KR20140063313A - Detecting device of faulted section for distribution line - Google Patents

Abstract

The present invention relates to over-current of a distribution line and a disconnection position detecting device and, more specifically, to over-current of a distribution line and a disconnection position detecting device which can detect the occurrence of an accident of the distribution line by using a wavelength variable value of an optical fiber grating according to the induced electromotive force when the over-current and disconnection of the distribution line. Therefore, the present invention is configured to include a sensing unit which is fixed to a clamping means at a predetermined interval for each distribution line and is to sense the over-current or the disconnection of the distribution line by using the induced electromotive force; and a detecting unit which is to compare the signal sensed by the sensing unit with a set signal and to transmit the information to a management server if the detecting device determines that the over-current or the disconnection of the distribution line has occurred.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an overcurrent detection circuit,

More particularly, the present invention relates to an overcurrent detection circuit for detecting an overcurrent of a distribution line, which can detect occurrence of an accident of a distribution line through a wavelength change value of an optical fiber grating due to an induced electromotive force when a disconnection and an overcurrent of a distribution line occur, To a disconnection position detecting device.

Generally, a method to cut off the electric power by detecting a disconnection accident to a power distribution line includes a line switchgear (eg, Sectionalizes, Recloser, etc.) or an OCR (overcurrent relay) Ground fault relay, etc.) and detects the fault current size.

However, the urban distribution network is equipped with insulated wire. In case of a wire accident, the wire is in contact with the ground. However, when the conductor does not reach the ground due to insulation coating or other reasons and no fault current flows, ground is not grounded so that the fault current detection device does not detect ground fault and the circuit breaker does not shut off the accident power. As a result, there is a tendency that the electric shock accident of a passing passenger and the loss of peripheral devices are increased to be.

In addition, in case of a single wire accident, field workers need to check the location of the actual fault distribution line directly with the naked eye and manually operate it, so it takes a long time to cut off the electric power, and it becomes defenseless against electric shock accidents and physical accidents for a long time.

In addition, it is possible to increase sensitivity of surveillance devices (ASS, OCR, OCGR) and to react sensitively to a single-wire accident, but the malfunction of the relay due to variations in distribution load increases, Is difficult.

In order to solve such a problem, Patent Registration No. 1100969 (December 23, 2011, an apparatus and method for detecting disconnection in a distribution line) is disclosed.

The patent discloses a technique in which a sensor senses an impact transmitted to an electric pole when a wirewound accident occurs, and detects whether the corresponding position is disconnected by comparing the signal with a signal sensed by an adjacent sensor. However, it is difficult to precisely detect a shock based on the detection of the disconnection based on the data, and even when an impact is applied to the electric pole due to an external pressure, etc., it is difficult to accurately detect disconnection of the power distribution line There is a problem that can not be done.

SUMMARY OF THE INVENTION The present invention has been made to overcome the above problems, and it is an object of the present invention to provide an optical fiber grating, It is possible to precisely detect the occurrence of an accident of a power distribution line and to apply a wavelength value of a fiber grating installed in each section of the power distribution line differently so as to detect the position of the power distribution line quickly and accurately, And a detection device.

According to an aspect of the present invention, there is provided a power supply apparatus including: a sensing unit fixedly installed at a predetermined interval of a power distribution line to sense a disconnection and an overcurrent of a power distribution line through an induced electromotive force; And a detector for comparing the signal sensed by the sensing unit with a set signal and transmitting the information to the management server when it is determined that disconnection and overcurrent of the distribution line have occurred.

Wherein the sensing unit comprises: an electromagnet magnetized by an induction electromotive force of a current flowing in a power distribution line, the electromagnet being wound around the induction coil and the second induction coil wound around the clamping unit; An elastic member for pulling the optical fiber grating portion in a direction opposite to the electromagnet at a lower portion of the optical fiber grating portion; and an elastic member provided on one side of the optical fiber grating portion, And a case in which an electromagnet, an optical fiber grating portion and an elastic member are embedded.

The optical fiber grating portion is composed of a metal piece having one side of the electromagnet closely attached to one end of the electromagnet when the electromagnet is magnetized and an optical fiber grating formed integrally on the other side of the metal piece and connected to the optical fibers on both sides.

The case is preferably provided with a support and one side of the metal piece is connected to one end of the support by a hinge pin so that the metal piece flows upward and downward with respect to the hinge pin.

At this time, the clamping means is formed as a clamping type in which one side is hinged so as to pick up and bind the power distribution line, and a latching jaw and a fastening groove are respectively formed in the other end of the clamping means.

It is preferable that the clamping means is provided outside the clamping means so that the clamping means for clamping the clamping means from the outside is secured so that the clamping means for clamping the power distribution line is not opened.

According to the overcurrent and disconnection position detecting device of the electric power distribution line having the above-described configuration, it is possible to detect the accident position quickly and accurately at a remote place in case of occurrence of an electric power distribution line, and to cope with an electric shock accident and a material accident in advance There is an effect.

FIG. 1 is an installation state of an overcurrent and disconnection position detecting device for a power distribution line according to the present invention,
FIG. 2 is a view showing a sensing unit in an overcurrent and disconnection position detecting apparatus for a power distribution line according to the present invention. FIG.
FIG. 3A and FIG. 3B are diagrams showing a state of movement of the optical fiber grating portion when the electromagnet is magnetized and non-magnetized in the overcurrent and disconnection position detecting device of the power distribution line according to the present invention,
FIG. 4 is a view showing a clamping means and a clamping clamp connected to a power distribution line in the overcurrent and disconnection position detecting apparatus of a power distribution line according to the present invention.
5 is a view showing a clamping means covered with a cover in an overcurrent and disconnection position detecting device of a power distribution line according to the present invention.
6 is a block diagram showing a system configuration of an overcurrent and disconnection position detecting apparatus for a power distribution line according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for detecting overcurrent and disconnection of a power distribution line according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a state where an overcurrent and a disconnection position detecting device for a power distribution line according to the present invention are installed, FIG. 2 is a view showing a sensing part in an overcurrent and disconnection position detecting device for a power distribution line according to the present invention, FIG. 4 is a view showing the state of movement of the optical fiber grating part when the electromagnet is magnetized and non-magnetized in the overcurrent and disconnection position detecting device of the power distribution line according to the present invention. FIG. 5 is a view showing a clamping means covered with a cover in the overcurrent and disconnection position detecting device of a power distribution line according to the present invention. FIG. 6 is a block diagram showing a system configuration of an overcurrent and disconnection position detecting apparatus for a power distribution line according to the present invention.

As shown in the figure, an overcurrent and disconnection position detecting apparatus for a power line according to the present invention is an apparatus for detecting the occurrence of an accident (disconnection and an overcurrent due to a short circuit) of a power line installed in a power line 100, Is installed in the power distribution line (100) between the pole and the pole to accurately detect the location of the occurrence of the disconnection and overcurrent in each section.

The position of the optical fiber grating 240 varies due to the electromagnet 230 magnetized by an induced electromotive force. At this time, the position of the optical fiber grating 244 connected to the optical fiber varies To detect the occurrence of an accident of a power distribution line.

In addition, when the electromagnet 230 is non-magnetized even when a disconnection occurs, the occurrence of an accident can be detected through the positional change of the optical fiber grating 240.

To this end, an overcurrent and disconnection position detecting apparatus for a power distribution line according to the present invention includes a sensing unit 200 installed on a power distribution line 100, a detection unit 300 for receiving a signal sensed by the sensing unit 200, And the detection unit 300 is configured to transmit detection information to the management server 400 connected to the communication network.

The sensing unit 200 is fixedly installed at a predetermined interval (for example, between the pole and the pole) of the power distribution line by the clamping means 210. When the over current is generated due to the disconnection and the short circuit, The measurement of the wavelength change value of the optical fiber grating using the electromotive force detects the occurrence of the accident of the power distribution line.

The sensing unit 200 includes an induction coil 220 wound around the clamp means 210, an electromagnet 230 wound around the induction coil 220 and a second induction coil 232 constituted by a closed circuit, An optical fiber grating 240 connected to both sides of the optical fiber 245 and a case 260 enclosing the elastic member 250 and the above-described components (electromagnet, fiber grating, and elastic member).

The clamping unit 210 clamps the power distribution line 100 and is fixed to the power distribution line. The clamping unit 210 is made of a metal material. The clamping unit 210 guides the current flowing through the power distribution line 100 to one side, The induction coil 220 is wound.

The clamping means 210 can be any structure that can bind the power distribution line 100 and can be fixed to the power distribution line. For example, as shown in the figure, one end of the clamping means 210 may be formed as a hinge- .

At this time, the other end of the clamp means, that is, the other side which is opened or brought into contact with each other, is formed with a locking protrusion 212 and a locking groove 214 so as not to be opened in a state of being engaged with a power distribution line.

The clamping means is fixed while the clamping jaws 212 are fastened to the clamping grooves 214. As a result, the clamping means are not separated from each other unless they are spread out from the outside with considerable force, .

Since the clamp means 210 is made of a metal material, the clamp means 210 may be dangerous when installed on a power distribution line. In order to prevent a safety accident that might be caused by such a danger, the outer circumferential surface of the clamp means 210 is covered with a non- Are formed integrally with each other.

In addition, as shown in FIG. 1, a fixing clamp 270 is provided on the outside of the clamping means 210 for clamping the clamping means 210 from the outside.

It is possible to prevent the fixed clamping unit 210 from being separated from the power distribution line by blocking the spreading of the fixed clamping unit 210 while holding the power distribution line 100 by the provision of the fixed clamp 270. The clamping unit 210 Is protected from the outside, it is possible to prevent a safety accident that may occur.

The induction coil 220 and the second induction coil 232 constituted by a closed circuit are wound on the outer circumferential surface so that the electromagnet 230 is magnetized by the current induced through the induction coil 220.

Therefore, the overcurrent flowing through the power distribution line 100 is guided to the induction coil 220 wound on the clamp means 210, and the current induced in the induction coil 220 is guided to the second induction coil 232, And the optical fiber grating 240 installed close to the electromagnet is pulled and brought into close contact with the electromagnet.

When the electromagnet 230 is magnetized, the optical fiber grating 240 is integrally formed on the other surface of the metal piece 242, and the optical fiber grating 240 is integrally formed with the optical fiber And an optical fiber grating 244 to which the optical fibers 245 and 245 are connected.

An elastic member 250 is provided to pull the optical fiber grating 240 in a direction opposite to the electromagnet 230.

Therefore, in a steady state in which there is no accident in a power distribution line, the electromagnet 230 has a small electromotive force and the electromagnet is weak in strength, so that the optical fiber grating 240 is not moved to a predetermined position. When the electromagnet 230 is magnetized due to an overcurrent, the metal piece 242 is brought into close contact with the metal piece 242 (the metal piece is lifted upward by the magnetic force of the electromagnet in FIG. 3A), thereby moving the optical fiber grating 244 .

One end of the metal piece 242 is fixed to one end of the support base 262 by a hinge pin 264 ). Therefore, when the metal piece 242 is lifted by the magnetic force of the electromagnet 230 with respect to the hinge pin 264 and is not magnetized, the metal piece 242 is lowered by the load.

3B, when the electromagnet 230 is not magnetized due to disconnection of the power distribution line, the elastic member pulls down the optical fiber grating portion 240 together with the lowering due to the load, The center wavelength value of the optical fiber grating is shifted.

In this way, when the disconnection and overcurrent of the power distribution line occur, the value of the central wavelength is shifted due to the movement of the optical fiber grating 244, so that the detection unit 300 can detect the occurrence of an accident through the movement value of the center wavelength of the optical fiber grating .

The optical fiber 245 connected to the optical fiber grating 244 is connected to the optical fiber cable 120 already installed on the electric pole and the optical fiber cable connected to the optical fiber grating 244 is connected to the optical fiber cable And are connected to each other through mediation.

The detection unit 300 is connected to a plurality of sensing units, receives signals sensed by the sensing units, and transmits information to the management server 400 through the communication unit 330.

The detection unit 300 detects the occurrence of an accident by comparing the center wavelength value of the optical fiber grating in the steady state with the center wavelength shift amount of the optical fiber grating detected in the event of an incident of the power distribution line, If it is judged that an accident occurs in the power distribution line, the circuit breaker is driven through the normal circuit breaker system to cut off the power.

The detecting unit 300 includes a light detecting unit 310, a signal detecting unit 320, a communication unit 330, an optical circulator 340 and a light source 350. The light detecting unit 310 includes an optical circulator 340 And outputs the detected light to the signal detector 320. The signal detector 320 detects the light output through the output terminal of the signal detector 320. [

The signal detector 320 calculates the movement of the central wavelength due to the lattice spacing change of the optical fiber grating 244 from the light detected by the optical detector, and detects whether an accident has occurred in the power line through the optical fiber grating 244, To the management server 400 via the network 330.

Since the wavelengths of the optical fiber gratings of the sensing units installed in the respective sections are differently applied to the respective positions, the wavelengths of the optical fiber gratings are shifted due to the occurrence of an accident. Therefore, The management server can receive the detection value in real time and can always detect the safety state of the power distribution line at a remote place.

6, when a plurality of sensing units are defined as lambda 1 to lambda n according to their positions, when an overcurrent is generated by a short circuit on a power distribution line in which lambda 2 is installed, the wavelength value of the optical fiber grating Is detected through comparison with the reference wavelength value, and the detection information is transmitted to the management server 400.

When an overcurrent occurs due to a short circuit, for example, when an accident occurs in the power distribution line 100, electrons are induced in the induction coil 220 to generate an electromotive force, The electromotive force is transferred through the second induction coil 232 to magnetize the electromagnet 230.

The magnetized electromagnet 230 is pulled by the magnetic force of the electromagnet 230 to attract the metal piece 242 to the central portion of the optical fiber grating 244. The signal is transmitted to the detector 300 through the optical fiber The detection unit compares the center wavelength value of the optical fiber grating with the center wavelength value of the optical fiber grating, and determines that an accident has occurred in the power distribution line, and transmits the detection information to the management server 400.

The present invention can accurately detect the center wavelength value of an optical fiber grating through an amount of movement of an optical fiber grating when an accident occurs by using an induced electromotive force. It can be installed without a separate wiring because it can use cable.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, .

100: Distribution line 110: Optical connection enclosure
120: Optical fiber cable 200:
210: clamp means 212:
214: fastening groove 216: cover
220: induction coil 230: electromagnet
232: second induction coil 240: optical fiber grating
242: metal piece 244: fiber grating
245: optical fiber 250: elastic member
260: Case 262: Support
264: Hinge pin 270: Fixing clamp
300: Detector 310:
320: Signal detection unit 330:
340: optical circulator 350: light source
400: management server

Claims (6)

A sensing unit 200 fixed by the clamping unit 210 at every predetermined intervals of the power distribution line 100 and detecting a disconnection and overcurrent of the power distribution line through an induced electromotive force;
A detector 300 for comparing the signal sensed by the sensing unit 200 with a set signal and transmitting the information to the management server 400 when it is determined that disconnection and overcurrent of the power distribution line are generated;
And an overcurrent detection circuit for detecting an overcurrent and a disconnection position of the power distribution line.
The method according to claim 1,
The sensing unit 200 includes an induction coil 220 wound around the clamp means 210 and a second induction coil 232 constituted by the induction coil 220 and a closed circuit wound around the induction coil 220, An electromagnet 230 magnetized by an induced electromotive force of an electric current and an optical fiber grating portion 245 disposed adjacent to one end of the electromagnet 230 and closely attached to the electromagnet 230 when the electromagnet 230 is magnetized, An elastic member 250 for pulling the optical fiber grating portion 240 in a direction opposite to the electromagnet in a lower portion of the optical fiber grating portion 240; 230, an optical fiber grating 240, and a case 260 in which the elastic member 250 is embedded.
3. The method of claim 2,
The optical fiber grating 240 includes a metal piece 242 having one side of the electromagnet 230 closely attached to one end of the electromagnet 230 when the electromagnet 230 is magnetized and a metal piece 242 integrally formed on the other surface of the metal piece 242, And an optical fiber grating (244) to which an optical fiber (245) is connected.
The method of claim 3,
A support table 262 is provided inside the case 260,
And one end of the metal piece 242 is connected to one end of the support table 262 by a hinge pin 264 so that the metal piece 242 flows up and down with respect to the hinge pin 264. [ Overcurrent position detection device.
The method according to claim 1,
The clamping means 210 is formed as a clamping type in which one side is hinged so as to pick up and bind the power distribution line 100, and at the other end where the clamping means 210 is opened or close to each other, a latching jaw 212 and a coupling groove 214 are formed And the overcurrent detection unit detects the overcurrent position of the distribution line.
6. The method of claim 5,
And a fixing clamp 270 for clamping the clamping means 210 from the outside so as not to spread the clamping means 210 for clamping the power distribution line 100 is provided outside the clamping means 210. [ And the overcurrent position detecting device.

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