KR20180029696A - Apparatus and system for detecting disconnection of extra-high voltage power cable - Google Patents

Abstract

The present invention relates to an apparatus for detecting a disconnection of an extra-high voltage overhead distribution line which comprises a contact switch provided between a suspension insulator apparatus connected to an extra-high voltage line wired by constant tension and an arm installed in an electric pole, and generating a signal by connecting two contacts when the tension is released due to a disconnection of the extra-high voltage line. According to the present invention, a disconnection on a low current failure which is not recognized as overcurrent can be easily and accurately detected.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and a detection system for a single-

The present invention relates to an apparatus and a system for detecting a wire breakage occurring in an extra-high pressure machining distribution line.

Currently, in special high voltage distribution distribution lines, ground fault is occurred due to various reasons such as wire deterioration or fault, and when the ground fault detection device can not detect ground fault current and can not block the accident line in time, , Damage to peripherals, and the like.

Generally, when a ground fault occurs due to a disconnection, a faulty current is detected by a circuit breaker or a ground fault overcurrent relay (OCGR) of a substation, and the faulty line is shut off by operating a line breaker.

This line switchgear or earth fault overcurrent relay, which is applied to ground fault detection of power distribution lines, is a method to judge the fault only by the magnitude of the measured current, and operates when the phase current and neutral current exceed a predetermined value.

However, there is a problem that it can not operate at a low current failure that is not recognized as an overcurrent.

Such a low current fault, which is not recognized as an overcurrent, is called a high impedance fault (HIF) and is called a high resistance ground fault when a ground fault occurs.

Fig. 1 schematically shows a ground fault caused by disconnection of a general high-voltage processing distribution line. As shown in Fig. 1, the special high-pressure machined distribution line has a constant tension in accordance with the standard of a suspension insulator at both ends of the wire. When the wire is broken and grounded as shown in the drawing, If a high-resistance ground fault occurs due to cladding or other reasons, the protective device will not operate due to low fault current.

In order to detect a high resistance ground fault in an overhead power distribution line, several methods have been proposed so far.

1) Detection method using short time Fourier transform (STFT)

2) Detection method using wavelet transform

3) Method to analyze by detecting image current and reverse current

4) Method to analyze and detect image minute and reverse phase voltage, magnitude and variation rate of current, voltage and current distortion

5) A method of judging whether the voltage applied to the distribution line is lower than the threshold voltage and whether or not it is disconnected

6) Method to detect disconnection position by using deviation information of phase current measured at distribution automation switch

7) The method of collecting the image information of the distribution line using the data collection device of the distribution automation system and judging whether it is disconnected

8) Attachment of impact sensor to each electric pole to detect a single wire accident by detecting the impact generated in the electric wire when disconnected

However, the above-described methods for detecting breakage of broken lines to the fabrication distribution lines are not easy to apply to the field because of the use of complicated algorithms or distribution automation systems, and are not reliable.

The matters described in the background art are intended to aid understanding of the background of the invention and may include matters which are not known to the person of ordinary skill in the art.

Korean Patent Registration No. 10-1100969

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for easily and accurately detecting a breakdown fault for a low current fault not recognized as an overcurrent, An object of the present invention is to provide a fault detection device and a detection system.

A breakage failure detecting apparatus for an extra high voltage machined distribution line according to one aspect of the present invention is provided between a suspension insulator apparatus connected to a special high voltage electric wire which is guided by a constant tension and an electric wire installed on the electric pole, And a contact switch for generating a signal when the two contacts are connected when the tension is released.

The push rod may further include a push rod coupled to the suspending insulator and moving to the contact switch side when the tension is released to operate the contact switch.

The other end of the push rod may further include a body having an extended load head formed therein and having an internal space in which the load rod of the push rod and the contact switch are embedded.

The push rod passes through one end of the body on the side of the suspending insulator, and the contact switch is embedded in the inner space of the first end of the body.

In addition, a cord fitting part is formed at one end of the body, and the cord fitting part is connected to the cord fitting.

Furthermore, one end may be coupled to the inside of the one side of the suspension insulator side of the body, and the other end may be coupled to the rod head of the push rod to further elastically support the push rod.

According to an aspect of the present invention, there is provided a system for detecting a breakage in a line breakage by an extra-high pressure machining distribution line, the breakage line being provided between a suspension insulator device connected to a special high- And a contact switch for generating a signal by the two contacts when the tension is released, and a communication line for receiving the contact signal generated in the contact switch of the single wire failure detecting device and transmitting the received signal via the communication network Device.

The communication device generates the contact signal as the disconnection information of the extra-high voltage electric wire, and transmits the disconnection information generated to the line switch device or the distribution automation system.

The communication device transmits information about the pole including the extra-high voltage wire and the extra-high voltage wire together with the disconnection information.

Here, the single-wire failure detecting device may further include a push rod, one end of which is engaged with the suspending insulator and moves to the side of the contact switch when the tension is released, thereby operating the contact switch.

The other end of the push rod may further include a body having an extended load head formed therein and having an internal space in which the load rod of the push rod and the contact switch are embedded.

The push rod passes through one end of the body on the side of the suspending insulator, and the contact switch is embedded in the inner space of the first end of the body.

In addition, a cord fitting part is formed at one end of the body, and the cord fitting part is engaged with the cord fitting.

Furthermore, one end may be coupled to the inside of the one side of the suspension insulator side of the body, and the other end may be coupled to the rod head of the push rod to further elastically support the push rod.

According to the apparatus and system for detecting breakage in a line breakage by an extra high pressure machining distribution line of the present invention, by installing the breakage failure detecting device directly with the suspending insulator, a mechanical contact switch can quickly and reliably break It is possible to detect fault information, thereby quickly disconnecting the faulty line through the line opening / closing apparatus.

In addition, information such as line name, fault occurrence date and time, breakage number, electric pole position, etc., can be transmitted to the distribution automation system through the communication device, so that the distribution automation system administrator can timely identify the fault situation and take quick action have.

Also, the single-wire failure detecting device can be utilized as a sensor of IoT.

Further, the single-wire failure detecting apparatus proposed in the present invention is simple in construction and easy to implement, and can be applied to an existing distribution line, which is practical.

Fig. 1 schematically shows a ground fault caused by disconnection of a general high-voltage processing distribution line.
Fig. 2 shows an apparatus and a system for detecting breakage of a line breakage in an extra-high pressure machining distribution line according to the present invention.
Fig. 3 shows the operation of the breakage failure detecting apparatus for an extra-high pressure machining distribution line according to the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In describing the preferred embodiments of the present invention, a description of known or repeated descriptions that may unnecessarily obscure the gist of the present invention will be omitted or omitted.

FIG. 2 shows an apparatus and system for detecting an open-circuit failure in an extra-high voltage processing power distribution line according to the present invention, and FIG. 3 shows the operation of the open-circuit failure detection apparatus in an extra-high pressure processing power distribution line according to the present invention.

Hereinafter, an apparatus and method for detecting breakage of a line breakage by an extra-high pressure machining distribution line according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3. FIG.

The breakage failure detecting apparatus 100 according to the present invention is provided between a suspension insulator apparatus 30 connected to a special high voltage cable 40 and a wick installed on the electric pole, Resistance ground fault occurs, the two contact points of the contact switch 140 are connected to generate a contact signal, and the single-wire fault detection system with the extra-high voltage processing distribution line according to the present invention is connected to the single- ) Communication signal generated by generating a contact signal by the contact switch 140 of the special high voltage cable 40 and generating the disconnection information of the special high voltage cable 40 through a communication network to the line switching device or the distribution automation system (200).

In addition, the communication device 200 transmits information such as a line fault occurrence line name, a failure occurrence date and time, a pole number, and a pole position as well as disconnection information, so that the line switching device can block the line in time, To identify the fault status in a timely manner and to take prompt action.

The breakage failure detecting apparatus 100 according to the present invention includes a body 110, a push rod 120, an elastic spring 130, a contact switch 140, .

The breakage failure detection device 100 with the extra high voltage processing distribution line is provided between the suspension insulator 30 and the wafers to detect disconnection of the extra high voltage electric wire 40.

The suspender 30 includes an anthropic clamp 32 to support the extra-high voltage wire 40 and a crevice 32 for engagement with the sheath.

One end of the push rod 120 is coupled to the crevice 32 of the suspending insulator 30 so that the push rod 120 is urged by the tension of the extra high voltage wire 40 toward the extra high voltage wire 40 .

The push rod 120 is provided so as to penetrate one end of the body 110 on the side of the suspending insulator 30. The push rod 120 is provided at its other end with a load head 121 And a contact switch 140 is provided at one end of the push rod 120 in the inner space of the body 110 of the push rod 120.

In addition, the body 110 is provided at one end thereof with a quick-fit coupling portion 150 and is coupled to the quick fit coupling portion 150 by the fastening coupling portion 150.

The push rod 120 is in a state of equilibrium under the tension by the extra high voltage wire 40 which is guided by the constant tension. When the extra high voltage wire 40 is disconnected and the tension is released, The load head 121 actuates the contact switch 140 by sliding the contact switch 140 toward the contact switch 140 so that the contact switch 140 generates a contact signal by attaching two contact points.

For this, the body 110 may preferably be cylindrical.

And, the switch of the present invention is provided with the mechanical contact switch 140 so that the push rod 120 is directly driven by the released tension to directly operate the switch.

An elastic spring 130 is added for its more stable operation.

One end of the elastic spring 130 is coupled to the suspending insulator 30 on the inner side of the body 110 and the other end is coupled to the load head 21 of the push rod 120, .

The breakage failure detecting apparatus 100 for a breakdown voltage breakdown detecting apparatus 100 according to the present invention is characterized in that when the push rod 120 is compressed by the resilient spring 130 and the extra high voltage wire 40 is disconnected and the tension is released, 3, the push rod 120 is biased to the mechanical contact switch 140 side by the restoring force of the spring 130, and the two contacts of the mechanical contact switch 140 are attached to enable the switch to be operated.

As described above, according to the present invention, it is possible to easily generate disconnection information by the characteristics of a relatively simple mechanical device, and to transmit the generated information to the line opening / Or to the distribution automation system to enable rapid response to high resistance ground fault.

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 embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: Disconnection fault detection device by special high-pressure processing distribution line
110: Body
120: push rod 121: load head
130: Elastic spring
140: contact switch
150:
200: communication device

Claims (14)

And a contact switch which is provided between a suspension insulator device connected to a special high-voltage electric line which is guided by a constant tension and an electric wire installed on the electric pole, and which generates a signal by being connected to two contact points when the extra- ,
Disconnection fault detection device by special high - pressure machining distribution line. The method according to claim 1,
And a push rod coupled to the suspending insulator at one end and to the contact switch when the tension is released,
Disconnection fault detection device by special high - pressure machining distribution line. The method of claim 2,
The other end of the push rod is formed with an extended load head,
Further comprising a body having a load head of the push rod and an internal space in which the contact switch is housed,
Disconnection fault detection device by special high - pressure machining distribution line. The method of claim 3,
Wherein the push rod passes through one end of the body on the side of the suspension insulator,
Wherein the contact switch is housed in an inner space at one end of the body,
Disconnection fault detection device by special high - pressure machining distribution line. The method of claim 4,
And a fastener coupling part is formed at one end of the body of the body so as to be engaged with the fastener by the fastener coupling part.
Disconnection fault detection device by special high - pressure machining distribution line. The method of claim 4,
Wherein one end of the push rod is coupled to an inner side of one end of the body on the side of the suspensions and the other end is coupled to a rod head of the push rod to elastically support the push rod.
Disconnection fault detection device by special high - pressure machining distribution line. And a contact switch which is provided between a suspension insulator device connected to a special high-voltage electric line which is guided by a constant tension and an electric wire installed on the electric pole, and which generates a signal by being connected to two contact points when the extra- A single wire fault detection device; And
And a communication device for receiving the contact signal generated in the contact switch of the single wire failure detecting device and transmitting the received signal via the communication network,
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 7,
Wherein the communication device generates the contact signal as the disconnection information of the extra-high voltage electric wire and transmits the disconnection information generated to the line switch device or the distribution automation system.
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 8,
Characterized in that the communication device transmits together with the disconnection information information about the electric pole where the extra-high voltage wire and the extra-high voltage wire are installed together.
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 8,
The single-wire failure detecting device includes:
Further comprising a push rod coupled to the suspending insulator at one end and to move toward the contact switch when the tension is released, thereby actuating the contact switch.
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 10,
The other end of the push rod is formed with an extended load head,
Further comprising a body having a load head of the push rod and an internal space in which the contact switch is housed,
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 11,
Wherein the push rod passes through one end of the body on the side of the suspension insulator,
Wherein the contact switch is housed in an inner space at one end of the body,
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 12,
And a fastener coupling part is formed at one end of the body of the body so as to be engaged with the fastener by the fastener coupling part.
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line. The method of claim 12,
Wherein one end of the push rod is coupled to an inner side of one end of the body on the side of the suspensions and the other end is coupled to a rod head of the push rod to elastically support the push rod.
Disconnection Fault Detection System with Extra High Voltage Processed Distribution Line.

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