KR20120087591A - fault point sense device and method using the same - Google Patents

Abstract

PURPOSE: A fault detection device and method are provided to detect explosive sounds and a non-voltage condition when extra-high voltage electric power facilities fail and immediately inform the failure location to an administrator. CONSTITUTION: A detection unit(110) detects explosive sounds and a non-voltage condition and locates failure spots. A communication unit(120) transmits signals according to the location of the failure spots. A management unit(130) monitors the signal according to the location of the failure spots and manages the failure of the detection unit.

Description

Fault point sense device and method using the same

The present invention relates to a failure detecting apparatus and a method thereof, and more particularly, to a technique for quickly grasping the position of the failure point to separate from the line and to quickly transmit the power section.

If a breakdown occurs in an extra high voltage (22.9kV) power installation, the protection device installed in the substation or track will be cut off and a power failure will occur after the protection device.

The current fault point check method, the line operator separates the fault section through the operation of the protective device and the distribution automation system, and instantaneously identify the failure point with the naked eye based on the event provided by the expensive distribution automation equipment, The line operator checks the operating status of various breakers (COS Fuse Link, Recloser, Auto section Switch, Multi-circuit Breaker, etc.) to check the breakdown point.

However, it takes a long time for the line operator to go out and check the site, and it takes a lot of money when installing the distribution automation equipment by live wire, there is a problem that the customer discomfort and power sales volume decreases when installing by power outage work.

In addition, current failure detection uses a CT (Current Transformer), there is a complicated circuit and structure problem.

The present invention has been proposed to solve the problems described above, rather than failure detection using a conventional CT (Current Transformer) used for all the increased high voltage power equipment, the circuit and the structure to simplify the high voltage power equipment failure It aims to prompt the operator to know the location of the fault point only by the detection of binge and no voltage generated during the operation.

In order to achieve the above object, the fault detection apparatus according to an embodiment of the present invention, the detection unit for detecting the explosion and no voltage generated when the failure of the special high-voltage power equipment and selecting the location of the fault point according to the detection result; ; Communication unit for transmitting a signal according to the location of the failure point to the operator by wire or wireless; And a management unit for monitoring a signal according to a location of a failure point received from the communication unit, and managing the presence or absence of a failure of the detection unit.

In addition, the detection unit, a sound detection module for detecting the sound signal by detecting the sound signal in real time; A no-voltage detection module for detecting a voltage-free signal by sensing a voltage in real time; And a control module configured to select the location of the fault point by combining the sound-absorbing signal and the no-voltage signal under the AND condition of the AND gate.

The management unit may further include a display unit on which the fault point is displayed on any one of a cathode-ray tube, a liquid crystal display (LCD), and a plasma display pannel (PDP); It further comprises.

In addition, the information according to the location of the failure point displayed through the display unit is characterized in that for transmitting to the field manager through a short message service (Short Message Service).

In order to achieve the above object, the failure detection method according to an embodiment of the present invention, by detecting the explosion and no voltage generated when the failure of the special high-voltage power equipment through the detection unit to select the location of the failure point according to the detection result Steps; Transmitting a signal according to the location of the failure point through a communication unit by wire or wirelessly to an operator to confirm; And

And monitoring a signal according to a location of a failure point received from the communication unit, and managing the presence or absence of a failure of the detection unit.

Also. The step of selecting a location of the fault point may include detecting the sound signal by detecting the sound signal in real time through the sound detection module; Detecting a voltage-free deep circuit by detecting a voltage in real time through the voltage-free sensing module; And selecting the location of the fault point by combining the sound-absorbing signal and the no-voltage signal according to the AND condition of the AND gate through a control module.

In addition, the step of monitoring, the location of the fault point through the display unit displayed on any one of a cathode-ray tube, a liquid crystal display (LCD), a plasma display panel (PDP) Displaying; characterized in that it further comprises.

According to the present invention, rather than a failure detector using a conventional CT (Current Transformer) that can be used for all the increased high-voltage power equipment, the operator can simplify the circuit and structure to detect the explosion and no voltage generated when the high-voltage power equipment is broken. It is effective to let the location of the fault point quickly.

1 is an overall configuration diagram of a failure detection apparatus according to an embodiment of the present invention.
Figure 2 is a detailed block diagram of the failure detection device according to Figure 1;
3 is an overall flow chart of a failure detection method according to an embodiment of the present invention.
4 is a detailed flowchart for selecting a location of a failure point according to FIG. 3.

DETAILED DESCRIPTION In order that the present invention may be easily implemented in detail to those skilled in the art, the most preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a failure detection apparatus and a diagnosis method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of a failure detection apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the failure detecting apparatus 100 may include a detector 110, a communicator 120, and a manager 130.

The detection unit 110 detects the explosion and no voltage generated when the special high voltage power equipment is broken and selects the location of the failure point according to the detection result.

At this time, since the detection unit 110 has a possibility of malfunction in the ambient noise, it is determined that the failure point only when both the binge and no voltage are detected.

In addition, the detection unit 110 is installed in the customer premises for each required area specified by the management unit 130, the detection unit 100 is made of a simple structure can be used semi-permanently as the performance test can be performed whenever necessary.

Therefore, the detection unit 110 can detect a failure occurring in the distribution line as well as the special high-pressure customer premises.

The communicator 120 transmits a signal according to the location of the fault point by wire or wirelessly so that an operator of the manager 130 may confirm.

The management unit 130 monitors a signal according to the location of the failure point received from the communication unit, and performs a performance test of the detection unit 110 as necessary to manage the presence or absence of the failure of the detection unit 110.

Therefore, the failure detecting apparatus 100 selects a fault point according to the result of the explosion and no voltage generated when the special high voltage power equipment breaks down, and promptly recognizes the fault point to an operator who manages by transmitting the position signal of the fault point. To give.

2 is a detailed block diagram of the failure detecting apparatus according to FIG. 1.

Referring to FIG. 2, the detector 110 of the failure detection apparatus 100 includes a binge detection module 111, a no-voltage detection module 112, and a control module 113.

In addition, the management unit 130 of the failure detection apparatus 100 includes a display unit 131.

First, the explosion detection module 111 of the detection unit 110 detects the sound signal by detecting the acoustic signal in real time.

The no-voltage sensing module 112 detects a no-voltage signal by sensing a voltage in real time.

The control module 113 selects the location of the fault point by combining the binge signal and the no-voltage signal under the AND condition of the AND gate.

Therefore, the detection unit 110 detects the explosion signal and detects both of the voltageless signals and combines them into the AND gate to determine that a failure point is generated, and transmits the location signal of the failed detection unit through the communication unit 120. Provided at 130.

In addition, the display unit 131 of the management unit 130 is located in any one of the position of the failure point (Cathode-ray Tube), liquid crystal display (LCD), plasma display (PDP) Is displayed.

Subsequently, the failure detecting apparatus 100 transmits a text message to an administrator who manages the information according to the location of the failure point displayed through the display unit 131 in the management unit 130 to the manager to be put in the field. Send it through.

3 is a flowchart illustrating a failure detection method according to an embodiment of the present invention.

Referring to FIG. 3, the failure detection method detects the explosion and no voltage generated when the special high voltage power equipment is broken through the detection unit 110 and selects the location of the failure point according to the detection result (S100).

At this time, since the detection unit 110 has a possibility of malfunction in the ambient noise, it is determined that the failure point only when both the binge and no voltage are detected.

In addition, the sensing unit 110 is installed in a plurality of customer premises for each required area specified by the management unit 130, the sensing unit 100 is made of a simple structure and can be used semi-permanently as the performance test can be performed whenever necessary.

Thereafter, the signal is transmitted through the communication unit 120 in a wired or wireless manner so that the operator can confirm the signal according to the location of the failure point (S200).

Thereafter, the signal according to the location of the failure point received from the communication unit 120 is monitored (S300).

At this time, the management unit 130 is the location of the failure point is displayed on any one of a cathode-ray tube (LCD), a liquid crystal display (LCD), a plasma display (PDP: Plasma Display Pannel), The operator who manages the information according to the location of the advantage is transmitted to the administrator to be put into the field through the text message transmission service (Short Message Service) (S400).

4 is a detailed flowchart for selecting a location of a failure point according to FIG. 3.

Referring to FIG. 4, the sensing unit 110 is installed in the customer premises to detect the binge and no voltage generated when the special high-voltage power equipment malfunctions (S100).

Further subdividing this, the sound signal is detected in real time through the explosion detection module 111 to detect the explosion signal (S110).

Thereafter, the voltage detection module 112 detects the voltage in real time to detect the voltage-free signal (S120).

Thereafter, the control module 113 selects the location of the failure point by combining the explosion signal and the no-voltage signal under the AND condition of the AND gate (S130).

In this way, the detection unit 110 can detect a failure occurring in the distribution line as well as the special high-pressure customer premises.

Therefore, the present invention is continuously used in the future because of the excellent effect and economic advantages in preventing traumatic failure, it is possible to apply to the range of the distribution line without the special high-pressure customer faucet facilities, automatic switchgear.

Although a preferred embodiment according to the present invention has been described above, it is possible to modify in various forms, and those skilled in the art to various modifications and modifications without departing from the claims of the present invention It is understood that it may be practiced.

100: failure detection device 110: detection unit
111: binge detection module 112: no-voltage detection module
113: control module 120: communication unit
130: management unit 131: display unit

Claims (7)

Detecting unit for detecting the explosion and no voltage generated when the special high-voltage power equipment failure occurs to select the location of the failure point according to the detection result;
Communication unit for transmitting a signal according to the location of the failure point to the operator by wire or wireless; And
And a management unit for monitoring a signal according to a location of a failure point received from the communication unit, and managing whether there is a failure of the detection unit.
The method according to claim 1,
The sensing unit includes:
A detonation detection module detecting an acoustic signal in real time to detect a detonation signal;
A voltage-free detection module for detecting a voltage-free signal by detecting a voltage in real time;
And a control module configured to select the location of the failure point by combining the explosion signal and the non-voltage signal under the AND condition of the AND gate.
The method according to claim 1,
The management unit,
The location of the fault point further comprises a display unit displayed on any one of a cathode-ray tube (LCD), a liquid crystal display (LCD), a plasma display panel (PDP) Fault detection device.
The method according to claim 3,
Failure detection apparatus, characterized in that for transmitting the information according to the location of the failure point displayed through the display unit to the field manager through a short message service (Short Message Service).
Detecting the explosion and no voltage generated when the special high voltage power equipment failure through the detection unit for selecting the location of the failure point according to the detection result;
Transmitting a signal according to the location of the failure point through a communication unit by wire or wirelessly to an operator to confirm; And
And monitoring the signal according to the location of the failure point received from the communication unit, and managing the presence or absence of a failure of the detection unit.
The method according to claim 5,
Selecting the location of the fault point,
Detecting a sound signal by detecting a sound signal in real time through the sound detection module;
Detecting a voltage-free deep circuit by detecting a voltage in real time through the voltage-free sensing module;
And selecting the location of the fault point by combining the sound-absorbing signal and the no-voltage signal according to the AND condition of the AND gate through a control module.
The method according to claim 5,
The monitoring step,
Displaying the location of the fault point through a display unit displayed on one of a cathode-ray tube, a liquid crystal display (LCD), and a plasma display panel (PDP); Failure detection method comprising a.

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