KR100948293B1 - Cable pipeline testing implement and method for testing cable pipeline using the same - Google Patents

Abstract

The present invention relates to a continuity measuring device and a continuity measuring method using the same to reduce the cost as well as to reduce the construction period by improving the accuracy and promptness in measuring the continuity of the duct to enable the internal shooting and internal diameter measurement of the duct, A body which is put into the body, a ring portion formed at each of the front end and the rear end of the body, a camera connected to one end of the body and transmitting the information by photographing the inside of the pipe, and having a constant interval on the upper part of the body. A cover part connected to the body through a plurality of support bars configured to be radially attached to both outer peripheries of the body and configured to be developed and folded, and measuring the diameter of the inside of the pipe as the cover part is developed and folded. Sensor unit configured to the side of the body to deliver, and the information of the camera and sensor unit It comprises a storage unit for storing, the cover portion is configured by both ends are retracted inward so as to move smoothly when moving in the pipe, the support bar is fixed to both ends of the support frame is configured, the fixed The support frame is characterized in that it is configured to surround the cover portion in the form of a ring so as to be movable left and right along the body when the cover portion is deployed and folded.

Conduction, Pipeline, Measurement, Sensor, Cover, Camera

Description

Conductivity meter and method for measuring conductance using same {cable pipeline testing implement and method for testing cable pipeline using the same}

The present invention relates to a continuity measuring device and a continuity measuring method using the same. More particularly, the present invention relates to a continuity measuring device and a continuity measuring method using the same.

In general, the power industry should consider whether to continue the achievement of the five-year economic development plan and whether to install the construction scale or permanent or simple facilities in accordance with each municipality's major urban development plan. Corrugated pipes are often installed in line with the plans of related organizations such as city gas, waterworks, drainage pipes of ward offices, and wired cables after a long period of time, and the corrugated pipes are crushed due to ground subsidence and ground fluctuations. It is often subsided or impregnated.

According to the conventional method of measuring the conduction, the conduction rods, which are about 10 mm smaller than the diameter of the conduit, are moved from one side of the corrugated tube to the other side to determine whether the corrugated tube is clogged. If the corrugated pipe is torn or crushed, there was a problem in that the diagnosis could not be made.

On the other hand, when conducting rods smaller than the diameter of the corrugated pipe are moved from one side of the corrugated pipe to the other side to check only whether the corrugated pipe is clogged, and the cable is installed and electrically connected, the cable is stressed due to insufficient space. There is a high risk of large accidents.

In addition, since the contractor conducted its own conduction measurement and cable installation of the corrugated pipe, it was difficult to expect accuracy and fairness in the results.

In addition, the electric and communication corrugated pipes buried underground due to civil engineering work or ground subsidence are partially crushed or damaged, so that a lot of soil or foreign matter accumulates inside the corrugated pipes. In the measurement work of, the conduction rods of different diameters were put into the corrugated pipe several times to find the damaged part, and not only accurate measurement was required but also a lot of work time and labor were required.

In addition, since the conduction rods use a standardized standard, when the corrugation tube is in a bad state, it is inconvenient to perform a plurality of conduction measurements using a plurality of conduction rods having different diameters. It was not possible to determine whether the connection state was deformed during laying (or after construction).

In addition, by performing excavation work using an excavator to replace the corrugated pipe when the state of the corrugated pipe is bad, there is a problem that the construction period increases and the cost of the corrugated pipe is increased.

The present invention is to solve the conventional problems as described above to enable the internal shooting and internal diameter measurement of the conduit to improve the accuracy and speed when measuring the conduction of the conduit to reduce the construction period and the cost of the conduction measuring instrument and The purpose is to provide a method for measuring conduction using the same.

Conduit measuring device according to the present invention for achieving the above object is connected to one end of the body, and the ring portion formed in the front and rear ends of the body, respectively, the body and the inside of the pipeline A cover unit configured to be connected to the body and to be folded and connected through a plurality of support bars configured to be radially attached to both outer peripheries of the body with a camera for transmitting information, and a predetermined distance to the upper part of the body; The sensor unit is configured to include a sensor unit configured to the side of the body to transmit information by measuring the diameter of the inside of the pipeline as the cover portion is developed and folded, and a storage unit for receiving and storing the information of the camera and the sensor unit, The cover part is configured to be both ends are retracted inward so as to move smoothly when moving inside the pipe The support bar is fixed to the support frame is configured at both ends, the fixed support frame is configured to surround the cover portion in the form of a ring to move from side to side along the body when the cover portion is deployed and folded, The body between the fixed support frame is characterized in that it has a shock-absorbing spring to facilitate the movement of the fixed support frame when the cover portion is deployed and folded.

In addition, the method for measuring the conduction according to the present invention comprises the steps of injecting a conduction meter into the pipeline; Photographing and measuring the state and diameter of the inside of the pipe while moving the conduction meter and transmitting the result to the outside; Measuring a distance of a continuity meter inserted into the pipe and moving; And storing the state, diameter, and distance of the inside of the pipe in an external storage unit.

The continuity measuring device according to the present invention and the continuity measuring method using the same have the following effects.

First, since the camera is connected to the body by using a camera connected to the pipeline, the presence of foreign matter, whether the deformation can be grasped such that the environmental information in the pipeline can be provided.

Second, by measuring the diameter of the pipeline in real time while moving using a sensor attached to the side of the body it is possible to accurately determine the portion of the pipeline.

Third, by installing a distance meter to measure the moving distance according to the movement of the body in front of the pipe connecting member for connecting the pipe can be measured and stored where the damaged portion of the pipe.

On the other hand, after storing the measurement distance separately through the distance meter can be confirmed the exact point in the pipeline can be corrected by inserting a calibrator without additional excavation work can be shortened construction period.

Fourth, if there is an abnormality in the pipeline, by putting an excavator or calibrator inside the pipeline to repair the pipeline can reduce the construction cost by the excavation of the road and the reduction of equipment and manpower according to the replacement of the pipeline.

Fifth, the results of measuring the diameter, the internal state and the distance of the measured pipe can be usefully used depending on the required construction by storing the result in a separate storage medium.

Hereinafter, with reference to the accompanying drawings will be described in more detail the conduction meter and the conduction measurement method using the same according to the present invention.

1 is a perspective view showing a conduction meter according to the present invention, Figure 2 is a side view showing a state attached to the camera in the conduction meter of Figure 1, Figure 3 is a side view showing a state attached to the sensor in the conduction meter of Figure 1 4 is a view showing a distance meter configured at the end of the pipe connecting member.

As shown in Figures 1 to 4, the conduction meter 100 according to the present invention is connected to one end of the body 110 and the body 110, which is introduced into the conduit 10, the conduit ( 10) a plurality of support bars 131 which are radially attached to both sides of the outer periphery of the body 110 while having a predetermined interval on the upper portion of the body 110 and the camera 120 to shoot the information to the inside. The cover part 130 is connected to the body 110 through a) and configured to be developed and folded, and the diameter of the inside of the conduit 10 is measured according to the development and folding of the cover part 130. It comprises a sensor unit 140 configured to at least one side of the body 110, and a storage unit 150 for receiving and storing information of the camera 120 and the sensor unit 140. .

Here, the pipe 10 may be a corrugated pipe, a straight pipe, or the like, but the preferred embodiment of the present invention will be described using a bellows-type corrugated pipe as an example.

The display unit 160 further includes a display unit 160 displaying information photographed by the camera 120 and information measured by the sensor unit 140.

One end and the other end of the body 110 has a connection ring 170 is formed so that the wire 171 and the like can be connected, respectively.

Meanwhile, a plurality of holes are formed at the outermost end of the connection ring 170 of the portion where the camera 120 is mounted, and the connection ring 170 is formed.

The cover portion 130 is configured by both ends are retracted inward to move smoothly when moving in the pipe.

The conduction measuring device according to the present invention has a streamlined shape and elasticity so that the cover part 130 can be freely sized according to the diameter of the conduit so as to measure the conduit 10 of any standard such as a distribution conduit, a transmission conduit and a communication conduit. Is giving.

The support bar 131 has a fixed support frame 132 is configured at both ends, the fixed support frame 132 is left and right along the body 110 during the deployment and folding of the cover portion 130 It is formed while surrounding the cover portion 130 in a ring shape to enable movement.

In addition, the body 110 between the fixing support frame 132 has a buffering action spring 133 so that the movement of the fixing support frame 132 proceeds smoothly when the cover portion 130 is deployed and folded. Consists of. Here, when the conduction measuring device 100 is moved by the spring 133, the cover 130 may be expanded and contracted smoothly according to the diameter of the conduit 10.

On the other hand, as shown in Figure 4, there is configured a pipe connecting member 20 for connecting the pipe line 10 is the body 110 is inserted, the front end of the pipe connecting member 20 is the body 110 Distance measurer 180 is configured to measure the distance to move when the inside of the pipeline moves. Here, the distance measuring unit 180 displays the moving distance of the line while rotating while inserting the line between the roller having a roller shape when the conduction meter 100 moves by pulling the line connected to the connecting ring 170 from the other side. Done.

The pipe connecting member 20 is made of a hard material such as plastic to prevent deformation of the inlet of the pipe.

By measuring the moving distance of the body 110 by the distance measuring unit 180 and stored in the storage unit 150 by buried in accordance with the results measured through the camera 120 or the sensor unit 140 After confirming the location of the abnormality in the part, it can be repaired by inserting the calibrator or excavator in the abnormal part of the pipeline without any additional excavation work.

The sensor unit 140 is waterproofed on the surface. By using the waterproof sensor 140, it is possible to perform a smooth operation even in the pipe 10 in which water is introduced.

On the other hand, the distance measured by the distance meter 180 is stored in the storage unit 150 together with the results of measuring the camera 120 and the sensor unit 140.

Here, the camera 140 is configured to be attached to and detached from the body 110, the inside of the pipeline to take a video to send to the storage unit 150, through the display unit 160 of the pipeline Internal status can be monitored. Of course, it is possible to easily shoot only the accident point and the necessary place during shooting is made by remote control.

The conduction measuring device according to the present invention configured as described above to identify the crushed or buried or damaged portion of the pipeline by using the camera 120 and the sensor unit 140 in the pipeline of the underground and the electric and communication cable, The corrected position is determined by the distance measurer 180 using the part detected by the camera 120.

In the conduction measuring device 100 according to the present invention, the damaged state and the position of the damaged part in the conduit can be grasped from the outside and at the same time the inner diameter of the damaged position and the damaged part in the display unit 160 and the length measuring unit 180 according to the expansion and contraction range of the expansion. The position can be displayed accurately in numbers.

Then, after drawing out the continuity measuring instrument according to the present invention to the outside of the conduit if necessary for the repair of the calibrator or excavator into the conduit to repair the conduit.

Therefore, the construction time can be shortened by omitting a separate excavation work.

Referring to Figure 6 describes the operation of the conduction meter according to the present invention configured as described above are as follows. That is, FIG. 5 is a schematic diagram for explaining an operation process of the continuity measuring device according to the present invention.

Conduction measurement method according to the present invention, as shown in Figure 5, as a previous step for installing a cable, such as electric wire, one or the other side of the conduction measuring instrument to examine the inside of the pipe to determine whether the closure, distortion and damage It is put into the pipeline through the pipeline.

First, the worker is placed in the manholes at both ends of the pipe to measure the conduction, and the wire 171 which is able to measure the distance is bundled and passed through the inside of the pipe 10.

Subsequently, the connection ring 170 of the continuity meter 100 including the camera 120, the sensor unit 140, and the cover unit 130 is connected to the wire 171, and the worker is opposite the pipe line 10. Pulls the wire 171 so that the conductivity meter 100 passes through the conduit 10. At this time, the diameter of the conduit 10 is measured according to each position of the conduit 10 when passing through the conduit 10.

Subsequently, the camera 120 attached to the continuity measuring device 100 photographs the inside of the conduit 10 to a part which cannot be visually checked, and shows the correct state of the conduit such as inflow, crushing, cutting, and damage of external materials. To make an accurate diagnosis.

The conduction measuring device 100 moves from one side to the other side and transmits the state inside the conduit 10 to the display unit 160 and the storage unit 150 installed outside. At this time, while moving from one side to the other side, the cover portion 130 that can be deployed and folded in the body 110 according to the internal state of the conduit 10 is repeated to expand and contract according to the diameter of the conduit 10. The sensor unit 140 measures the diameter of the conduit 10 according to the developed state of the cover unit 130 and transmits the diameter to the display unit 160 and the storage unit 150.

Here, the cover portion 130 can be developed and folded as described above to pass through while being folded in a narrow diameter area of the pipeline, in which case the sensor unit 140 measures the diameter of the folded portion and sends it. Done. In addition, within the wide diameter region of the conduit 10 is passed through the cover portion 130 is developed, at this time also to measure the diameter of the conduit 10 using the sensor unit 140.

On the other hand, the measurement of the diameter of the conduit 10 by the sensor unit 140 is measured in real time when the conduction measuring instrument 100 passes through the conduit 10 to be displayed on the display unit 160.

In addition, since the conduction measuring device 100 according to the present invention can be expanded and collapsed and expanded and contracted, the conduction measurement device 100 can be put into a pipe having various diameters to measure conduction.

Subsequently, the distance measuring unit 180 configured at one end of the conduit is for measuring the distance that the conduction measuring device 100 moves, and the number of moving distances is displayed numerically.

On the other hand, the diameter of the conduit sent from the camera 120, the sensor unit 140 and the distance measuring unit 180 can be converted into an objective value data.

In addition, by storing the data data numerically as described above in the storage unit 150, not only can be usefully used depending on the required construction, but can also check whether construction is in progress.

On the other hand, when the dent of the pipe occurs, the applicant uses the underground buried pipeline pipe straightener filed on November 9, 2001 (Application No. 10-2001-0069639) to expand the crushed portion of the pipe. At this time, the process of the calibration operation may be taken by the camera 120 and stored as evidence.

And when the pipe is torn off, the body 110 is discharged to the outside and wrapped in the soldering material to wrap the correction unit, and then put in the pipe again, and extend the correction unit so that the material wrapped in the correction unit to cover the torn portion Attach.

6 is a side view illustrating a state in which a cutting machine is attached in the continuity measuring device according to the present invention.

As shown in FIG. 6, when the inside of the pipeline is blocked, the body 110 is discharged to the outside, and after cutting the camera 120 from the body 110, a cutter such as a drill in the body 110. 190 is mounted and introduced into the pipeline, the cutter is rotated to drill the blocked portion. At this time, the drill is operated by the air generated in the compressor, the air is introduced as the drill rotates to break through the concrete coal tar or foreign matter with stuck soil.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, it is conventional in the art that various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a perspective view showing a conductivity meter according to the present invention

FIG. 2 is a side view illustrating a state in which a camera is attached in the conductivity meter of FIG. 1. FIG.

3 is a side view showing a state in which a sensor unit is attached in the conduction meter of FIG.

4 is a view showing a distance meter configured at the end of the pipe connecting member

5 is a schematic diagram for explaining an operation process of a continuity measuring device according to the present invention;

6 is a side view showing a state in which a cutting machine is attached in the continuity measuring device according to the present invention.

Explanation of symbols for the main parts of the drawings

100: conduction meter 110: body

120: camera 130: cover

140: sensor unit 150: storage unit

160: display unit 170: connection ring

180: distance meter

Claims (10)

A body that is introduced into the pipeline, A ring portion formed at the front end and the rear end of the body, A camera connected to one end of the body and transferring information by photographing the inside of the pipe; A cover part connected to the body through a plurality of support bars configured to be radially attached to both outer peripheries of the body while having a predetermined gap thereon, and a cover part configured to be deployed and folded; A sensor unit configured on the side of the body for measuring and measuring the diameter of the inside of the conduit as the cover unit is deployed and folded, and It comprises a storage unit for receiving and storing the information of the camera and sensor unit, The cover portion is configured by both ends are retracted inward so as to move smoothly when moving in the pipe,  The support bar is fixed to the support frame is configured at both ends, the fixed support frame is configured to surround the cover portion in the form of a ring to move from side to side along the body when the cover portion is deployed and folded, Body between the fixed support frame is a conductivity meter characterized in that it has a spring for the buffer action so that the movement of the fixed support frame smoothly proceeds when the cover portion is deployed and folded. The conduction meter of claim 1, further comprising a display unit configured to display information of the camera and the sensor unit to the outside. delete The conduction meter of claim 1, wherein the camera is configured to be detachable from the body. delete The conduction meter of claim 1, further comprising a distance measuring unit configured to be disposed at a front end of the pipe line to measure a distance at which the body is moved into the pipe line. delete Injecting a continuity meter comprising any one of claims 1 to 2 and 4 and 6 into the conduit; Photographing and measuring the state and diameter of the inside of the pipe while moving the conduction meter and transmitting the result to the outside; Measuring a distance of a continuity meter inserted into the pipe and moving; And storing the state, the diameter, and the distance of the inside of the pipe in an external storage unit. The method of claim 8, further comprising displaying the state of the inside of the conduit to the outside. The method of claim 8, further comprising: analyzing a cause after identifying a state of the pipe; And a step of inputting a maintenance device for maintenance when there is an abnormality in the pipeline according to the cause analysis result.

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