moving unit after extruding the lid 400 covering the position detecting unit 300 again.

The position detecting unit 300 is arranged in the space 401 between the lid 400 and the pipe 200 so that the position detecting unit 300 is uniformly arranged and inserted into the space between the lid 400 and the pipe 200. [ And also sucks air on the lid 400 using the air suction device to prevent the lid 400 from being completely cooled down to the pipe 200 side.

As a result, the lid 400 stably secures the space 401 between the pipe 200 and the lid 400, and the naturalness of the pipe 200 and the lid 400 by the air flow by the air- The cooling rate is further improved.

This allows the position detection unit 300 to be positioned between the pipe 200 and the lid 400 without using a separate welding, melting, or laminating process and positioning the position detection unit 300 between the pipe 200 and the lid 400, A pipe assembly having a lid 400 covering the position detecting part 300 in the longitudinal direction is formed. Therefore, the manufacturing process is shortened, and there is no risk of damage or disconnection of the detection lines 301, 302 and the pipe 200.

Referring now to FIG. 5, a method for detecting the position of a buried pipe using a detection pipe assembly according to an embodiment of the present invention will be described.

5, the pipe 200 buried in the underground 1 is provided with two detection lines 301 and 302, and each of the detection lines 301 and 302 is formed by a twisted pair Signal transmission lines 31 and 32 exist.

One end of each of the signal transmission lines 31 and 32 present inside each of the detection lines 301 and 302 is connected to each other (for example, right part in FIG. 5) And the other end is connected to the transmitter 600, respectively.

One of the signal transmission lines 31 and 32 is connected to the output terminal OUT1 of the transmitter 600 and the other one of the signal transmission lines 31 and 32 is connected to the input terminal IN1 of the transmitter 600 And a closed circuit is formed.

Then, in this state, when an electric signal, that is, a detection signal, in a predetermined state is output to the output terminal OUT1 of the transmitter 600, the detection signal is transmitted to the first detection line 301, which is one of the two detection lines 301 302 The signal transmission line 32 of the second detection line (e.g., 302) is connected to the first detection line 301 after moving along the signal transmission line 31 of the first detection line 301 And is applied to the input terminal IN1 of the transmitter 600. [

At this time, the transmitter 600 compares the states of the electric signal output from the output terminal OUT1 with the electric signal input to the input terminal IN1 to check whether the detection lines 301 and 302 are disconnected, The position detection unit 300 can be quickly replaced when a disconnection occurs in at least one of the detection lines 301 and 302 of the lines 301 and 302.

When a detection signal output from the transmitter 600 is input to the transmitter 600 and the flow of the detection signal is normally performed, a magnetic field MF is formed around the position detection unit 300 according to the flow of the signal. Accordingly, the operator detects the magnetic field of the detection signal formed along the pipe 200 by using the detector 130 on the ground, and grasps the buried position of the pipe 200.

When a buried position of a pipe is searched for using a single detection line, as described above with reference to FIG. 1, it is inconvenient to form a ground by inserting a separate ground rod in the ground to construct a closed circuit.

In addition, the earth resistance changes depending on the environment of the ground where the ground bar is embedded, which greatly influences the flow of the electric signal, and adversely affects the accurate position search of the pipe position.

However, in this example, it is not necessary to provide separate ground rods in the ground because the detection positions of the pipe 200 are searched by using the two detection lines 301 and 302, and the grounding of the closed circuit formed affects the environment of the ground So that the buried position of the pipe 200 is grasped stably and accurately.

When checking whether a detection line connected to a pipe is disconnected by using a tester, when the number of detection lines is one, a separate wire as long as the length of the pipe should be connected to the tester to form a closed circuit.

However, in the case of two detection lines, it is easy to confirm whether or not the detection line is disconnected by connecting the two detection lines to the tester and constituting the closed circuit, without adding additional wires.

In addition, since the signal transmission lines 31 and 32 are formed in a stranded shape, the connection operation with other lines can be performed easily by hand without any additional equipment, So that the work speed of the operator is improved and the risk of disconnection of the signal transmission lines 31 and 32 is reduced.

In this example, two detection lines 301 and 302 are provided in the position detection unit 300, but only one detection line 301 or 302 may be provided. In this case, the manufacturing cost of the position detecting unit 300 is significantly reduced compared with the case where the two detecting lines 301 and 302 are provided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

200: pipe 300: position detection unit
301, 302: detection line 31, 32: signal transmission line
311, 321: covering part 303: protective film
400: cover 401: space

Claims (8)

In a detection pipe assembly having a position detection part for detecting a position of a pipe,
pipe,
A position detector positioned on an outer surface of the pipe along an extending direction of the pipe,
A cover which is made of a material that is softer than the pipe and that covers the position detecting portion located on the outer surface of the pipe in the longitudinal direction,
Lt; / RTI >
The position detection unit is fixed to the outer surface of the pipe by the pressure applied to the cover directly on the pipe without using an adhesive or a joining process,
The position detection unit includes a first signal line for transmitting a detection signal output from an output terminal of the transmission unit and a second signal line connected to the first signal line and for applying the detection signal transmitted through the first signal line to the input terminal of the transmission unit Equipped
Detection pipe assembly. The method of claim 1,
Wherein the position detection unit further includes a protection film which is formed to separate the first signal line and the second signal line from each other. 3. The method of claim 2,
Wherein the protective membrane is made of PVC. The method of claim 1,
Wherein the lid is comprised of low density polyethylene or medium density polyethylene. The method according to claim 1 or 4,
Wherein the lid has a C-shaped cross-section and the angle between the surface of the pipe and the surface of the lid decreases as the outer diameter of the pipe increases. The method of claim 1,
Further comprising a space between the pipe and the cover in which the position detector is not located. Forming a pipe by extrusion molding and extending the pipe by using a moving part,
Arranging a position detection part on the upper surface of the pipe moving along the moving part to move the position detection part together with the pipe moving along the moving part, and
A step of extruding a lid in a state of covering the position detecting portion on the upper surface of the pipe having the position detecting portion
Lt; / RTI >
The position detection unit includes a first signal line connected to an output terminal of the transmission unit and transmitting a detection signal output from the output terminal, and a second signal line connected to one side of the first signal line, And a second signal line for transmitting the detection signal and applying the detection signal to the input terminal of the transmission unit connected to the other side
A method of manufacturing a detection pipe assembly. 8. The method of claim 7,
Further comprising, after the lid extrusion step, sucking air over the lid using an air intake device.

Images