KR101175914B1 - Method and apparatus for testing the insulation of electric cable - Google Patents

Abstract

PURPOSE: A method and an apparatus for testing the insulation of an electric cable are provided to detect the permanent, temporary, and intermittent short circuits of a cable. CONSTITUTION: An apparatus for testing the insulation of an electric cable is composed of an inlet part(1), a main pressure gauge(2), a flow meter(3), a pressing part(4), and a compressed gas pipeline(5). Compressed gas flowing from a compressor(B) flows into the inlet part. The pressing part presses the compressed gas into a cable(C) which is to be tested through the compressed gas pipeline.

Description

Method and device for diagnosis of insulation of cables {Method and Apparatus for Testing the Insulation of Electric Cable}

The present invention relates to a method and device for diagnosing insulation of a cable. More specifically, the compressor body may be pressed into a cable to detect a short circuit occurring only when humidity is high, such as a temporary short circuit, intermittent short circuits, and rainy weather. The present invention relates to a method and an apparatus for diagnosing insulation of a cable.

Excavation damages the sheath of the distribution cable, poor insulation of the connection points in the junction box, or poor construction, such as damage to the sheath due to rubble during direct burial, and leakage of current from the distribution cable. In a dry state, even when the coating is damaged, such as a minute damage to the coating, the current does not leak, but when the humidity is wet, such as rain, the current may leak.

As such, when a current leaks from the distribution cable, an electric shock occurs, an arc occurs due to leakage current, a fire occurs, a power loss occurs due to leakage, and an overload of the transformer due to the leakage current. In case that it is difficult to replace the cable such as underground cable in the factory premises, it is possible to cause failure of the transformer and malfunction of the substation control cable. A lot of heat is generated and there is a difficulty in dealing with this exotherm.

Insulation resistance test (Megger Test) is mainly used as a diagnostic method of the insulation of the cable to prevent the leakage of the distribution cable. Insulation resistance test measures the insulation resistance of cables and diagnoses the insulation of cables. However, in the cable installed in a dry area, the insulation resistance test, which is an electrical test method, does not detect short-circuit leaks other than permanent short-circuits, intermittent short-circuit leaks and rainy weather, and performs a regular insulation resistance test. Even though there is a problem that a lot of electrical accidents occur.

KR 10-2012-0011970 A (Korea Electric Power Corporation) 2012.2.9. KR 10-203-0043566 A (Hitachi Seisakusho) 2003.6.2. KR 10-0193060 B (Mapo Industrial Electronics) 1999.6.15.

In order to solve the above problems, the present invention provides a method and apparatus for diagnosing insulation of a cable capable of detecting a short circuit occurring as well as a short circuit, a short circuit, an intermittent short circuit, and rainy weather. There is a purpose.

The present invention, in order to achieve the above object, by injecting the compressor body from one end or both ends of the cable to the inside of the cable to measure the change in the flow and pressure of the compressor body to determine the damage of the cable coating to determine the insulation state of the cable Diagnose

As described above, the present invention diagnoses the insulation state of the cable by a mechanical method, so that the electrical leakage is detected only when humidity is high, such as temporary leakage, intermittent leakage and rainy weather, as well as permanent leakage of the cable without being affected by humidity. It can work.

1 is a configuration diagram of an embodiment of the insulation diagnostic device of the present invention.
2 is a configuration diagram of another embodiment of the insulation diagnostic device of the present invention.
3 is a configuration diagram of yet another embodiment of the insulation diagnostic device of the present invention.

As mentioned earlier, the electrical insulation diagnostic method (Megger Test) does not detect short circuits that occur only when humidity is high, such as temporary leakage, intermittent leakage, or rainy weather, except for permanent leakage of cables installed in a dry area. As a result, many electrical failures occur even if the insulation resistance test is carried out regularly.

The present invention mechanically diagnoses the insulation of the cable to solve this problem. That is, the present invention injects the compressor body into the cable at one or both ends of the cable to measure the change in the flow and pressure of the compressor body to determine whether the cable sheath is damaged to diagnose the insulation state of the cable.

Next, the present invention will be described in detail with reference to the accompanying drawings with reference to the accompanying drawings. 1 is a configuration diagram of an embodiment of the insulation diagnostic device of the present invention. Insulation diagnosis device (A) according to the present invention is an inlet (1), the main pressure gauge (Main Pressure Gauge) for introducing the compressor body from the compressor (compressor) or the compressor body line (hereinafter collectively referred to as 'compressor') (B) (2), a flow meter (3) and a press-fitting portion (4) for pressing the compressor body into the cable (hereinafter referred to as a "fish cable") (C) to diagnose the insulation state .

The inlet 1 includes an intake 11, a main valve 13, and a regulator 14, and the indentation 4 is a feeder valve. 41, a pressure gauge 42, and a feeder 44. In addition, a relief valve 12 may be added to the inlet 1, and a drain valve 43 may be added to the indentation 4.

The compressor body may use other gases, but it is preferable to use air or nitrogen gas. In addition, it is preferable to provide a filter (Filter) in the compressor (B) so that a dry compressor without moisture can flow into the insulation diagnostic device (A).

The method for diagnosing the insulation state of the cable with the insulation diagnostic device (A) of the present invention as follows. First, one end of the fish cable (C) is connected to the press inlet 44 of the press-fit part 4 and the other end is blocked by the closing port (D) to prevent the compressor body from exiting, and the inlet 11 of the inlet 1 Is connected to the compressor (B).

Subsequently, the drain valve 43 is closed and the main valve 13 and the press-fit valve 41 are opened so that the compressor body is press-fitted into the fish cable C through the insulation diagnosis device A. In this way, when the compressor body flows into the insulation diagnostic device A, the pressure of the compressor body that flows in is displayed on the main pressure gauge 2, and the flow rate of the compressor body that flows in is displayed on the flowmeter 3.

The pressure of the gas flowing into the regulator 14 of the inflow portion 1 is adjusted to be appropriate, and the flow of gas is checked through the flowmeter 3. It is preferable to adjust the pressure of the introduced compressor body to 70 psi.

The compressor body introduced into the press-fitting part 4 is press-fitted into the fish cable C through the press-fitting valve 41 and the press-fitting port 44 of the press-fitting part 4, and at this time, the press-fitting body into the fish cable C Pressure is displayed on the pressure gauge 42 of the press-fit part 4.

When the flow of the compressor body observed by the flowmeter 3 is stopped, it is determined that there is no damage to the fish cable C, and the diagnosis is finished. On the other hand, when the flow of the gas observed by the flowmeter 3 continues and the pressure of the gas observed by the pressure gauge 42 of the indentation unit 4 reaches a constant pressure, the main valve 13 and the indentation valve 41 are locked and compressed. Observe the pressure of the gas and determine that there is no damage to the fish cable (C) if there is no change in pressure even after elapse of time. On the contrary, if the pressure of the gas decreases over time, it is determined that there is damage to the fish cable (C).

If there is damage to the fish cable (C) as described above, the degree of decompression and decompression depending on the degree of damage of the fish cable (C) (e.g. knife cut, 1.0 mm hole, 0.5 mm hole, needle point, no defect) The time is different.

Therefore, the degree of decompression according to the degree of cable damage and the actual distance of the cable and the required time are measured and made into a database, and the degree of decompression is continuously measured at regular time intervals when the insulation state of the fish cable (C) is diagnosed. By measuring and matching the result with the database, it is possible to know whether the cable is damaged or not.

After the insulation diagnosis of the fish cable (C) is completed in the same manner as above, open the drain valve (43) and remove the closure (D) from the fish cable (C) to the insulation diagnosis device (A) and the fish cable (C). Reduce the hanging pressure.

2 is a configuration diagram of another embodiment of the insulation diagnostic device of the present invention. As shown in the figure, when diagnosing the insulation state of a long long-length fish cable (C), the insulation cable (A1, A2) and the compressor (B1, B2) are connected to both ends of the fish cable (C). It is preferable to press-fit and measure a compressor body at both ends of (C) simultaneously.

3 is a configuration diagram of yet another embodiment of the insulation diagnostic device of the present invention. As shown in the drawing, a plurality of press-fitting units 4 are formed and the flowmeters 3 pass through the compressor body pipe 5 so as to connect to each other, as well as the insulation state of one fish cable C1 as well as two fish cables C1. , C2) or three insulation cables (C1, C2, C3) can be diagnosed at the same time. In addition, by adding a separate insulation diagnostic device (A2) and compressor (B2) it is possible to diagnose the insulation state of the long-length long-length fish cable (C).

When diagnosing the insulation state of one fish cable (C1), one end of the fish cable (C1) is connected to one of the inlets 441, and the drain valve 431 and the indentation valves 412 and 413 which are not to be used are closed. Diagnose the insulation state of the fish cable (C1) by the method described above.

In case of diagnosing the insulation state of three fish cables (C1, C2, C3) at the same time, connect the fish cables (C1, C2, C3) to each press-in hole (441, 442, 443), close all drain valves (431, 432, 433), and then In this way, the insulation state of each fish cable (C1, C2, C3) is diagnosed.

When simultaneously diagnosing the insulation state of the two fish cables C1 and C2, one end of the two fish cables C1 and C2 is connected to the press-fit holes 441 and 442, respectively, and each of the fish cables C1 and C2 Connect the other end with connecting cable (E). After closing the drain valves 431 and 432 and the press-fit valve 413 not to be used, the inlet 11 of the inlet 1 is connected to the compressor B1.

Subsequently, the second pressurizing valve 412 and the first and second drain valves 431 and 432 are closed, and the main valve 13 and the first pressurizing valve 411 are opened to press the compressor body into the first fish cable C1. do. The pressurized compressor body displays the pressure of the compressor body through the first pressurizing valve 411 on the first pressure gauge 421 and passes through the first fish cable C1 and the connecting cable E to the second fish cable C2. The pressure of the compressor body returned to the second pressure gauge 422 is displayed.

If the flow of the compressor body observed by the flowmeter 3 is stopped or if the pressure indicated by the first pressure gauge 421 and the pressure indicated by the second pressure gauge 422 are the same, the two fish cables C1 and C2 are not damaged. We judge.

Next, the first inlet valve 411 is also closed, and the change in the pressure of the compressor body is observed with the passage of time. Even if time elapses, if there is no change in the pressure displayed on the first pressure gauge 421 and the pressure displayed on the second pressure gauge 422, it may be confirmed that the two fish cables C1 and C2 are not damaged. However, if the pressures displayed on the first pressure gauge 421 and the second pressure gauge 422 continue to decrease as time passes, it is determined that one or more of the fish cables C1 and C2 are damaged.

After the insulation state diagnosis of the fish cables C1 and C2 is finished, open the first and second drain valves 431 and 432 and drop the pressure applied to the insulation diagnosis device A1 and the fish cables C1 and C2. Pull out and disconnect the connecting cable (E) installed on the fish cables (C1, C2).

Next, a method of diagnosing the insulation state of the long long span fish cable C3 will be described. First, a separate insulation diagnosis device (A2) and the compressor (B2) is further connected to the opposite end of the fish cable (C3). Subsequently, while only the third pressurizing valve 413 is opened and the first and second pressurizing valves 411 and 412 and the third drain valve 433 are closed, the compressor body is simultaneously pressed at both ends of the fish cable C3 to Press in until the pressure of the compressor is equal. If the pressure of the compressor body at both ends does not become the same even after elapse of time or if the pressure continues to decrease with the passage of time after closing both main valves, it is determined that the fish cable C3 is damaged.

In the above-described cable insulation diagnostic apparatus of the present invention, a battery and a control panel may be installed, and a power switch, a press-fit valve switch, a drain valve switch, a pressure gauge display, and a flow meter display may be installed on the control panel.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but is capable of various changes and modifications within the technical scope of the invention. Therefore, the scope of the present invention is not limited by the above description.

Further, the detailed description of the present invention and the reference numerals in the claims are provided for ease of understanding of the present invention, and the present invention is not limited to the drawings.

The present invention can be widely used for diagnosing the insulation state of distribution cables, in particular low voltage distribution cables.

A, A1, A2: Insulation diagnosis device B, B1, B2: Compressor
C, C1, C2, C3: Fish cable D: Closed port
E: Connection cable 1: Inlet
11: inlet 12: relief valve
13: main valve 14: regulator
2: main pressure gauge 3: flow meter
4: press-fitting section 41,411,412,413: press-fit valve
42,421,422,423: Pressure gauge 43,431,432,433: Drain valve
44,441,442,443: Inlet 5: Compressor pipe line

Claims (7)

delete delete delete An inlet 1 for introducing the compressor body from the compressor B,
Main pressure gauge (2),
Flow meter (3),
A press-fitting part 4 for press-fitting the compressor body to the fish cable C to diagnose the insulation state,
Compressor pipe line (5) which is a passage of the compressor body,
The inlet 1 is composed of an inlet 11, the main valve 13 and the regulator 14,
Insulation diagnostic device of the cable, characterized in that the press-in part 4 is composed of a press-fit valve 41, the pressure gauge 42) and the press-in port 44
The method of claim 4, wherein
Insulation diagnostic device of the cable, characterized in that the relief valve 12 is added to the inlet (1)
The method of claim 4, wherein
Insulation diagnostic device of the cable, characterized in that the drain valve 43 is added to the press-fit portion (4)
7. The method according to any one of claims 4 to 6,
Insulation diagnostic device of the cable, characterized in that the plurality of the press-in portion 4 is configured and connected to each other by branching the compressor pipe (5)

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