KR101300752B1 - Low voltage distributing board system and power supply controller on low voltage distributing board - Google Patents

Abstract

PURPOSE: A low voltage distribution board system and a power supply controller of a low voltage distribution board quickly and accurately supply stable power to a customer by appropriately switching power dually supplied, thereby maximizing efficiency. CONSTITUTION: A low voltage distribution board system includes a first potential transformer (212), a second potential transformer (222), a first air circuit breaker (213), a second air circuit breaker (223), a third air circuit breaker, and a power supply controller (240). The first potential transformer and the first air circuit breaker are arranged on a first power line (201), and the second potential transformer and the second air circuit breaker are arranged on a second power line (202). The third air circuit breaker is connected to the first power line and the second power line in parallel to make a tie shape with the first air circuit breaker and the second air circuit breaker. [Reference numerals] (211) First TR; (212) First PT; (213) First ACB; (221) Second TR; (222) Second PT; (223) Second ACB; (230) Third ACB; (240) Power supply controller

Description

LOW VOLTAGE DISTRIBUTING BOARD SYSTEM AND POWER SUPPLY CONTROLLER ON LOW VOLTAGE DISTRIBUTING BOARD}

The present invention relates to a low voltage switchgear system and a power supply controller of a low voltage switchgear, and more particularly, a first air circuit breaker installed in a low voltage switchgear of a switchgear which is dually supplied through a first power line and a second power line, By controlling the operation of the second air circuit breaker and the tie-type air circuit breaker (ACB) panel of the third air circuit breaker through the power supply controller, the power supplied to the dual is properly switched to provide stable, fast and accurate power to the customer. The present invention relates to a low voltage switchgear system capable of supplying power and a power supply controller of a low pressure switchgear.

In general, the switchboard converts the high-voltage power into low pressure in a wide range of power customers such as residential areas, buildings, schools, factories, ports, airports, water / sewage treatment plants, substations, heavy industry plants, subways, chemical complexes, and steel mills. It is installed in the water distribution system to supply the equipment and is used for power monitoring, control and protection.

The power switchgear can be classified into a high voltage board used for a 3.6kV or 7.2kV power distribution system, a special high voltage board used for 22.9kV, 24kV, 25.8kV, and a low voltage board for supplying power such as 220V and 430V. Also, depending on the type, the switchgear is used for gas-insulated high-voltage closed switchgear (C-GIS), high-voltage closed switchgear (MCSG), and 1kV ~ 25.8kV water distribution system. It is also classified into a special high voltage compact switchgear (MVSG).

The interior of such a switchgear can be generally divided into a special high voltage (high pressure) panel and a low voltage panel. For example, based on a facility, a power receiving facility receiving electricity from a power provider, KEPCO, and a power receiving facility. Through the transformer can be divided into a distribution facility having a transformer or a circuit breaker that protects the entire facility from an accident such as a power outage or a power supply to change the voltage or capacity required by the factory or the user.

The existing power supply system consists of KEPCO line and emergency power system. When the KEPCO line is out of power, it is automatically converted to the power generation line by the ATS, and the power is supplied by the emergency generator. However, emergency generators have a lot of maintenance costs because they need to be checked and temporarily operated for immediate use in case of emergency.

Redundant power supply line from last 2-3 years, and main line is designated as KEPCO line by using ATS, and it converts to spare line in case of power failure. There is a limit to control. Therefore, the system is designed to control the constituent switch with three switches instead of ATS control. As the control method that can control the switchgear is used as a control method that is individually produced in sequence for each company, it is not standardized, so it is difficult to maintain until the system is learned whenever it is replaced by the personnel movement of the electric managers. Are going through. Therefore, there is a demand for the development of a system that can more efficiently control the tie-type ACB board so as to stably supply power to the consumer.

The present invention has been made to improve the prior art as described above, the first air circuit breaker, the second air circuit breaker, which is installed in the low-voltage switchgear of the switchgear is supplied with power through the first power line and the second power line, And a low-voltage switchgear capable of supplying power to the customer stably, quickly and accurately by properly switching the dually supplied power by controlling the operation of the tie-type air circuit breaker (ACB) panel of the third air circuit breaker through the power supply controller. It is an object to provide a power supply controller for a system and a low voltage switchgear.

In order to achieve the above object and to solve the problems of the prior art, a low-voltage switchgear system according to an embodiment of the present invention, the first air circuit breaker (ACB: Air Circuit Breaker) connected to the first power line; A second air circuit breaker connected to the second power line; A third air circuit breaker connected to a first node positioned between the first air circuit breaker and the customer in the first power line, and a second node positioned between the second air circuit breaker and the customer in the second power line; And measuring a power state of the first power line flowing into the first air circuit breaker and a power state of the second power line flowing into the second air circuit breaker and according to the measurement result. A second air circuit breaker, and a power supply controller to control an operation of the third air circuit breaker.

In addition, the first power line of the low-voltage switchboard system according to an embodiment of the present invention has a first transformer panel (TR) for converting high or extra high pressure to low pressure, a first instrument transformer connected to the first transformer panel ( PT (Potential Transformer), and the first air circuit breaker connected to the first instrument transformer is sequentially arranged, the second transformer board for converting the high pressure or extra high pressure to low pressure in the second power line, the second A second instrument transformer connected to a transformer panel, and the second air circuit breaker connected to the second instrument transformer are sequentially arranged, and the power supply controller is connected to the first instrument transformer and the second instrument transformer. Respectively connected to measure a power state of the first power line flowing into the first air circuit breaker and a power state of the second power line flowing into the second air circuit breaker; .

In addition, the power supply controller of the low-voltage switchgear system according to an embodiment of the present invention, when detecting the power failure of the first power line, the first air circuit breaker of the ON state is controlled to be switched to the OFF state after the OFF state Control the third air circuit breaker to be switched to the ON state, and when the recovery of the first power line is detected, the third air circuit breaker to the ON state is controlled to be switched to the OFF state, and then the The first air circuit breaker is controlled to be switched to the ON state, and when detecting the power failure of the second power line, the second air circuit breaker is turned to the OFF state after controlling the second air circuit breaker to the OFF state and then the third air circuit breaker to the OFF state. Is controlled to be switched to the ON state, and when the recovery of the second power line is detected, the third air circuit breaker of the ON state is controlled to be switched to the OFF state and then the OFF state. Characterized in that the second air circuit breaker for controlling to switch to the ON state.

In addition, the power supply controller of the low-voltage switchgear system according to an embodiment of the present invention controls the first air circuit breaker and the second air circuit breaker to maintain the ON state, the first air circuit breaker and the second air lifter When the circuit breakers are all in the ON state, the third air circuit breaker is maintained to be in an OFF state, and when the first and second air circuit breakers are both in an OFF state, the third air circuit breaker is controlled to be in an OFF state. Characterized in that.

In addition, the power supply controller of the low-voltage switchboard according to an embodiment of the present invention, the first transformer panel TR, the first instrument transformer (PT), and the first air circuit breaker arranged in the first power line A first power measurement unit connected to the first instrument transformer of an air circuit breaker (ACB) to measure a power state of the first power line; A second power measurement unit connected to the second instrument transformer among the second transformer board, the second instrument transformer, and the second air circuit breaker arranged on a second power line, and measuring a power state of the second power line; A memory in which a power supply control table in which operation information of the air circuit breaker corresponding to each of the power state of the first power line and the power state of the second power line is recorded; And a third air circuit breaker connected to a first node located between the first air circuit breaker and the customer in the first power line, and a second node positioned between the second air circuit breaker and the customer in the second power line. And an air circuit breaker controller configured to control ON / OFF operations of the first air circuit breaker and the second air circuit breaker through the power supply control table.

In addition, the power supply controller of the low-voltage switchboard according to an embodiment of the present invention, the state information of the first power line, the state information of the second power line, the operation state information of the first air circuit breaker, the second air The display apparatus may further include a display unit displaying operation state information of the breaker and operation state information of the third air circuit breaker.

In addition, the air circuit breaker control unit of the low-voltage switchgear according to an embodiment of the present invention controls the first air circuit breaker in the ON state to switch to the OFF state after detecting the power failure of the first power line, When the third air circuit breaker is controlled to be switched to the ON state, and when the recovery of the first power line is detected, the third air circuit breaker is controlled to be switched to the OFF state after the third air circuit breaker is switched to the OFF state. The first air circuit breaker is controlled to be switched to the ON state, and when detecting a power failure of the second power line, the second air circuit breaker to the OFF state is controlled after the second air circuit breaker is turned to the OFF state. The control unit is configured to switch to the ON state, and when the recovery of the second power line is detected, the third air circuit breaker in the ON state is controlled to be switched to the OFF state, and then the phase of the OFF state is controlled. Claim 2 is characterized in that control the air circuit breaker to be switched to the ON state.

According to the power supply controller of the low pressure switchgear system and the low pressure switchgear of the present invention, it is possible to obtain an effect of stably and quickly and accurately supplying power to the customer by appropriately switching the power supplied dually.

According to the low-voltage switchgear system and the power supply controller of the low-voltage switchgear according to the present invention, at least the emergency generator should be checked and temporarily operated so that the emergency generator can be used immediately in case of emergency. The maintenance cost of the system can maximize the stability of the power supply.

1 is a diagram illustrating a schematic diagram of a low voltage switchgear of a power switchboard supplied with redundancy.
2 is a view showing the configuration of a low-voltage switchboard system according to an embodiment of the present invention.
Figure 3 is a block diagram showing the configuration of a power supply controller of a low voltage switchboard according to an embodiment of the present invention.
4 is a view illustrating a display unit of a power supply controller of a low voltage switchboard according to an embodiment of the present invention.
5 is a diagram illustrating a time breaker operation control time chart of the power supply controller of the low-voltage switchboard according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a schematic diagram of a low voltage switchgear of a power switchboard supplied with redundancy.

According to the present invention, the switchgear may be dually supplied from a power supply source. According to the redundant power system, the first power line may be connected to the first power system 101, and the second power line may be connected to the second power system 102.

The first power line includes a 1-1 disconnecting switch (DS), a 1-2 disconnector (DS), a 1-1 vacuum circuit breaker (VCB) 111, and a 1-2 vacuum breaker. 112, a first power fuse (PF), a first transformer (TR) 113, and a first air circuit breaker (ACB) 114 may be arranged. In addition, the second power line also includes a 2-1 disconnector (DS), a 2-2 disconnector (DS), a 2-1 vacuum circuit breaker (VCB) 121, and a 2-2 vacuum breaker ( 122, a second power fuse PF, a second transformer TR 123, and a second air circuit breaker (ACB) 124 may be arranged.

The third air circuit breaker (ACB) 130 includes a first node of the first power line located between the first air circuit breaker (ACB) 114 and the customer, and a second air circuit breaker (ACB) 124 and the customer. It may be arranged to be connected to each of the second node of the second power line located between. That is, according to the formation of the redundant power line, the first air circuit breaker (ACB) 114, the second air circuit breaker (ACB) 124, and the third air circuit breaker (ACB) 130 have a tie shape. It can be implemented to form an ACB half. Each of the disconnectors DS and each of the vacuum breakers VCC may be normally closed, that is, ON.

In general, the circuit breaker (DS) is a device used to disconnect the line or change the bus line without load for the maintenance and repair of the equipment or the line in the power system circuit. The installation position of the circuit breaker (VCB) is It can be implemented to be placed at the front and rear ends of the.

In general, air circuit breakers (ACBs) are installed in switchboards to extinguish arcs generated when breaking a large current flowing in a breakdown of a power system of a switchboard through compressed air, and are mainly used in low voltage circuits of 1000V or less. As a switchgear, it can be used to prevent an accident caused by cutting off the flow of current when an overcurrent flows in an electric circuit. The air circuit breaker is used to cut off the line through the relay when the line breaker occurs when it is installed in the switchgear of the low voltage (600V or less) power system. In particular, many institutions such as hospitals, factories, and laboratories have emergency power sources such as large-capacity rechargeable batteries or self-generators to minimize such damages. A circuit breaker is required, and an air circuit breaker may also be used for this purpose.

2 is a view showing the configuration of a low-voltage switchboard system according to an embodiment of the present invention.

Low-voltage switchboard system according to an embodiment of the present invention, the first instrument transformer (PT: Potential Transformer) 212, the second instrument transformer 222, the first air circuit breaker 213, the second air circuit breaker ( 223, a third air circuit breaker, and a power supply controller 240.

The first instrument transformer 212 and the first air circuit breaker 213 may be arranged in the first power line 201, and the second instrument transformer 222 and the second air circuit breaker 223 are second power. May be arranged in line 202. The third air circuit breaker may be connected in parallel to the first power line 201 and the second power line 202 to form a tie shape with the first air circuit breaker 213 and the second air circuit breaker 223.

The first transformer 211 and the second transformer 221 convert the high voltage of 22.9 kV or the high voltage of 6.6 kV into low voltage power of 380 V, respectively, so that the first instrument transformer 212 and the second instrument transformer 222 Transmit each). The first instrument transformer 212 and the second instrument transformer 222 are connected to the power supply controller 240, respectively. The power supply controller 240 is also connected to the first air circuit breaker 213, the second air circuit breaker 223, and the third air circuit breaker 230, respectively.

The power supply controller 230 controls the power state of the first power line 201 flowing into the first air circuit breaker 213 and the power state of the second power line 202 flowing into the second air circuit breaker 223. Measure each. In order to measure the power state of the first power line 201, the first instrument transformer 212 may be installed between the first transformer 211 and the first air circuit breaker 213. In addition, a second instrument transformer 222 may be installed between the second transformer 212 and the second air circuit breaker 214 for the power state measurement of the second power line 202. That is, the power supply controller 230 supplies power to the first power line 201 and the second power line 202 by measuring output voltages of the first instrument transformer 212 and the second instrument transformer 222. State, that is, whether or not a power failure state can be sensed.

The power supply controller 230 may include the first air circuit breaker 213, the second air circuit breaker 223, and the third air circuit breaker 230 according to the states of the first power line 201 and the second power line 202. By controlling the operation of the power supply can be controlled to be normally supplied to the customer through the switching of the redundant power supply line.

Figure 3 is a block diagram showing the configuration of a power supply controller of a low voltage switchboard according to an embodiment of the present invention.

The power supply controller 300 of the low voltage switchboard according to the embodiment of the present invention includes a first power measurement unit 310, a second power measurement unit 320, a memory 330, a breaker controller 340, and a display. The unit 350 is included.

The first power measurement unit 310 measures the power state of the first power line 201 through the first instrument transformer 212 arranged in the first power line 201. The second power measurement unit 320 measures the power state of the second power line 202 through the second instrument transformer 222 arranged in the second power line 202.

The memory 330 may maintain a power supply control table. The power supply control table includes a first air circuit breaker 213, a second air circuit breaker 223, and a third corresponding to the power state of the first power line 201 and the power state of the second power line 202, respectively. Operation information of the air circuit breaker 230 may be recorded. That is, the ON / OFF operation algorithm between the air circuit breakers corresponding to each of the power failure state and the power recovery state of each power line may be recorded.

The air circuit breaker controller 340 is configured to control the power state information of the first power line 201 received from the first power measurement unit 310 and the second power line 202 received from the second power measurement unit 320. Through the power state information, the operation of the first air circuit breaker 213, the second air circuit breaker 214, and the third air circuit breaker 230 is controlled.

When the air circuit breaker controller 340 detects a power failure of the first power line 201, the air circuit breaker controller 340 controls the first air circuit breaker 213 in the ON state to be switched to the OFF state, and then the third air circuit breaker 230 in the OFF state. ) Can be turned on. In addition, when the restoration of the first power line 201 is detected, the air circuit breaker controller 340 controls the third air circuit breaker 230 in the ON state to be switched to the OFF state, and thereafter, the first circuit in the OFF state. The air circuit breaker 213 may be controlled to be switched to the ON state.

When the air circuit breaker controller 340 detects the power failure of the second power line 202, the air circuit breaker controller 340 controls the second air circuit breaker 223 in the ON state to be turned OFF, and thereafter, the third air circuit breaker 230 in the OFF state. ) Can be turned on. In addition, when the restoration of the second power line 202 is detected, the air circuit breaker controller 340 controls the third air circuit breaker 230 in the ON state to be switched to the OFF state, and thereafter, in the second state of the OFF state. The air circuit breaker 223 may be controlled to be switched to the ON state.

According to one embodiment of the present invention, as shown in Figure 5, the air circuit breaker control unit 340 controls the ON / OFF operation of the air circuit breaker to be processed by the time setting within 1 second during power failure, within 10 seconds during power recovery By setting the time, the ON / OFF operation of the circuit breaker can be controlled.

The air circuit breaker control unit 340 may control the first air circuit breaker 213 and the second air circuit breaker 223 to maintain the ON state. The air circuit breaker controller 340 may control the third air circuit breaker 230 to maintain an OFF state when both the first air circuit breaker 213 and the second air circuit breaker 223 are in an ON state. The air circuit breaker controller 340 may control the third air circuit breaker 230 to maintain the OFF state when both the first air circuit breaker 213 and the second air circuit breaker 223 are in an OFF state.

The display unit 350 includes state information of the first power line 201, state information of the second power line 202, operation state information of the first air circuit breaker 213, and operation state of the second air circuit breaker 223. Information, operation state information of the third air circuit breaker 230 may be displayed.

4 is a view illustrating a display unit of a power supply controller of a low voltage switchboard according to an embodiment of the present invention.

According to an embodiment of the present invention, the display unit 350 of the power supply controller 300 may include a first power line state display unit 410, a second power line state display unit 420, and a first air circuit breaker operation display unit 430. ), A second air circuit breaker operation display unit 440, a third air circuit breaker operation display unit 450, a manual state display unit 460, and a power supply display unit 470.

The first power line state display unit 410 may display the power state of the first power line 201 measured by the first power measurement unit 310 according to the output voltage of the first instrument transformer 212. For example, when the first power line 201 is in a normal state, it may be displayed in green, and in the blackout state, it may be displayed in red. The second power line state display unit 420 may display the power state of the second power line 202 measured by the second power measurement unit 320 according to the output voltage of the second instrument transformer 222.

An operation state of the first air circuit breaker 213 may be displayed on the first air circuit breaker operation display unit 430. That is, information on the ON state or the OFF state of the first air circuit breaker 213 controlled by the air circuit breaker controller 340 may be displayed according to the first power line state information. An operation state of the second air circuit breaker 223 may be displayed on the second air circuit breaker operation display unit 440. That is, information on the ON state or the OFF state of the second air circuit breaker 223 controlled by the air circuit breaker controller 340 may be displayed according to the second power line state information. An operation state of the third air circuit breaker 230 may be displayed on the third air circuit breaker operation display unit 450. That is, the information about the ON state or the OFF state of the third air circuit breaker 230 controlled by the air circuit breaker controller 340 may be displayed according to the first power line state information and the second power line state information.

When the manager manually operates the air circuit breaker control operation of the power supply controller 300, the manual state display unit 460 may display information on the operation of each air circuit breaker accordingly. The power display 470 may display a state of power supplied to the power supply controller 300.

The power supply control method of the low voltage switchgear system and the power supply controller according to the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. The medium may be a transmission medium such as an optical or metal line, a wave guide, or the like, including a carrier wave for transmitting a signal designating a program command, a data structure, or the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

201: first power line
202: second power line
211: first transformer
212: first instrument transformer
213: first breaker
221: second transformer
222: second instrument transformer
223: second breaker
230: third air circuit breaker
240: power supply controller

Claims (7)

delete delete delete delete The first transformer panel TR, a first instrument transformer PT, and a first air circuit breaker ACB arranged in a first power line are connected to the first instrument transformer. A first power measuring unit measuring a power state of the first power line;
A second power measurement unit connected to the second instrument transformer among the second transformer board, the second instrument transformer, and the second air circuit breaker arranged on a second power line, and measuring a power state of the second power line;
A memory for maintaining a power supply control table in which operation information of the air circuit breaker corresponding to each of the power state of the first power line and the power state of the second power line is recorded;
A third air circuit breaker connected to a first node located between the first air circuit breaker and the customer in the first power line, and a second node located between the second air circuit breaker and the customer in the second power line; When the ON / OFF operation of the first air circuit breaker and the second air circuit breaker is controlled through the power supply control table, and the power interruption of the first power line is sensed, the first air circuit breaker in the ON state is turned off. The third air circuit breaker in the OFF state is controlled to be switched to the ON state after the control to switch to the state, and when the recovery of the first power line is detected, the third air circuit breaker in the ON state is switched to the OFF state. After the control, the first air circuit breaker in the OFF state is controlled to be switched to the ON state, and when detecting a power failure of the second power line, the second air circuit breaker in the ON state is set to the OFF state. And control the switching of the third air circuit breaker in the OFF state to the ON state after the control to be switched, and if the recovery of the second power line is detected, the control of the third air circuit breaker in the ON state to the OFF state. An air circuit breaker control unit configured to control the second air circuit breaker in the OFF state to be turned on; And
The state information of the first power line, the state information of the second power line, the operation state information of the first air circuit breaker, the operation state information of the second air circuit breaker, and the operation state information of the third air circuit breaker are displayed. Display part
Power supply controller of a low voltage switchgear comprising a. delete delete

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