KR101417940B1 - Cabinet panel for prevention disaster of abnormal voltage protection and method thereof - Google Patents

Abstract

If an abnormal voltage occurs in a single-phase three-wire system (A, N, B) or three-phase four-wire system (R, S, T, N, Disclosure of the Invention Disclosure of the Invention Disclosure of the Invention [
Disaster Disaster Allocation Disclosure in Disclosed Abnormal Voltage is associated with a power supply that supplies power through single-phase three-wire (A, N, B) or three-phase four-wire (R, S, T, N) (Overvoltage or undervoltage) of the power supplied in the first half. When an abnormal voltage is detected, an abnormal voltage is connected to the normal voltage converter. If the abnormal voltage is abnormal after the conversion, The normal voltage recovery device includes a voltage detector for detecting an abnormality in a voltage; A controller for determining whether an abnormal voltage is present as a voltage detection value output by the voltage detector and generating a control signal for normal voltage conversion at abnormal voltage; And a normal voltage converter for converting the abnormal voltage supplied from the power supply unit into a normal voltage according to a control signal generated in the controller.

Description

Technical Field [0001] The present invention relates to a disaster-

(R, S, T, N) distribution system in a single phase three-wire type (A, N, B) or three phase four- Phase failure due to overvoltage when an abnormal voltage is generated due to neutral line drawing or miswiring, etc. In case of occurrence of abnormal voltage to maintain normal voltage, It is about the method.

Generally, in the power system, the 22.9 kv-y power distribution system can be used as a factory or building from a substation through three-phase four-wire (R, S, T, N) or single- It supplies electricity directly to large-scale customers, or supplies power to small-scale factories or homes through a secondary transformer.

Such distribution lines are constructed in the form of machined lines in the outskirts of cities and farming and fishing villages, but they are buried underground in areas where beauty is important, such as large cities and amusement parks.

The three-phase four-wire distribution system combines the neutral (N) and power lines (A-phase, B-phase, C-phase) by means of Y connection, delta connection and wieder connection. In this connection, when one power line and another power line are connected, 380V is formed. When one power line (for example, A phase) and a neutral line (N) are connected, 220V is provided to supply power to the load.

Here, the neutral line (N) means a line in which one line of each phase is common in the multiphase multi-line line. In principle, 6 wires are required to use 3 phase. However, when the phases of the three-phase four-wire system are changed by 120 degrees, and all the lines are common, the number of the four lines is reduced to four, and the potential at one point is commonly zero by the vector sum. This zero potential (zero potential) becomes the reference potential and becomes the so-called N phase, that is, the neutral line.

In this condition, the neutral line should have a zero potential, which is the ground potential in principle, but it may have a slight voltage when the phase of each phase is not exactly 120 ° in the field. In this case, to prevent the rise of the overvoltage potential, if the neutral line is connected to the ground line which is the ground potential line, even if the phase of each phase slightly changes, the ground potential is maintained because it is in contact with the ground.

The characteristics of the distribution system of Korea which adopts 3 phase 4 wire system is that single phase load and 3 phase load are mixed and unbalanced current flows in the neutral line. Recently, computer, LED, lighting equipment, office equipment such as copying machine, uninterruptible power supply (UPS) due to the increase of nonlinear load devices, more neutral image lines were flowing more harmonics.

Harmonics is a frequency corresponding to an integer multiple of 2, 3, or 4 times the fundamental frequency, and is referred to as a distortion or a distorted wave. In particular, harmonics such as 3, 6, 9, The high frequency component corresponding to a multiple of 3 is referred to as image harmonic.

As image phase harmonics have the same phase of each of the three phases, three single phase power sources are connected in parallel, so that the image harmonics up to 3 times are superimposed on the neutral line. When excessive image harmonics flow in the neutral line, the bushing portion is broken or the neutral line is broken due to overheating of the neutral conductor, and an abnormal voltage is generated in the single phase load.

If an abnormal voltage is generated here, breakage of the load side earth leakage breaker occurs, and a load such as a refrigerator washing machine connected to the voltage side line is burned.

This will be described in more detail as follows.

Figure 1 shows the voltage and current flow across a normal circuit in a three-phase four-wire power system (when the load imbalance is 3: 1).

The voltage in the normal circuit is supplied to the A-phase and the N-line 220V, the B-phase and the N-line to 220V, and the current flows from the A-phase to the N-phase and the B-phase to the N-phase.

However, if the neutral line (N) is disconnected, 220V will disappear and only 380V will be present. In other words, the neutral line does not flow, and the load flows in series from A to B phase.

That is, as in the circuit diagram shown in FIG. 2, the impedance between each phase and the neutral line becomes equal to 380 V connected in series with the inversely proportional impedance of the load on the A phase and the load on the B phase, .

In this case, even when the load is balanced, the voltage is changed. In the state where the neutral line is connected, the voltage between the neutral line and the voltage line (power line) is 220V. However, if the neutral line is disconnected, the voltage unbalance occurs. Unbalance is getting worse by disconnection, etc., and almost all of the light load side equipment is damaged or exploded, and it leads to fire.

As a result, when the neutral wire is disconnected in the three-phase four-wire distribution system, the voltage at the light load terminal increases, the load at the heavy load decreases and the load at the lower- , The single-phase load side electrical equipment is burned out or the circuit is opened. The voltage imbalance becomes more severe and eventually the light load side equipment is almost all damaged or exploded, or it leads to fire.

However, in the conventional single-phase two-wire power system, there is no protection technology for preventing the single-phase load from being burned off when switching to a normal voltage, a neutral line, There was a problem that the electrical equipment of the load side was burned out during the erroneous wiring.

In order to solve all the problems caused by such neutral line disconnection, a conventionally proposed technique is disclosed in Korean Patent Registration No. 10-1052471 (registered on July 22, 2011) (entitled " ).

In the disclosed prior art, when a neutral line disconnection is detected, a three-phase power source is connected to an internal neutral line protector to form a common line to replace the neutral line generated by the abnormality to prevent the generation of an abnormal voltage.

1. Registration No. 10-1052471 (registered on July 22, 2011)

However, the above-described conventional technique can solve the problem of burning down the electrical equipment at the lower part of the neck when the neutral wire is broken in the single-phase three-wire or three-phase four-wire power system. However, So that the abnormal voltage of the single-phase two-wire system can not be switched to the normal voltage. SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems occurring in the conventional single-phase two-wire power system,

Disclosure of the Invention Problem to be solved by the present invention is to provide a disaster prevention and disaster distribution system and a disaster prevention system in case of occurrence of an abnormal voltage in order to prevent a single phase load device from being damaged by an abnormal voltage due to a neutral line image formation or misplacing in a 3- It is in providing the method.

Another problem to be solved by the present invention is to provide a disaster-prevention dis- tribution distribution and method in a power system in which an abnormal voltage can be detected quickly and accurately when an abnormal voltage is generated.

Another problem to be solved by the present invention is to provide an overall disaster prevention and disaster distribution and a method thereof when an abnormal voltage is generated so that a warning is given when an abnormal voltage is detected and subsequent measures can be taken.

Another problem to be solved by the present invention is to provide a disaster prevention apparatus and a disaster prevention system in which when an abnormal voltage is detected even when a normal voltage converter is operated by an abnormal voltage generation, And to provide a distribution method and a method thereof.

Disclosure of Invention Technical Problem [8] In order to solve the above problems, according to the present invention,

(R, S, T, N), and detects an abnormal state of the voltage supplied from the power supply device, and generates an abnormal voltage And a normal voltage recovery device for preventing the voltage of the battery.

The normal voltage recovery device includes:

A voltage detector for detecting whether the abnormal voltage is generated;

A controller for determining whether an abnormal voltage is present as a voltage detection value output by the voltage detector and generating a control signal for preventing an abnormal voltage at an abnormal voltage;

And a normal voltage converter for converting the abnormal voltage into a normal voltage by bypassing the abnormal voltage generated in the power supply device according to a control signal generated by the controller.

The voltage detector comprises:

(RN, SN, TN) line is measured, and when a voltage of 220 volts ± 6% or more is detected, it is determined that an abnormal voltage is generated, and the detection value is outputted to the controller .

The normal voltage recovery device includes:

A switch for connection to a normal voltage converter;

And an inductance for maintaining the normal voltage of the single-phase voltage by connecting the abnormal voltage and the steady-state voltage converter.

The normal voltage recovery device includes:

An alarm generator for alarming abnormal voltage generation according to an alarm generation control signal output by the controller;

And an alarm release signal input unit for generating an alarm release signal and transmitting the alarm release signal to the controller when an alarm release switch for alarm release is operated by an administrator after the alarm is generated by the alarm generator.

In order to solve the above problems, a disaster prevention method in the event of abnormal voltage generation throughout distribution,

A method for switching an abnormal voltage to a normal voltage when an abnormal voltage is generated in a controller provided in a normal voltage recovery apparatus,

Detecting a single-phase voltage and generating an abnormal voltage when power is supplied through the entire distribution;

Converting the abnormal voltage generated by operating the normal voltage converter to a normal voltage when it is determined that the abnormal voltage is generated;

Generating an alarm for abnormal voltage generation after the normal voltage conversion;

And releasing an alert when an alarm release request is generated after the alarm is generated.

According to the present invention, when an abnormal voltage is generated in a three-phase four-wire distribution system, an abnormal voltage can be quickly cut off or switched to a normal voltage, thereby preventing a device of a load from being damaged by an abnormal voltage have.

Further, according to the present invention, the occurrence of an abnormal voltage can be detected and alerted quickly and accurately, so that the manager can quickly take a follow-up action, thereby preventing the burden of the load device There is an advantage to be able to do.

FIG. 1 is a voltage and current flow diagram of a conventional three-phase four-wire type power system.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a three-phase four-wire type power system.
3 is a circuit diagram of one embodiment of the steady-state voltage converter of Fig.
FIG. 4 is a circuit diagram of the overall disaster prevention and dis- tribution distribution when an abnormal voltage is generated according to a preferred embodiment of the present invention. FIG.
5 is a flowchart illustrating a disaster prevention method when an abnormal voltage is generated in a distribution panel according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 3 is a circuit diagram of the overall disaster prevention and disbursing distribution when an abnormal voltage is generated in a power system according to a preferred embodiment of the present invention, and includes a normal voltage recovery device 200 associated with the distribution panel 100.

When the normal voltage recovery device 200 is implemented as a single module and commercialized, it can be applied to existing power devices.

The distribution system 100 means a general power supply system that supplies power supplied from KEPCO to a three-phase four-wire system (R, S, T, N).

The normal voltage recovery apparatus 200 is connected to a distribution panel 100 for supplying power through a three-phase four-wire system (R, S, T, N) And performs a function of interrupting the abnormal voltage or switching to a normal voltage to prevent the generation of an abnormal voltage when the single-phase voltage abnormality occurs.

The normal voltage recovery apparatus 200 includes: a voltage detector 210 for detecting whether the abnormal voltage is generated; A controller 220 for determining whether an abnormal voltage is present as a voltage detection value output by the voltage detector 210 and generating a control signal for switching a normal voltage when an abnormal voltage is generated; And a steady voltage converter 230 for converting the abnormal voltage generated in the distribution panel 100 into a steady voltage according to a control signal generated by the controller 220 to maintain the electrical quality of the power.

The controller 220 may be implemented as a microcomputer, a microprocessor, a central processing unit, a microcontroller, or the like, which can store a controllable program and control the overall operation of the normal voltage recovery apparatus according to the stored program.

As shown in FIG. 3, the normal voltage converter 230 includes a switch M1 for interrupting the supply of the abnormal voltage. A switch M2 for switching the abnormal voltage to a normal voltage; A switch M3 for supplying a converted normal voltage; And an inductance (L1) for connecting the normal voltage converter to convert the abnormal voltage to a normal voltage.

The normal voltage recovery apparatus 200 may further include an alarm generator 240 for alerting abnormal voltage generation according to an alarm generation control signal output by the controller 220.

In addition, when the alarm reset switch for alarm release is operated by the manager after the alarm is generated by the alarm generator 240, the normal voltage recovery apparatus 200 generates an alarm release signal and transmits the alarm release signal to the controller 220 And an alarm release signal input unit 250 for outputting an alarm signal. The alarm release signal input unit 250 includes an alarm release switch.

According to the present invention, when the abnormal voltage is generated, the entire disaster prevention and disbursing distribution is performed by supplying the power supplied from the KEPCO through the primary transformer and then supplying the three-phase load or the single phase load .

At this time, when the neutral wire is disconnected, the voltage supplied to each phase differs depending on the capacity of the load, which causes an accident that the load device is damaged by the abnormal voltage at the lower part of the neck.

In order to prevent such an accident in advance, in the present invention, the normal voltage recovery device 200 senses the state of electrical quality at all times, and when an abnormal voltage is detected, it immediately performs an alarm and switches to a normal voltage, So that an abnormal voltage does not flow.

More specifically, when power is supplied from the distribution panel 100, the voltage detector 210 operates to detect whether an abnormal voltage has been generated, and transmits the detected occurrence detection value to the controller 220 . For example, the voltage detector 210 measures an overvoltage and / or a low voltage to determine whether an overvoltage or undervoltage is detected to determine the occurrence of an abnormal voltage.

If it is determined that the abnormal voltage is generated as a result of the determination, abnormal voltage generation abnormality information is included in the abnormal voltage generation detection value and is provided to the controller 220. Here, the abnormal voltage generation abnormality information may be a high signal (5V). If the generation of the abnormal voltage is not detected, the abnormal voltage generation detection value may be a low signal (0V).

The controller 220 analyzes the generated detection value provided from the voltage detector 210 by the built-in control program. If it is determined that the abnormal voltage is not generated, the controller 220 does not operate the normal voltage converter 230, The normal voltage converter 230 is operated.

The normal voltage converter 230 internally has an inductance and when the operation control signal is transmitted by the controller 220, the switch M1 operates to cut off the abnormal voltage, And is connected to the inductance L1 that converts the abnormal voltage to the normal voltage. The converted normal voltage is supplied to the load side through the switch M3. Here, the switch can be easily connected by using a magnet switch or the like.

If the abnormal voltage generated by the normal voltage converter 230 is changed to a normal voltage, abnormality of the supply voltage that may occur due to abnormal voltage generation can be maintained in the normal state as before, Even if an abnormal voltage is generated, the problem that the abnormal voltage flows to the load side as in the conventional case and the electric equipment is burned can be prevented.

On the other hand, the controller 220 immediately drives the path generator 240 when it is determined that the abnormal voltage is generated. The alarm generator 240 drives and alarms abnormal voltage generation. In the present invention, the alarm is generated using a visual alarm and / or audible alarm.

If the administrator recognizes this in the state where a visual or audible alarm is generated, the user is promptly taken up to follow-up, thereby preventing various accidents that may occur due to the generation of an abnormal voltage.

In addition, the administrator can release alarms that occur as needed. For example, when the alarm release switch provided in the alarm release signal input unit 250 is operated, the alarm release signal input unit 250 generates an alarm release signal and transmits the alarm release signal to the controller 220.

When the controller 220 receives the alarm release signal, the controller 220 stops the operation of the alarm generator 240 and releases the alarm.

Further, according to the present invention, if an alarm cancellation is not requested within a predetermined time after performing an alarm for abnormal voltage generation, the power supplied to the load is automatically cut off to prevent an accident that may occur due to abnormal voltage generation .

Also, as is well known in the present invention, the abnormal voltage is continuously generated through the voltage detector 210 while the normal voltage converter 230 is operated by abnormal voltage generation. At this time, When the abnormal voltage is detected despite the normal voltage converter 230 being operated, the controller 220 automatically operates the breaker by using the control signal to cut off the power to prevent the load device from being burned down.

FIG. 5 is a flowchart showing a disaster prevention method when an abnormal voltage is generated in the entire distribution according to a preferred embodiment of the present invention. When power is supplied through a three-phase four-wire system, (S101 to S103); A step (S105 to S109) of switching the abnormal voltage generated by operating the normal voltage converter to a normal voltage when it is determined that the abnormal voltage is generated; Generating an alarm for abnormal voltage generation after switching the normal voltage (S111); And a step (S113 to S115) of releasing the generated alarm when the alarm release request is generated after the alarm generation

As shown in the figure, when power is supplied from the distribution panel 100 in step S101, the voltage detector 210 detects whether an abnormal voltage is generated in step S103. Here, the method of detecting the occurrence of the abnormal voltage detects the generation of the abnormal voltage in the same manner as the operation of the entire disaster prevention / disaster distribution when the abnormal voltage is generated, so a detailed description is omitted in order to avoid redundant description.

If it is determined that an abnormal voltage is generated (S105), the abnormal voltage generated by driving the normal voltage converter 230 is converted into a normal voltage (S107 to S109). For example, when the abnormal voltage of the distribution panel 100 is generated, the abnormal voltage of the distribution panel 100 is converted to a normal voltage by the separately provided normal voltage converter 230, Thereby preventing the burden of the load device connected to the electric power from occurring.

If it is determined that an abnormal voltage has been generated, the alarm generator 240 is driven to generate an alarm regarding the abnormal voltage generation. Then, when the alarm generated by the administrator is requested to be released, And releases the generated alarm (S111 to S115).

That is, according to the present invention, when an abnormal voltage is generated in the distribution panel 100, the automatic switching is automatically performed to the normal voltage converter 230 to prevent an electric disaster caused by abnormal voltage generation, Thereby preventing the electric appliance from being burned down. If an abnormal voltage is generated, an alarm is generated so that the manager can recognize the abnormal voltage. After that, the manager can take a follow-up action quickly, thereby preventing an accident such as a system failure .

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... Distribution Overall
200 ... Normal voltage recovery device
210 ... Voltage detector
220 ... Controller
230 ... Steady-state voltage converter
240 ... Alarm generator
250 ... Alarm release signal input section

Claims (6)

In the entire power distribution system for preventing the electrical equipment of the load from being damaged or overheated during the abnormal voltage generation due to the neutral wire fault or miswiring in the power system,
(R, S, T, and N), and detects an abnormal voltage of power supplied from the power distribution system, When an abnormal voltage is detected, the abnormal voltage is connected to the normal voltage converter,
A switch M1 for interrupting the abnormal voltage;
A switch M2 for the abnormal voltage connection;
A switch M3 for the steady voltage connection;
And an inductance L1 for converting the abnormal voltage to a normal voltage and the abnormal voltage after the normal voltage conversion through the normal voltage converter having the switches M1, M2, and M3 and the inductance L1 And a normal voltage recovery device that maintains the normal voltage when the abnormal voltage is generated. The apparatus according to claim 1,
A voltage detector for detecting an abnormal voltage of the power;
A control signal for generating a control signal for converting the normal voltage into an abnormal voltage and generating a control signal for operating the circuit breaker when an abnormal voltage is detected after the normal voltage conversion, And a normal voltage converter for maintaining the abnormal voltage at a normal voltage according to a control signal generated by the controller. delete delete The apparatus according to claim 1,
An alarm generator for alerting abnormal voltage generation according to an alarm generation signal output by the controller; And an alarm release signal input unit for generating an alarm release signal and transmitting the alarm release signal to the controller when an alarm release switch for alarm release is operated by an administrator after the alarm is generated by the alarm generator. Disaster prevention distribution whole. A method for converting an abnormal voltage to a normal voltage in a controller installed in a disaster prevention disaster distribution system in the event of an abnormal voltage,
1) detecting whether an abnormal voltage is generated by detecting a voltage when power is supplied through a three-phase four-wire type or a single-phase three-wire type;
2) if it is determined that the abnormal voltage is generated, converting the abnormal voltage to a normal voltage by operating the normal voltage converter;
3) checking whether the abnormal voltage has been converted to a normal voltage, and generating an alarm for the abnormal voltage when the normal voltage is converted;
4) generating an alarm for an abnormal voltage after generating a breaker operation signal when the abnormal voltage is not normally changed;
5) The method according to any one of claims 1 to 4, further comprising the step of releasing an alarm when an alarm release request is generated after the alarm is generated.

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