JP2003057287A - Burning apparatus for fault point of high-voltage cable line - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fault-point burning apparatus for a high-voltage cable line which is small-sized and easy to carry. SOLUTION: The output voltage of an isolation transformer 91, which is necessary can be halved in comparison with the conventional case, and the size and the weight of the apparatus can be reduced, since two capacitors 94a, 94b are connected in parallel, when the capacitors 94a, 94b are charged, and the capacitors 94a, 94b are connected in series, when a cable line 1 is charged.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an accident point firing device for a high voltage cable line for firing an accident point in a high voltage cable line, and more particularly to a compact and easy to carry high voltage cable line accident point firing device.

[0002]

2. Description of the Related Art As a conventional cable line accident point firing device, for example, a device for firing a fault point by applying a high voltage from a DC voltage source to the end of a fault phase cable to charge the cable line is known. ing. This reduces the resistance at the accident point and lowers the impedance, and even if the orientation pulse is injected into the end of the cable line, the reflected wave can be detected with high accuracy, and the orientation accuracy can be improved. it can.

[0003]

However, according to the conventional accident point firing apparatus, since most of the firing apparatus is occupied by the DC voltage power source for charging, the weight is increased by the insulating transformer and the rectifier constituting the firing apparatus. -Since the shape is determined, depending on the capacity of the insulation transformer, the weight is heavy and the shape of the apparatus becomes large, making it difficult to carry the firing apparatus to the end of the accident phase cable.

Therefore, it is an object of the present invention to provide a compact high-voltage cable line accident point firing apparatus which is easy to carry.

[0005]

In order to achieve the above-mentioned object, the present invention applies a DC voltage and a high-voltage impulse voltage by superimposing them on the end portion of a high-voltage cable line, and continuously burns at a fault point. Thus, in the firing device for reducing the resistance at the accident point, the first and second capacitors charged by a DC power source and the DC power source by connecting the first and second capacitors in parallel to the DC power source After charging the first and second capacitors by means of connecting the first and second capacitors in series,
And a switch for applying the DC voltage based on the charging of the second capacitor to the end of the high-voltage cable line. With this configuration, when charging the first and second capacitors, the first and second capacitors are connected in parallel, and when charging the cable line,
Since the first and second capacitors are directly connected, the output voltage of the DC power supply can be half that of the conventional one,
Compact and lightweight.

In order to achieve the above object, the present invention applies a direct current voltage from a follow-up direct current power source to an end of a high voltage cable line, and applies a high voltage impulse voltage from an impulse power source so as to superimpose on the direct current voltage. In a firing device for reducing the resistance of the accident point by continuing the firing at the accident point, the follow-up DC power supply includes an insulating transformer and a voltage doubler rectifier circuit including a capacitor and a diode. An accident point firing device for a high voltage cable line is provided. By using a voltage doubler rectifier circuit for the DC power supply for follow-up current, an input voltage that is half the output voltage of the conventional output voltage can be used, and the size and weight can be reduced.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an accident point firing apparatus for a high voltage cable line according to a first embodiment of the present invention. This accident point firing device includes a charging capacitor 5 that stores electric charges from a stabilized high-voltage DC power supply 3A via a charging resistor 4, and a cable terminal portion 2 of a cable line 1 in an accident phase based on the charges stored in the charging capacitor 5. By applying a DC voltage to the switch 6 that applies a high-voltage impulse voltage through the waveform adjusting resistor 7 and the cable terminal 2 through the diode 8, the accident point is discharged and fired to reduce the accident point. And a continuous-current DC power supply 9A for resistance.

FIG. 2 shows a circuit of the continuous-current DC power supply 9A. This follow-up DC power supply 9A includes an insulation transformer 91,
The diode 92a as a rectifier is provided with capacitors 94a and 94b for charging the fault line through the charging resistor 93.

A continuous-current DC power source 9A constructed in this manner
, The contacts 95a (X ₀ ) and 95a '(X ₀ ) are closed, and the contacts 95b (X ₁ ) are closed.
a and 94b are in parallel, and the -E voltage is the capacitor 94.
a, 94b and the line are applied to start charging. Next, when the contacts 95a (X ₀ ) and 95a '(X ₀ ) are opened and the contact 95c (X ₂ ) is closed, the capacitors 94a and 94b are closed.
Becomes serial and the line voltage becomes -2E.

FIG. 3 shows the contact X of the DC power supply 9A for the follow current.₀,
X₁, X₂Shows the operation of. Contact point X₀, X ₁When is turned on,
The capacitors 94a and 94b are in parallel, and the -E voltage is output.
Charges the track. Next, contact point contact X₀, X₁Is OFF
Contact point X₂When is turned on, capacitors 94a, 94b
Becomes serial and the line voltage becomes -2E.

FIG. 4 shows waveform examples of the output voltage (line voltage) and the current waveform for explaining the operation of this device.
The follow-current DC power supply 9A starts charging of the follow-current low voltage via the diode 8. That is, the contact point 95a
When (X ₀ ), 95a ′ (X ₀ ), and 95b (X ₁ ) are closed, the follow-current DC voltage −E is applied to the capacitors 94a and 94b, and is applied to the cable line 1 via the diode 8 and the capacitor 94a. , 94b and cable line 1
Will start charging. Next, the contacts 95a (X ₀ ) and 95
When a '(X ₀ ) is opened and the contact 95c (X ₂ ) is closed, the line voltage becomes -2E. After that, the switch 6 superimposes a high-voltage impulse voltage on the cable terminal portion 2 of the cable line 1 in the accident phase via the waveform adjusting resistor 7 based on the electric charge stored in the charging capacitor 5. At the accident point, this causes discharge, and the arc current continues to flow by the follow-up DC power supply 9A, and the impedance at the accident point is reduced to arc resistance (several Ω). After that, an orientation pulse is injected from the cable terminal portion 2 and the reflected wave is detected to locate the accident point.

According to the first embodiment, when charging the two capacitors 94a and 94b, the capacitors 94a and 94b are connected in parallel, and when charging the cable line 1, the capacitors 94a and 94b are directly connected. Output voltage of the isolation transformer 91 is
Since only 2 is required, the size and weight can be reduced. Therefore, since the present apparatus is small and easy to carry, it is possible to perform measurement near the end of the cable and provide it at low cost.

FIG. 5 shows an accident point firing apparatus for a high voltage cable line according to a second embodiment of the present invention. This accident point firing device includes a charging capacitor 5 that stores electric charges from a high-voltage DC stabilized power supply 3B via a charging resistor 4, and a charging capacitor 5
A switch 6 for applying a high-voltage impulse voltage to the cable terminal portion 2 of the cable line 1 in the accident phase via the waveform adjusting resistor 7 based on the electric charge stored in the cable terminal portion 2;
A direct current power supply 9B for applying a direct current voltage via the diode 8 to discharge and fire the accident point to reduce the resistance at the accident point.

FIG. 6 shows a circuit of the high voltage DC stabilized power supply 3B. The high-voltage DC stabilized power supply 3B includes a neon transformer 31 to which an AC voltage is input, and a voltage doubler half-wave rectifier circuit including capacitors 32 and 35 and diodes 33 and 34.

FIG. 7 shows a circuit of the follow-up DC power supply 9B. This follow-up DC power supply 9B includes an insulating transformer 91,
Capacitors 94c, 94d, 94e and diode 9
And a double voltage rectifier circuit composed of 2b and 92c,
The output voltage of the insulation transformer 91 is subjected to double voltage half-wave rectification, the electric charge is applied to the follower current condenser 94e through the charging resistor 93, and the follower current DC voltage is applied to the cable terminal 2.

FIG. 8 shows waveform examples of voltage (line voltage) and current waveforms for explaining the operation of this device. The follow-current DC power supply 9B applies a follow-current DC voltage to the cable terminal 2 through the diode 8 in advance. After that, the switch 6 superimposes a high-voltage impulse voltage on the cable terminal portion 2 of the cable line 1 in the accident phase via the waveform adjusting resistor 7 based on the electric charge stored in the charging capacitor 5. At the accident point, this causes discharge, and the arc current continues to flow by the follow-up DC power supply 9B, and the impedance at the accident point is reduced to arc resistance (several Ω).

According to the second embodiment, since the voltage doubler rectifier circuits are used for the continuous-current DC power source 9B and the high-voltage DC stabilized power source 3B, respectively, the output voltage can be reduced to 1 / th of the conventional output voltage.
The input voltage of 2 is sufficient, and the size and weight can be reduced.

[0018]

As described above, according to the accident point firing apparatus for a high voltage cable line of the present invention, the DC power source can be made smaller and lighter, so that it is small and easy to carry.

[Brief description of drawings]

FIG. 1 is a circuit diagram of an accident point firing device for a high voltage cable line according to a first embodiment of the present invention.

FIG. 2 is a circuit diagram of a follow-current DC power supply according to the first embodiment.

FIG. 3 is a diagram showing operations of contacts X ₀ , X ₁ , and X ₂ of the follow-current DC power source according to the first embodiment.

FIG. 4 is a diagram showing waveform examples of voltage (line voltage) and current waveforms for explaining the operation of the accident point firing device according to the first embodiment.

FIG. 5 is a circuit diagram of an accident point firing device for a high voltage cable line according to a second embodiment of the present invention.

FIG. 6 is a circuit diagram of a stabilized high voltage DC power supply according to a second embodiment.

FIG. 7 is a circuit diagram of a follow-current DC power supply according to a second embodiment.

FIG. 8 is a diagram showing waveform examples of voltage (line voltage) and current waveforms for explaining the operation of the accident point firing device according to the second embodiment.

[Explanation of symbols]

1 cable track 2 cable end 3A, 3B High voltage DC stabilized power supply 4 Charging resistance 5 charging controller 6 switch 7 Waveform adjustment resistor 8 diodes 9A, 9B Follow-up DC power supply 31 neon transformer 32,35 capacitors 33,34 diode 91 Isolation transformer 92a, 92b, 92c diodes 93 Charge resistance 94a, 94b, 94c, 94d, 94e capacitors 95a, 95a ', 95b, 95c contacts

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Tsutomu Tashiro             Hitachi, 1-1 Hidaka-cho, Hitachi City, Ibaraki Prefecture             Electric Cable Co., Ltd. (72) Inventor Kazuo Otani             Hitachi, 1-1 Hidaka-cho, Hitachi City, Ibaraki Prefecture             Electric Cable Co., Ltd. (72) Inventor Shiro Tanno             Hitachi, 1-1 Hidaka-cho, Hitachi City, Ibaraki Prefecture             Electric Cable Co., Ltd. F term (reference) 2G033 AA01 AB01 AD07 AD19 AD20                       AE02 AE09

Claims (4)

[Claims] Claim: What is claimed is: 1. A calcination device for reducing the resistance of the accident point by applying a superimposed DC voltage and a high-voltage impulse voltage to the end of the high-voltage cable line and continuing the calcination at the accident point to reduce the resistance. First and second capacitors charged by a power source; and the first and second capacitors connected in parallel to the DC power source to charge the first and second capacitors by the DC power source, and And a switch for connecting the first and second capacitors in series to apply the DC voltage based on the charging of the first and second capacitors to the end of the high voltage cable line. Accident point firing device for cable tracks. 2. A high-voltage cable line is applied with a direct-current voltage from a follow-up direct-current power supply, and a high-voltage impulse voltage is applied from an impulse power supply so as to be superposed on the direct-current voltage, and a fault point is continued to be fired. In the firing device for reducing the resistance of the accident point, the follow-up DC power supply includes an insulation transformer and a voltage doubler rectifier circuit including a capacitor and a diode. Accident point firing equipment. 3. The impulse power supply includes a high voltage transformer,
An accident point firing device for a high-voltage cable line, comprising: a voltage doubler rectifying circuit composed of a capacitor and a diode. 4. The accident point firing device for a high voltage cable line according to claim 3, wherein the high voltage transformer is a neon transformer.