KR102340306B1 - Non-metallic pipeline exploration apparatus - Google Patents

Abstract

A non-metallic pipeline exploration apparatus of the present invention can receive the flow rate of water, flowing through a non-metallic pipe buried underground, from a meter that checks the flow rate and can wirelessly transmit the same to the outside of the ground. The non-metallic pipeline exploration apparatus comprises: a saddle corporation tap (100) installed in a non-metallic pipe (10) through which a fluid flows, while being buried underground; a communication member (200) located in the inner space of the non-metallic pipe (10) through the saddle corporation tap (100) to transmit a communication signal to the outside; and an exploration member (300) for receiving the communication signal of the communication member (200) while being located on the ground to explore the non-metallic pipe (10). The non-metallic pipe (10) has a through-hole (11) formed in an upper portion thereof. The saddle corporation tap (100) includes: an upper saddle (110) positioned on the non-metallic pipe (10), and having a communicating hole (111) communicating with the through-hole (11) of the non-metallic pipe (10); a lower saddle (120) located below the non-metallic pipe (10); a fastening member (130) for fastening the upper saddle (110) and the lower saddle (120); a valve body (140) in which a valve space (141) communicating with the communication hole (111) while being connected to the upper saddle (110) is opened upward; a valve (150) installed on the valve body (140) to open and close the valve space (141); and a guide member (160) connected to an upper part of the valve body (140), and for guiding the communication member (200) toward the valve space (141) when the valve (150) opens the valve space (141).

Description

Non-metallic pipeline exploration apparatus

The present invention relates to a non-metallic pipeline exploration device capable of exploring the buried position of a non-metallic pipeline buried underground.

In general, many metal pipes such as water pipes, gas pipes, and sewage pipes, or cables such as communication cables and power cables are buried underground (hereinafter referred to as buried metal). These buried metals are not simply buried linearly in both the horizontal direction and the vertical direction, but are bent or branched in the horizontal direction or in the vertical direction as needed, so that they intersect each other complicatedly, runaway (輻輳) is buried in the state.

As such, there are many buried metals underground, and because of the need to prevent accidents caused by other companies' construction and efficient maintenance of their own buried metal, technology to detect the location or depth of buried metal in the ground without excavation This is proposed. As a general conventional technique, there is an underground radar or an electromagnetically guided pipeline detector.

However, there is a problem in that the above-described technique cannot detect a pipe made of a non-metal buried underground.

As for the background art of the present invention, Patent Publication No. 10-2016-0134654 is registered with the Korean Intellectual Property Office as of November 23, 2016.

The problem to be solved by the present invention is to provide a non-metallic pipeline exploration device capable of exploring the buried position of a non-metallic pipeline buried underground.

The non-metallic pipeline exploration apparatus according to an embodiment of the present invention includes a saddle fountain 100 installed in a non-metallic pipeline 10 through which a fluid flows while being buried in the ground, and a non-metallic pipeline through the saddle fountain 100. A communication member 200 that is located in the inner space of 10 and transmits a communication signal to the outside, and a probe member that receives the communication signal of the communication member 200 in a state of being located on the ground to explore the non-metallic pipeline 10 300 , the non-metal pipe line 10 has a through hole 11 formed thereon, and the saddle water faucet 100 is located on the non-metal pipe line 10 , and the through hole of the non-metal pipe line 10 . The upper saddle 110 in which the communication hole 111 communicating with the 11 is formed, the lower saddle 120 located in the lower part of the non-metallic conduit 10, the upper saddle 110 and the lower saddle 120 The fastening member 130 to be fastened, the valve space 141 communicating with the communication hole 111 while being connected to the upper saddle 110 is installed in the valve body 140 and the valve body 140 that are opened to the top. When the valve 150 for opening and closing the valve space 141 and the valve 150 are connected to the upper part of the valve body 140 to open the valve space 141 , the communication member 200 is guided to the valve space 141 . It is characterized in that it comprises a guide member (160).

Preferably, the guide member 160 is coupled to the valve body 140 and the communication member 200 penetrates through the guide body 161 in which the guide space is opened up and down, and in the guide space of the guide body 161 . A leak prevention part 162 provided at the lower part to press the outside of the communication member 200 to prevent water leakage, and a leak prevention part 162 provided on the upper part of the leak prevention part 162 to press the communication member 200 when the communication member 200 is pressed. It is characterized in that it includes an opening/closing part 163 for opening the guide space of the and closing the guide space of the guide body 161 when the pressure of the communication member 200 is released.

Preferably, the leak prevention part 162 is composed of an O-ring and is characterized in that it presses the outer peripheral surface of the communication member 200 .

Preferably, the guide body 161 is formed with an inward facing jaw 165 protruding inward from the top, and the opening and closing part 163 is composed of a rubber plate having one end fixed to the guide space of the guide body 161, and the opening and closing part 163 ), since the support plate 166 formed on the upper surface is supported by being caught by the lower portion of the inward facing jaw 165 , the rubber plate, which is the opening and closing part 163 , is characterized in that it does not protrude to the outside of the guide body 161 .

Preferably, the communication member 200 is connected to the cable 210 inserted into the non-metallic conduit 10 through the saddle water hydrant 100 and one end of the cable 210 to the saddle water fountain 100. It is characterized in that it includes a cable fixture 220 fixed by hanging, and a buoyancy body 230 floating in a fluid while connected to the other end of the cable 210 .

The present invention can explore the buried position of the non-metallic pipe buried underground.

1 is a perspective view showing a non-metallic pipeline exploration apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view showing a state in which the saddle fountain hydrant of the present invention is mounted on a non-metallic pipe.
3 is a cross-sectional view showing a state in which the stopper of the present invention closes the valve body.
Figure 4 is a cross-sectional view showing a state in which the valve of the present invention closed the valve body.
Figure 5 is a cross-sectional view showing a guide member mounted on the valve body of the present invention.
6 is a cross-sectional view showing a state in which the cable is inserted into the non-metallic conduit through the guide member of the present invention.
7 is a cross-sectional view showing a state in which the exploration member of the present invention probes the non-metallic pipe into which the cable is inserted.
8 is a block diagram schematically showing the exploration member of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a non-metallic pipeline exploration apparatus according to an embodiment of the present invention.

As shown in Figures 1 to 8, the non-metallic pipeline exploration apparatus of the present invention includes a saddle water hydrant 100 installed in a non-metallic pipeline 10 through which a fluid flows while being buried in the ground, and a saddle water fountain ( The communication member 200 which is located in the inner space of the non-metallic pipe 10 through 100 and transmits a communication signal to the outside, and the non-metallic pipe 10 by receiving the communication signal of the communication member 200 in a state of being located on the ground ) includes a probe member 300 for exploring.

The non-metallic conduit 10 is composed of a tubular body (pipe) having an inner space open at both ends, and a through hole 11 through which the communication member 200 passes is formed in the upper portion. Water, sewage, gas, etc. may flow through the non-metallic conduit 10 or a communication line may be wired.

Saddle fountain faucet 100 is located on the upper portion of the non-metal pipe line 10, and the upper saddle 110 in which a communication hole 111 communicating with the through hole 11 of the non-metal pipe line 10 is formed, and a non-metal pipe line ( 10), the lower saddle 120 positioned at the lower portion, the upper saddle 110 and the fastening member 130 for fastening the lower saddle 120, and the upper saddle 110 communicate with the communication hole 111 while connected to the The valve space 141 is connected to the upper part of the valve body 140, the valve 150 is installed in the valve body 140 to open and close the valve space 141, and the valve body 140 is opened When the valve 150 opens the valve space 141 , it includes a guide member 160 for guiding the communication member 200 to the valve space 141 .

The upper saddle 110 and the lower saddle 120 are formed to be bent in an arc shape, respectively, and flanges are formed at both ends of each. Accordingly, when the upper saddle 110 is located on the non-metallic conduit 10 and the lower saddle 120 is located on the non-metallic conduit 10, it has a substantially circular shape.

The fastening member 130 includes a bolt passing through the flange of the upper saddle 110 and the flange of the lower saddle 120 and a nut coupled to the bolt.

The valve body 140 has a male thread formed thereon, so that the guide member 160 may be coupled thereto. In addition, when the guide member 160 is separated from the valve body 140 and is not used, the stopper 170 may be coupled to close the valve space 141 .

In addition, a concave groove is formed in the valve space 141 of the valve body 140 so that the ball of the valve 150 to be described later can be rotated in a seated state.

The valve 150 may be formed of a handle penetrating laterally through the valve body 140 and a ball in which a hole is formed to open and close the valve space 141 of the valve body 140 in a state provided in the handle. Accordingly, when the user rotates the handle of the valve 150 , the ball is rotated so that the hole formed in the ball communicates with the valve space 141 . On the contrary, when the user rotates the handle of the valve 150 in the opposite direction, the ball is rotated in reverse so that the hole formed in the ball does not communicate with the valve space 141 . That is, the valve space 141 is closed.

The guide member 160 is coupled to the valve body 140 and provided at the lower part of the guide body 161 in which the guide space through which the communication member 200 is penetrated is opened up and down, and the guide space of the guide body 161. A leak prevention part 162 that presses the outside of the communication member 200 to prevent water leakage, and it is provided on the top of the leak prevention part 162 to provide a guide space for the guide body 161 when the communication member 200 is pressed. and an opening and closing unit 163 for closing the guide space of the guide body 161 when the pressure of the communication member 200 is released.

As the guide body 161 opens up and down the guide space, an inward facing jaw 165 protruding inward from the upper part is formed, and a female thread is formed in the lower part. Accordingly, the guide body 161 may be coupled to the upper portion of the valve body 140 .

The leak prevention unit 162 may be configured as an O-ring to press the outer circumferential surface of the communication member 200 . Therefore, since the leak prevention part 162 presses the outer peripheral surface of the communication member 200, the fluid is not lost and foreign substances are not penetrated. In this state, the communication member 200 may be forcibly moved through the leak prevention unit 162 by external pressure.

The opening and closing part 163 is composed of a rubber plate having one end fixed to the guide space of the guide body 161 . Accordingly, when the communication member 200 is pressed, the other end of the rubber plate, which is the opening/closing part 163 , is bent to open the guide space of the guide body 161 . That is, the communication member 200 may be moved along the open guide space. The opening/closing part 163 is configured in plurality and may be provided on both sides in the guide space of the guide body 161 .

In addition, the opening/closing unit 163 has a support plate 166 formed on its upper surface. The support plate 166 is made of a hard synthetic resin or a metal plate and is supported by being caught on the lower portion of the inward jaw 165 of the guide body 161 . Therefore, the guide space of the guide body 161 can be easily closed because the rubber plate that is the opening and closing part 163 does not protrude to the outside of the guide body 161 . That is, the fluid is not lost by the opening/closing part 163 .

In this way, after the valve 150 is rotated to close the valve space 141 of the valve body 140 , the stopper 170 is separated from the valve body 140 . At this time, the fluid flowing through the non-metal pipe 10 is not lost to the outside by the closed valve 150 .

Then, after coupling the guide member 160 to the valve body 140 , the valve 150 is rotated in reverse to open the valve space 141 of the valve body 140 . At this time, the closed state of the valve space 141 is maintained by the opening and closing part 163 .

In this state, when the communication member 200 is inserted into the guide member 160 , the opening and closing part 163 is opened, but the communication member 200 moves while passing through the O-ring which is the leak prevention part 162 .

Here, the communication member 200 is guided through the guide member 160 and is inserted into the non-metallic conduit 10 .

The communication member 200 is a cable 210 that is inserted into the non-metallic conduit 10 through the saddle faucet 100, and the cable 210 is connected to one end of the cable 210 and is hung on the saddle faucet 100 to be fixed. It includes a cable fixture 220 and a buoyancy body 230 floating in the fluid in a state connected to the other end of the cable 210 .

The cable 210 is made of a metal core wire and a skin surrounding the core wire.

The cable fixture 220 may be configured as a block formed with a width greater than that of the valve body 140 . That is, the cable fixture 220 may be fixed by being caught by the valve body 140 .

Therefore, when the cable 210 is inserted into the non-metallic conduit 10, the buoyancy body 230 moves while floating in the fluid, so that the cable 210 can be completely unfolded without being folded. At this time, since the cable fixture 220 is caught on the saddle faucet 100, the cable 210 is in a taut state.

The exploration member 300 includes a radio wave emitting unit 310 that radiates radio waves underground, and a reflected wave receiving unit 320 that receives a reflected wave reflected from the communication member 200 located in the inner space of the non-metallic pipe 10, and; and a radio wave determining unit 330 for processing the received reflected wave to determine the position and depth of the communication member 200 located in the inner space of the non-metallic conduit 10 .

Radio waves are reflected from the surface where the properties change.

Therefore, since the radio wave generated from the exploration member 300 is reflected from the cable 210 of the communication member 200 inserted into the non-metallic conduit 10 , the probe 300 detects the radio wave reflected from the cable 210 . can do.

In addition, the exploration member 300 may be configured to include an antenna device to receive the reflected radio waves, convert them into information, and provide them to an external mobile or PC.

As described above, the present invention can be said to be a very useful invention that can be widely used in the field because it can explore the buried position of the non-metallic pipeline buried in the ground.

Those skilled in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential characteristics thereof. Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their equivalents Any changes or modifications derived from it should be construed as being included in the scope of the present invention.

10: non-metal pipe 11: through hole
100: Saddle Fountain Jeon 110: Upper Saddle
111: communication hole 120: lower saddle
130: fastening member 140: valve body
141: valve space 150: valve
160: guide member 161: guide body
162: leak prevention part 163: opening and closing part
165: inward chin 166: support plate
200: communication member 210: cable
220: cable fixture 230: buoyancy body
300: exploration member 310: radio wave radiation unit
320: reflected wave receiving unit 330: radio wave determining unit

Claims (5)

A saddle fountain 100 installed in a non-metallic pipe 10 through which a fluid flows in a state buried underground, and
A communication member 200 that is located in the inner space of the non-metal pipe 10 through the saddle faucet 100 and transmits a communication signal to the outside;
In a state located on the ground, it receives the communication signal of the communication member 200 and includes the exploration member 300 for exploring the non-metallic pipe 10,
The non-metallic conduit 10 has a through hole 11 formed in the upper portion,
Saddle Fountain Jeon (100)
An upper saddle 110 positioned on the non-metallic conduit 10 and having a communication hole 111 communicating with the through-hole 11 of the non-metallic conduit 10 is formed;
The lower saddle 120 positioned at the lower part of the non-metallic conduit 10, and
A fastening member 130 for fastening the upper saddle 110 and the lower saddle 120,
A valve body 140 in which the valve space 141 communicating with the communication hole 111 while being connected to the upper saddle 110 is opened upwardly;
A valve 150 installed on the valve body 140 to open and close the valve space 141,
When the valve 150 is connected to the upper part of the valve body 140 to open the valve space 141, it includes a guide member 160 for guiding the communication member 200 to the valve space 141,
The guide member 160 is
A guide body 161 coupled to the valve body 140 and the guide space guiding through the communication member 200 is opened up and down;
A water leak prevention part 162 provided at the lower part in the guide space of the guide body 161 to press the outside of the communication member 200 to prevent water leakage;
It is provided on the upper part of the leak prevention unit 162 and opens the guide space of the guide body 161 when the communication member 200 is pressed, and when the pressure of the communication member 200 is released, the guide space of the guide body 161 is closed. Includes an opening and closing part 163 to close,
The leak prevention part 162 is composed of an O-ring and presses the outer peripheral surface of the communication member 200,
The guide body 161 is formed with an inward facing jaw 165 protruding inward from the top,
The opening/closing part 163 is composed of a rubber plate having one end fixed to the guide space of the guide body 161, and is made of a hard synthetic resin or metal plate on the upper surface, and is hung on the lower part of the inward jaw 165 of the guide body 161 and supported. A support plate 166 is formed,
Since the support plate 166 formed on the upper surface of the opening and closing part 163 is supported by being caught on the lower part of the inward facing jaw 165 , the opening and closing part 163 closes the guide space of the guide body 161 while closing the guide body 161 outside of the guide body 161 . does not protrude with
The communication member 200 is
A cable 210 that is inserted into the non-metallic conduit 10 through the saddle faucet 100, and
A cable fixture 220 fixed to the saddle faucet 100 while being connected to one end of the cable 210,
Non-metallic pipeline exploration device, characterized in that it comprises a buoyancy body (230) floating in the fluid in a state connected to the other end of the cable (210). delete delete delete delete

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