KR20180058882A - Pipe Mapping Prove Apparatus for searching Pipe Route Position with Encorder and Camera - Google Patents

Abstract

The present invention relates to a pipe mapping prove apparatus for grasping a position of a pipe route having an encoder and a camera, which has a problem in which an inner state of a pipe can′t be precisely grasped. To solve the problem, the pipe mapping prove apparatus of the present invention comprises: a shaft member; a head cover; a bearing unit; a sensor unit; a control board unit; a first battery unit; a first inner main body unit; a first pig; a spring elastic unit; a second outer main body unit; a second inner main body unit; a second battery unit; a camera control board unit; a second pig; and a wire supply unit comprising a reel unit and a recording unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a pipeline mapping probe apparatus for locating a pipeline path including an encoder and a camera,

The present invention relates to a pipeline mapping probe apparatus for acquiring accurate positional information of a pipeline on a three-dimensional map by collecting intra-pipeline information such as positional information and leakage while moving along a pipeline buried in a basement, . In general, when a pipeline is installed on the ground, it is easy to locate the pipeline through the naked eye. However, if buried underground, time elapses, or if there is a change in groundwater, In many cases, it is difficult to precisely grasp the internal state of the pipeline and to transmit the detected information to the ground. Also, since the pipeline is buried underground, it is not possible to obtain location information by using GPS. Therefore, it is necessary to find the exact position of the pipeline buried in the underground for the leakage or replacement of the pipeline, Acquiring internal information is of great significance.

A conventional technique related to the present invention is disclosed in Korean Patent No. 10-1548320 (published on Feb. 29, 2015). 1 is a block diagram of the conventional pipeline mapping probe apparatus. In FIG. 1, the pipeline mapping probe apparatus for locating the path of a pipeline includes three acceleration sensors and three gyroscopes in the interior thereof, and is coupled to one side of the inner body 140-1 by a bearing unit 190 And a sensor unit 150 configured to maintain the balance even when the mapping probe unit is tilted to the left or to the right, and to receive accelerations information of each axis of the three-dimensional axis generated by the three acceleration sensors, The angular velocity information of the three-dimensional angular axis generated by the three gyro sensors is received and stored in the memory unit, and the movement distance information received from the encoder of the second pig 200 is received and stored in the memory unit A control board part 160 coupled to the other side of the inner body part 140-1 with a control part configured to control the sensor part, The battery pack includes a battery coupled to the control board by supplying power to the battery pack, an outer body portion 140 configured to surround the inner body portion and the battery, and a connection shaft 140 coupled to the inner body portion 140-1 at one side of the outer body portion. A shaft member 110 which is fastened to the internal thread of the connection shaft and a first cable connection port 180 through which the cable is fastened at the other side of the outer body part 140, A gyro sensor, a control board unit, and an encoder unit, and supplies power from the battery to the acceleration sensor, the gyro sensor, the control board unit, and the encoder unit, An elastic member 300 composed of a plurality of springs connecting the first and second pigs 100 and 200 to each other so that the first and second pigs 100 and 200 can be received by the control board unit 160, One side of the member and the second side And a second plate 230 fastened to one side of the reel unit 220. The reel unit 220 is wound and wound around the wire 221-1. A first guide portion 221 attached to an upper portion of the reel unit to guide the wire of the wire wire, a guide hole 222 for guiding the wire wire drawn out from the first guide portion to the center, A second guide portion 223 for guiding the wire wire 221-1 to the steel wire connecting portion 227, an encoder connector for inserting the cable 111 to connect with the encoder, A second pig internal body part 240-1 in which an encoder for calculating a travel distance of the mapping probe device in the channel and transmitting the cable to the control board part 160 is installed, The inner body And a second pig 200 to which a second circular plate 220 fastened to the other side of the outer body 240 is mounted. will be. In the conventional pipe mapping probe apparatus 500 configured as described above, when the wire wire is fixed to the launcher at the origin of the pipe, and the water pipe is inserted into the pipe after water pressure is applied to the pipe, the pipe mapping probe apparatus moves along the pipe, Dimensional angular velocity of each of the three-dimensional axes and moving distance information of the three-dimensional axes of the pipeline mapping probe apparatus while moving the pipeline, and stores the generated angular velocity information and the moving distance information in the self-memory unit. In addition, the sensor unit of the pipe mapping probe apparatus for path position recognition according to the present invention will be described in more detail. The sensor unit includes three acceleration sensors for generating acceleration information for each axis of three dimensions (x, y, z) (X, y, z) and three-dimensional gyro sensors for generating angular velocity information about three-dimensional (x, y, z) rotation axes. The sensor unit 150 is fastened to the inner body part and the bearing part. The acceleration information for each axis, the angular velocity information about the three-dimensional axis, and the movement distance information of the mapping probe device generated by the encoder 260 of the second pig 200 are received and stored in the memory unit And a control board unit 160 coupled to the other side of the inner body of the first pig 100. The second cable connection port 280 is formed at the center of the second plate 230 and at one side of the inner body 240-1 and has a pad support 282 having a hole and an inclined groove at its center, And a urethane pad 284 having a hole therein is inserted into the inclined groove and the cable passes through the hole of the pad support and the urethane pad 284 to be waterproof. Also, the steel wire connector 227 may have a waterproof structure similar to that of the second cable connector.

The conventional pipe mapping probe apparatus configured as described above has a problem that the state inside the pipe can not be accurately grasped. In addition, the conventional art described above has a problem in that it is difficult to locate the pipeline in real time because the encoder is configured inside the second pig, which is difficult in a place where the moving water pressure of the mapping probe apparatus in the pipeline is weak. Therefore, an object of the present invention is to acquire information that can accurately grasp a position of a pipeline embedded in an underground and a state of a pipeline inside. It is another object of the present invention to provide a mapping probe apparatus and a method of controlling the same, which comprises providing an encoder in a cable wire supply unit, storing data generated in a sensor unit and a camera of a mapping probe apparatus moving in a pipeline, So that the position and running speed of the apparatus can be grasped and the configuration of the mapping probe apparatus is simplified to facilitate the movement in the pipeline.

In order to solve the above problems, the present invention provides a pipeline mapping probe apparatus for positioning a pipeline including an encoder and a camera, the pipeline mapping probe apparatus including a shaft member for supporting a body, a head cover coupled to the shaft member, A sensor part including three acceleration sensors and three gyro sensors formed inside the first pig internal body at one side of the bearing part; A controller for generating three-dimensional acceleration information of each axis generated by the three acceleration sensors and storing them in a memory unit, generating angular velocity information of three-dimensional angular axis generated by the three gyro sensors, and storing them in a memory unit A first battery unit for supplying power to the sensor unit and the control board unit, A first internal body part having a space formed therein for incorporating the first battery part and the control board part formed at one side of the sensor part and a first external body part surrounding the first internal body part; A spring resilient portion for fastening the first and second pigs to the outside of the first peg with a spring, a second outer body portion fastened to the spring resilient portion, and a space formed inside the second outer body portion A second battery unit installed in the inner space of the second inner body and supplying power to the camera and the LED, a second battery installed in the inner space of the second inner body and powered from the second battery, A camera control board unit having a control unit configured to capture the inside of the pipeline while the mapping probe apparatus moves inside the pipeline and to store the image information in the memory unit, A second pigtail which is installed in a space inside the second internal body part and which is supplied with power from the second battery part and which has an LED part for illuminating the inside of the channel, The mapping probe device having the first and second pigs connected thereto is connected by a cable wire, and while the mapping probe device is moved by hydraulic pressure, the cable wire connected to the mapping probe device is released to feed the cable wire, And an encoder and a GPS receiver for generating and transmitting length information and speed information of the cable wire to the main control unit of the recording unit to receive the position information and to receive the released length information and speed information of the cable wire from the encoder A cable wire supply unit It is characterized in that configured.

The pipeline mapping probe apparatus for locating the pipeline path including the encoder and the camera of the present invention having the above-described structure is provided with the position information of the mapping probe apparatus that moves along the pipeline while easily moving the pipeline buried in the basement, It is possible to grasp the position information and the pipeline internal image information according to the movement of the mapping probe apparatus. In addition, another effect of the present invention is to provide an encoder for generating information on the released length and speed information of the cable wire to be released in accordance with the movement of the mapping probe apparatus in the pipeline, And it is possible to grasp the positional information while the mapping probe apparatus is moving through the recording unit.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a conventional pipeline mapping probe apparatus,
2 is a perspective view of a mapping probe apparatus according to the present invention,
3 is a cross-sectional structural view of a mapping probe apparatus according to the present invention,
FIG. 4 is a first fragmentary exploded perspective view of a mapping probe apparatus according to the present invention, FIG.
Fig. 5 is a schematic view of a mapping blob device applied to the present invention as viewed from a second pig rear portion,
FIG. 6 is a cross-sectional view of a cable wire supplying portion side applied to the present invention,
Fig. 7 is a top front sectional view of a cable wire supply portion applied to the present invention, Fig.
8 is a use state diagram of a pipeline mapping probe system for locating a pipeline path including an encoder and a camera according to the present invention.
Fig. 9 is a configuration diagram of a recording section applied to the present invention.

A pipeline mapping probe apparatus for determining the path position of the pipeline according to the present invention having the above-described objects will be described with reference to FIGS. 2 to 9. FIG.

2 is a perspective view of a mapping probe apparatus according to the present invention. 2, the mapping probe apparatus 50 according to the present invention includes a first elastic member 30 for fastening the first and second pigs to the first and second pigs, and a second elastic member Pig 20 as shown in Fig. In the above description, the head cover 12 fastened to the shaft member is formed on the front surface of the first pig 10.

3 is a cross-sectional configuration diagram of a mapping probe apparatus according to the present invention. 3, the mapping probe apparatus 50 according to the present invention includes a shaft member 11 for supporting a body, a head cover 12 fastened to one side of the shaft member, A sensor unit 15 composed of three acceleration sensors and three gyro sensors arranged inside the first pig internal body at one side of the bearing unit and a bearing unit 14 installed at the shaft member at one side of the shaft member, A controller for generating acceleration information of each axis of the three-dimensional axis generated by the three acceleration sensors and storing the acceleration information in the memory unit and generating angular velocity information of the angular axis of the three-dimensional angles generated by the three gyroscopes, A first battery unit 17 for supplying power to the sensor unit and the control board unit, and a second battery unit 17 connected to the sensor unit, the first battery unit, and the control unit (10) composed of a first inner body portion (13) having a space formed therein for containing the inner portion and a first outer body portion (18) surrounding the first inner body portion, A spring elastic part 30 for fastening the first and second pigs to the outside of the first peg by a spring, a second outer body part 28 fastened to the spring elastic part, A second battery unit 27 installed in the inner space of the second inner body unit to supply power to the camera and the LED, and a second battery unit 27 installed in the inner space of the second inner body unit A camera unit 24 which receives power from the second battery unit and photographs the interior of the duct while the mapping probe apparatus moves inside the duct to generate image information and transmits the image information to the camera control board unit 24-1, The battery pack according to claim 1, And a camera control board unit (24-1) including a LED unit (25) for receiving a circle and illuminating the inside of the duct, and a control unit for controlling the memory unit to store image information received from the camera unit. (20). The camera control board unit may include a camera switch 24-2 for turning on and off the camera of the camera unit, and an LED switch 25-2 for turning on and off the power supply of the LED unit. The mapping probe system of the present invention is connected to the mapping probe apparatus constituted by the first and second pigs by a cable wire 40-1 and the mapping probe apparatus is connected to the mapping probe apparatus while the inside of the channel is moved by water pressure An encoder 62 for generating length information and speed information for releasing the cable wire to the main control unit of the recording unit and a GPS receiver for constituting a reel unit 61 for winding the cable wire by unrolling the cable wire to supply the cable wire, And a recording unit (63) for receiving position information and receiving and storing the released length information and speed information of the cable wire from the encoder.

Also, the mapping probe apparatus as described above includes a reel unit 61 for releasing the cable wire 40-1 connected to the mapping probe apparatus while supplying the cable wire, and recovering and winding the cable wire while the mapping probe apparatus is moved by water pressure An encoder unit 62 for generating length information on the cable wire loosened and the speed information about the speed at which the cable wire is loosened, and a GPS receiver for receiving the position information of the point where the cable wire enters the channel, And a recording unit 63 for receiving and storing the released length information and the speed information of the cable wire from the cable wire supply unit 60 so as to complete the operation thereof.

4 is a first schematic exploded perspective view of a mapping probe apparatus according to the present invention. 4, the first pig 10 of the mapping probe apparatus according to the present invention is inserted into the inner space of the first inner body part, and three acceleration sensors and three gyro sensors are installed. A control board part 16 constituted by a memory part and a control part which is fastened to the other side of the sensor part, And a first battery unit 17 for supplying power to the sensor unit, the control board unit, and a battery unit support 17-2 for seating the first battery unit. A cable connector 18-3 fastened through a hole formed in the cable connector 13-1 and a first cable connector 18-1 inserted and installed to be waterproof by an O-ring 18-2 inserted into the cable connector And the like. The second pig 20 is formed with a fastener 40-3 for fastening the cable wire of the cable wire supply unit. The camera unit 24 is formed on the upper part of the space formed by the second internal body part, And the two LEDs 25 are attached to the LEDs. The cable connector is a kind of connector used for transmitting information stored in the control board.

5 is a schematic view of the mapping probe apparatus according to the present invention, seen from the second pig rear portion. 5, the second pig 20 of the mapping probe apparatus according to the present invention is provided with a fastener 40-3 for fastening the cable wire 40 to one side of the center, And the LED unit 25 is attached to the lower portion of the space. The image information captured by the camera of the camera unit is transmitted to the camera control board unit 24-1, And a plurality of drain holes 29 for draining water are formed in the second outer body portion 28 at the outer periphery of the center portion. When the plurality of drain holes 29 are formed in the second outer body portion 28 of the second pig as described above, it is possible to facilitate the movement of the mapping probe device in the channel.

FIG. 6 is a cross-sectional view of a cable wire supplying section according to the present invention. 6, the cable wire supply unit 60 includes a reel unit 61 that is installed on the both-side reel support 64 installed on the first flange 66 with the cable wire wound thereon so that the drum is rotatable, An encoder 62 for generating a released length information and a released speed information of a cable wire that is unwound by winding or winding the cable wire and transmitting the released length information and the speed information to the recording unit; A control box 70 including a motor 65 and a GPS receiving unit 66-1, a control box 70, a motor, and a recording unit 63. The control unit 70 includes a recording unit 63 for receiving and storing speed information, A first flange portion 66 provided above the reel portion, the encoder and the recording portion, and a second flange portion 66 spaced apart from the first flange portion by a predetermined distance to the support bracket 67 And the pipe And a support base 68 provided below the second flange portion 65. The cable flange portion 65 is provided with a cable wire 68 for guiding the entry angle of the cable wire that enters into or out of the duct, And a guide portion 69 as shown in FIG.

Fig. 7 is a top front sectional view of a cable wire feeding part applied to the present invention. Fig. 7, the upper part of the cable wire supplying part according to the present invention includes a reel part 61 configured to allow the drum to rotate on both side reel supports installed on the first flange, and a cable wire wound or unwound from the reel part A wire rotation section (62-1) for rotating and passing through the wire rotation section, a wire rotation section (62-1) for generating a movement distance information and velocity information of the released cable wire through the wire rotation information of the wire rotation section, A motor 63-1 for providing rotational power to the reel unit, a pulley 64-1 for transmitting the rotational power of the motor to the reel unit, a controller for controlling the motor A GPS receiving unit 66-1 for generating position information and a memory unit 63-4 for storing length information and speed information released from the encoder, A power supply section 67-1 for supplying power to the control box, the motor and the recording section, and a first flange 66 for installing the reel support 64, the wire rotation section 62-1 and the recording section 63, (66) is viewed from the front.

8 is a use state diagram of a pipeline mapping probe system for locating a pipeline path including the encoder and the camera of the present invention. 8, a duct-mapping probe system for locating a pipeline path including an encoder and a camera according to the present invention is provided with a cable wire supply unit 60 in a manhole formed on one side of a pipeline, and a mapping probe apparatus 50 Axis acceleration information generated by the sensor unit 15 of the mapping probe apparatus 50 and the three-axis acceleration information generated by the mapping probe apparatus 50 and the three- 3-axis angular velocity information is stored in the control board unit, the image information captured by the camera of the camera unit 24 is stored in the camera control board unit, and the released length information and velocity information generated by the encoder are received and stored in the recording unit The acceleration information, the angular acceleration information, the movement distance information of the mapping probe apparatus, the velocity information, and the position information, And the state of the inside of the pipe can be diagnosed by analyzing the image information stored in the camera control board unit.

Fig. 9 is a configuration diagram of a recording section applied to the present invention. 9, the recording unit 63 of the present invention receives the released travel distance information and velocity information of the cable wire received from the encoder 62 installed in the cable wire supply unit, The location information of the point can be received and stored in the memory unit 63-4. Also, the recording unit calculates the Euler angles using the three-axis acceleration information and the three-axis angular velocity information stored in the memory unit of the control board unit, performs system modeling using the Euler angles and the Kalman filter stored in the memory unit, The system model, the covariance, and the moving distance information are used to estimate the three-dimensional position information modeling for the system, and the three-dimensional position information model, the covariance, and the covariance for the noise received from the encoder Dimensional position information of the mapping probe apparatus using the information of the released length (moving distance information) of the cable wire, the velocity information, and the position of the pipe entry point, and stores the information in the memory unit, And stores the image information and the location information of the pipeline in a table Axis acceleration information, three-axis angular velocity information, moving distance information received from the encoder unit, velocity information, position information, and Kalman filter, which are acquired from the mapping probe apparatus And a display unit 63-5 for providing in-pipe positional information of the mapping probe apparatus stored in the memory unit and in-pipe image information stored in the memory unit. Although the description has been given of the case where the position information of the mapping probe apparatus is calculated in the recording unit, the information about the released length of the cable wire stored in the recording unit, the velocity information, the 3-axis acceleration information, the 3-axis angular velocity information stored in the control board unit, The location information of the mapping probe apparatus can be calculated in an apparatus such as a separate server using the image information stored in the storage unit, and can be provided through the display unit together with the image information.

10: first pig, 12: head cover,
18: first outer body portion, 20: second pigtail,
30: spring elastic part, 60: cable feeder part,
80: Pipeline

Claims (10)

1. A pipeline mapping probe system for locating a pipeline path including an encoder and a camera,
A channel mapping probe system for locating a channel path including the encoder and the camera,
A mapping probe apparatus composed of a first peg (10), a spring elastic part (30) for fastening the first and second pigs, and a second pig (20) fastened to the spring elastic part.
And an encoder and a GPS receiver for transmitting the length information and the speed information of the cable wire to the main control unit of the recording unit and the position information And a recording unit for receiving and storing the length information and the speed information from the encoder and storing the decoded length information and the speed information, and a cable wire supply unit (60) system.
The method according to claim 1,
The first pig (10)
A shaft member (11) for supporting the body;
A head cover (12) fastened to one side of the shaft member;
A bearing portion (14) installed in the shaft member at one side of the shaft member inside the first internal body portion;
A sensor unit 15 composed of three acceleration sensors and three gyro sensors which are formed inside the first pig internal body at one side of the bearing unit;
A controller for generating acceleration information of each axis of the three-dimensional axis generated by the three acceleration sensors and storing the acceleration information in the memory unit and generating angular velocity information of the angular axis of the three-dimensional angles generated by the three gyroscopes, A control board unit 16 provided therein;
A first battery unit 17 for supplying power to the sensor unit and the control board unit;
A first inner body portion (13) having a space formed therein to include the sensor portion, the first battery portion, and a control board portion formed at one side of the sensor portion;
And a first outer body portion (18) surrounding the first inner body portion. ≪ Desc / Clms Page number 13 >
The method according to claim 1,
The second pig (20)
A fastener 40-3 for fastening the cable wire to one side of the center of the second pigtail and a camera part 24 on the upper part of the space formed by the second inner body part inside the second outer body part 28, And the two LEDs 25 are attached to the lower part of the pipe. The pipe mapping probe system for an inspection of a pipe path position with an encoder and a camera.
The method according to claim 1,
The cable wire supply unit 60 includes:
A second flange portion 65 provided with a reel portion, an encoder, and a recording portion above the first flange portion, a support bracket 67 spaced a predetermined distance below the first flange portion, and a second flange portion 65 fastened to the pipe from the lower portion of the support bracket And a cable wire guide portion (69) provided on a support base, the support base (68) being disposed under the second flange portion (65). The duct The mapping probe system.
The method according to claim 1,
The second pig (20)
And a plurality of drain holes (29) for drainage of water are formed in the second outer body portion (28) at the outer periphery of the central portion.
The method of claim 3, wherein
The second < RTI ID =
And a plurality of drain holes (29) for drainage of water are formed in the second outer body portion (28) at the outer periphery of the central portion.
1. A pipeline mapping probe system for locating a pipeline path including an encoder and a camera,
A channel mapping probe system for locating a channel path including the encoder and the camera,
A head cover (12) which is fastened to one side of the shaft member; a bearing part (14) which is installed in the shaft member at one side of the shaft member inside the first internal body part; A sensor unit 15 composed of three acceleration sensors and three gyroscopes arranged inside the first internal body part of the first unit, and acceleration information of each axis of the three-dimensional axis generated by the three acceleration sensors, A control board unit 16 for controlling the three-dimensional angular velocity angular velocity information generated by the three gyro sensors to be stored in the memory unit, and a controller unit 16 for supplying power to the sensor unit and the control board unit A first battery unit 17 formed on the first side of the sensor unit, and a control board unit formed on one side of the sensor unit, the first battery unit, and the sensor unit, Including the body portion 13 and the first inner body part surrounding claim 1 configured as an external body portion (18) a first pig (10) and;
A spring elastic part (30) for fastening the first and second pigs;
A fastener 40-3 fastened to one side of the center by being fastened to the spring elastic part and a fastener 40-3 fastened to a space formed by the second internal body part inside the second external body part 28. [ A second pig 20 having a camera part 24 on the upper part thereof and two LED parts 25 on the lower part thereof;
And an encoder and a GPS receiver for transmitting the length information and the speed information of the cable wire to the main control unit of the recording unit and the position information Axis acceleration information and 3-axis angular velocity information of the sensor unit from the control board unit of the mapping probe apparatus and outputs the position information, A recording unit for calculating and storing positional information of the mapping probe apparatus on the basis of the length information, the velocity information, the triaxial acceleration information, and the triaxial angular acceleration information, and acquiring and storing the image information photographed by the camera from the camera control board unit At the top, the reel unit, encoder and A second flange portion provided at a lower portion of the support bracket and fastened to the pipe, and a cable wire guide portion (69) provided at the lower portion of the second flange portion, And an encoder and a camera, wherein the pipe mapping probe system includes:
A cable wire supply unit applied to a mapping probe system for generating positional information and intra-channel image information while entering a conduit and moving through a conduit,
The cable wire supply unit includes:
A reel unit for releasing a cable wire connected to the mapping probe unit to feed the cable wire and recovering and winding the cable wire;
An encoder for transmitting length information and speed information of the cable wire to the main control unit of the recording unit;
A GPS receiver configured to receive positional information, receive the released length information and velocity information of the cable wire from the encoder, obtain three-axis acceleration information and three-axis angular velocity information of the sensor unit from the control board unit of the mapping probe apparatus, , The position information of the mapping probe apparatus in the piping based on the released length information of the cable wire, the velocity information, the 3-axis acceleration information, and the 3-axis angular acceleration information, and obtains and stores the image information from the camera control board unit ;
A first flange portion having a reel portion, an encoder, and a recording portion at an upper portion thereof;
A support bracket installed at a lower portion of the first flange portion;
A second flange installed at a lower portion of the support bracket and coupled to the pipeline;
And a cable wire guide portion (69) provided below the second flange portion.
A mapping probe apparatus for generating three-axis acceleration information, three-axis angular velocity information, and in-pipe image information while moving into a pipeline and moving the pipeline,
Wherein the mapping probe apparatus comprises:
A head cover (12) which is fastened to one side of the shaft member; a bearing part (14) which is installed in the shaft member at one side of the shaft member inside the first internal body part; A sensor unit 15 composed of three acceleration sensors and three gyroscopes arranged inside the first internal body part of the first unit, and acceleration information of each axis of the three-dimensional axis generated by the three acceleration sensors, A control board unit 16 for controlling the three-dimensional angular velocity angular velocity information generated by the three gyro sensors to be stored in the memory unit, and a controller unit 16 for supplying power to the sensor unit and the control board unit A first battery unit 17 formed on the first side of the sensor unit, and a control board unit formed on one side of the sensor unit, the first battery unit, and the sensor unit, Including the body portion 13 and the first inner body part surrounding claim 1 configured as an external body portion (18) a first pig (10) and;
A spring elastic part (30) for fastening the first and second pigs;
And a fastener 40-3 which is fastened to the spring elastic part and fastened to one side of the center of the cable wire 40 and is formed by a second inner body part inside the second outer body part 28 And a second pig (20) having a camera part (24) at the upper part of the space and two LED parts (25) at the lower part.
10. The method of claim 9,
The second < RTI ID =
And a plurality of drain ports (29) for draining water are formed in the second outer body portion (28) at the center outskirts.

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