KR101246036B1 - Emergency transport switch - Google Patents

Abstract

PURPOSE: An instant voltage compensator is provided to completely cut off input/output of an instant voltage compensator between a system and a load by making a main input/output and bypass unit as a switch. CONSTITUTION: A bypass switch is parallelly connected to a bypass semiconductor switch. An input side switch is connected between an input end of the bypass switch and the instant voltage compensator. An output side switch transmits output of the instant voltage compensator receiving power through the input side switch to a load. If a bypass control unit(150) receives abnormality generation and failure generation signals transmitted from the instant voltage compensator, transmits a control signal to bypass. An input device(16) manipulates the bypass semiconductor switch, the bypass switch, the input side switch and the output side switch by manually operating the control unit by a user. [Reference numerals] (11) System power supply; (12,21) Semiconductor switch; (13) Load; (14) Semiconductor switch driving unit; (15) Bypass control unit; (16) Input device; (22) Compensation control unit; (26) Charging circuit;

Description

Bypass device of instantaneous voltage compensation device {Emergency Transport Switch}

The present invention relates to a bypass device for an instantaneous voltage compensating device, and more particularly, to a fault or an instantaneous voltage compensation of a semiconductor switch of an instantaneous voltage compensating device which is connected in series between a system and a load to cut off or supply system power. When it is determined that power supply to the load is not possible due to a failure of the device itself, the system power is delivered without any influence on the load and the momentary voltage compensation device is completely isolated and separated from the system to prevent the possibility of further accidents in advance. A bypass device for a voltage compensating device.

Due to the malfunction of the load caused by the instantaneous power failure or the voltage drop in the system, productivity, tangible and intangible losses occur, and in many places, the instantaneous voltage compensation device is installed on the consumer load side. The instantaneous voltage compensator can compensate for the momentary power failure or the instantaneous voltage drop caused by a power system accident, such as a lightning strike, and it is cheaper than the UPS by using the super capacitor as the energy storage device, and the size of the equipment is not large. The advantage is that it is easy.

The instantaneous voltage compensator normally supplies the power to the load by using a semiconductor switch of the instantaneous voltage compensator, such as a blocking thyristor switch, connected in series between the system and the load. To isolate the system from the load and supply power in parallel to the load.

When the instantaneous voltage drop or momentary power failure disappears from the system and the power is compensated, the instantaneous voltage compensator supplies the system power to the load again using the semiconductor switch of the instantaneous voltage compensator connected in series between the system and the load.

The prior art of the bypass device of the instantaneous voltage compensation device will be described.

According to the emergency bypass device and operating method (patent registration 10-0949351) registered on March 17, 2010, "The present invention is to provide an emergency bypass device for use in instantaneous power failure compensation An EBS bypass switch that receives the output power of the voltage sag protection device and is set on / off to an output terminal according to the control of the bypass control unit; receives an external power source and turns on / off the output terminal according to the control of the bypass controller And a bypass control unit for controlling the on / off operation of the EBS bypass switch and the hardware bypass switch, according to the present invention, by combining the voltage sag protection process and the emergency bypass process. It is a device that can completely prevent the damage of the industrial electric equipment by the momentary power failure of the external power supply or the internal failure of the voltage sag protection device. The can get, "he said bars are disclosed.

Even when the undervoltage supply occurs due to the internal failure of the above-mentioned instantaneous voltage compensating device, a larger problem may be caused.

In order to solve this problem, in case of failure of the momentary voltage compensator, the momentary voltage compensator is electrically isolated, that is, disconnected from the system and the load, and the system can be directly supplied to the load. Among the components to solve this problem, the semiconductor switch has a high operating speed, but has a high probability of failure due to surge, and the system is cut off when a failure occurs. A mechanical switch has a low probability of failure but a slow operation speed.

When the power supply to the load is judged to be impossible due to the failure of the semiconductor switch of the instantaneous voltage compensator or the breakdown of the instantaneous voltage compensator used to cut off or supply the system power connected in series between the system and the load, turn off the system power. It is an object of the present invention to provide a bypass device for an instantaneous voltage compensating device which transmits without any influence on the load and completely isolates and isolates the instantaneous voltage compensating device from the system so as to block the risk of additional accidents.

The present invention for achieving the above object is connected to the input terminal and the output terminal of the instantaneous voltage compensation device is cut off the power supply to the load due to the failure of the semiconductor switch or the instantaneous voltage compensation device of the instantaneous voltage compensation device connected in series between the system and the load As a bypass device of an instantaneous voltage compensator to prevent accidents, the bypass device drives a semiconductor switch for bypass and supplies system power to the load in an instant while receiving a fault signal from the instantaneous voltage compensator. At the same time, by operating the bypass switch, the system power can be stably supplied to the load. Then, the bypass semiconductor switch is turned off to minimize the use of the semiconductor switch and connected to the input and output terminals of the instantaneous voltage compensation device. To prevent power supply to the instantaneous voltage compensation device It is characterized by providing a bypass device of the instantaneous voltage compensation device to shut off.

The bypass device of the instantaneous voltage compensation device according to the present invention includes a bypass control unit for controlling the on-off operation of the bypass switch and the bypass semiconductor switch according to the signal transmitted from the instantaneous voltage compensation device; An input side switch SW2 installed between the system and the input side of the instantaneous voltage compensation device; An output side switch SW3 installed between the instantaneous voltage compensator and the load; And a bypass switch SW1 and a bypass semiconductor switch installed between the system and the input side switch SW2 and between the output side switch SW3 and the load.

In an embodiment, the bypass controller receives a normal signal from the instantaneous voltage compensator and turns on the input switch and the output switch of the bypass device during normal operation, and turns off the bypass switch and the bypass thyristor switch to turn off the system power. The power is supplied to the load through the instantaneous voltage compensation device.

In an embodiment, the bypass controller receives a fault signal from the instantaneous voltage compensator and turns on the bypass switch and the bypass semiconductor switch during emergency operation, and turns off the input switch and the output switch to bypass the bypass device. The system power is supplied to the load through the switch.

In an exemplary embodiment, the bypass control unit may be driven in a mode input from the bypass mode, the test mode, and the normal operation mode by the user through the input device of the bypass device.

According to a preferred embodiment of the present embodiment, the bypass device of the instantaneous voltage compensating device of the present invention has a failure of the instantaneous voltage compensating device to minimize the inability to supply power smoothly to the load, thereby preventing damage to the equipment of the load equipment. And, there is an advantage that can prevent the accident by the instantaneous voltage compensation device. In particular, by switching the main input / output and bypass stages, the input / output of the instantaneous voltage compensator can be completely blocked between the system and the load, and the system accident by the instantaneous voltage compensator can be blocked at the source. And it has the advantage of being able to prevent the power supply failure to the load in a double, triple by having a bypass semiconductor switch.

1 is a block diagram showing a bypass device of the instantaneous voltage compensation device according to the present invention.
2 is a circuit diagram illustrating the detailed configuration of SW1, SW2, SW3 shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, a bypass device 100 and an instantaneous voltage compensation device 200 according to the present invention are provided.

The bypass device 100 is electrically connected between the system power source 11 and the load 13. The system power supply 11 is sequentially connected to the input side T1, the input side switch SW2, and the output side end T2 of the instantaneous voltage compensator 200. The load 13 is connected in turn to the output side T4, the output side switch SW3, and the other end T3 of the output side of the instantaneous voltage compensator.

A semiconductor switch driver 14 for driving the semiconductor switch 12 is connected between the input side T1 and the input side switch SW2 via an input transformer TR1, and is connected in parallel with the semiconductor switch 12. The bypass switch SW1 is provided.

Between the output side T4 and the output side switch SW3, the bypass control unit 15 for controlling the bypass device via the output side transformer TR2, and the input device 16 for bypassing by the manual operation of the user are in turn. Connected.

In addition, the compensation control unit 22 for controlling the instantaneous voltage compensation device 200 is connected to the bypass control unit 15 of the bypass device 100, the bypass control unit 15 of the bypass device is the instantaneous voltage compensation A signal transmitted from the compensation control unit 22 of the device is input to turn on or off the bypass semiconductor switch, the bypass switch, the input side switch, and the output side switch.

Then, using the input device 16 of the bypass device 100, a user, for example, an administrator, turns the bypass semiconductor switch, the bypass switch, the input side switch, and the output side switch on and off.

That is, the bypass device of the present invention supports both automatic bypass and manual bypass.

For reference, the instantaneous voltage compensation device 200 according to the present invention includes a semiconductor switch 21, a compensation control unit 22, a thyristor 23, a so-called supercapacitor, that is, a (large capacity) capacitor 24, an LC filter 25, It consists of a transformer TR3 and a charging circuit 26, and reference numerals T1, T2, T3, and T4 mean that they are connected by a connector.

The effects of the bypass device of the instantaneous voltage compensating device having the above-described configuration will be described by dividing it into normal operation and instantaneous voltage drop occurrence.

1) During normal operation

When the system power is supplied to the input side T1 of the bypass device of the instantaneous voltage compensator, power is supplied to the semiconductor switch driver through the transistor switch transformer TR1, and the bypass semiconductor (thyristor) switch of the bypass device is supplied. Is turned on, power is supplied to the load while the power is supplied to the output side T4 of the bypass device, the controller and the transformer T2 for the switch power supply, and the power is supplied to the bypass controller 15.

When power is supplied to the bypass controller 15, the bypass switch SW1 is operated to form an additional bypass, and the bypass semiconductor (thyristor) switch is turned off.

Power is continuously applied to the bypass control unit 15 by the bypass switch SW1.

While the bypass switch SW1 is continuously turned on to drive the instantaneous voltage compensator TPS, the bypass control unit 15 of the instantaneous voltage compensator turns on the input side switch SW2 and the instantaneous voltage compensator TSP. ) Is supplied with power and the compensation control unit 22 of the instantaneous voltage compensator starts to operate.

When the compensation control unit 22 of the instantaneous voltage compensation device 200 is operated, the semiconductor (thyristor) switch for system interruption of the instantaneous voltage compensation device connected in series between the system and the load is turned on, and the instantaneous voltage compensation device (TSP) is turned on. Check the output side (T3) of the power supply to see if there is no problem in the system interrupting semiconductor (thyristor) switch of the instantaneous voltage compensator connected in series between the system and the load. Signals that there is nothing wrong. The bypass control unit 15 turns on the output side switch SW3. After the output switch SW3 is turned on and the bypass switch SW1 is turned off, the system power is supplied to the load in the order of T1-SW2-T2-semiconductor switch 21-T3-SW3-T4. The instantaneous voltage compensation device 200 is in normal operation.

2) When an error occurs in the instantaneous voltage compensation device

When a momentary power failure or an instantaneous voltage drop occurs due to lightning of a system power source, the instantaneous voltage compensator 200 is a semiconductor (thyristor) switch for shutting off a system of an instantaneous voltage compensator connected in series between a system and a load. ) To turn off the system power and the load, and to supply power from the voltage compensation device to the load.

Failure of the instantaneous voltage compensator 200 does not compensate for an instantaneous power failure or instantaneous voltage drop, or does not control the system shut-off semiconductor (thyristor) switch 21 of the instantaneous voltage compensator connected in series between the system and the load. If not, the compensating controller 22 of the instantaneous voltage compensator sends a failure signal of the instantaneous voltage compensator to the bypass controller 15 and the bypass controller 15 receiving the signal turns on the bypass switch SW1. Since the bypass switch SW1 is turned on for several tens of ms to several hundred ms depending on the switch driving method, the bypass semiconductor (thyristor) is used to prevent the power supply from being cut off at the load. Use the switch to supply system power to the load without interruption. Thereafter, in order to protect the instantaneous voltage compensator 200, the system and the load, the input side switch SW2 and the output side switch SW3 are turned off to completely insulate and isolate the instantaneous voltage compensator TSP from the system.

Even when the product is disconnected from the instantaneous voltage compensation device 200 due to the troubleshooting, the instantaneous voltage compensation device 200 is insulated even when the system power is not turned off.

The bypass controller 15 according to the present invention may operate in a bypass mode, a test mode, and a normal operation mode when a user, for example, an administrator directly manipulates an operation state through the input device 16 of the bypass device. .

On the other hand, the above-described bypass switch (SW1), input switch (SW2), output switch (SW3) is composed of a magnetic contactor (magnetic contactor), there are a variety of types of magnetic contactor, but if one of them illustrated FIG. It can be configured as.

As shown in FIG. 2, the magnetic contactor 300 includes a driving coil 301 which generates magnetic force when a current flows, a main circuit contact 302 attached to a three-phase main circuit when the driving coil operates, and a driving coil that operates when the driving coil operates. It consists of an auxiliary circuit contact made up of a contact 303 and a b contact 304 to which the driving coil does not operate.

Therefore, compared with the prior art, the power consumption is low and the heat generation has the effect of reducing the amount of the bypass device 100 as well as the overall stability of the system.

11; System power supply 12; Semiconductor switch
13; Load 14; Semiconductor switch driver
15; Bypass control unit 16; Input device
21; Semiconductor switch 22; Compensation control unit
23; Thyristor 24; Capacitor
25; LC filter 26; Charging circuit
100; Bypass device 200; Instantaneous voltage compensation device
300; Magnetic contactor 301; Driving coil
302; Main circuit contact 303; acontact
304; b contact

Claims (3)

Instantaneous voltage by connecting between the input and output of the instantaneous voltage compensation device that isolates the system and supplies power to the load by using a system shut-off semiconductor switch connected in series between the system and the load when a momentary power failure or voltage drop occurs. In the bypass device of the instantaneous voltage compensation device to supply the system power to the load in case of malfunction or failure of the compensation device and to isolate and isolate the instantaneous voltage compensation device from the system,
A bypass semiconductor switch driver configured to output a bypass signal by receiving power between a system power supply and an input switch of the bypass device;
A bypass semiconductor switch connected between the system power supply and an input side and an output side of the bypass device to switch off the system power supply and the input device and the output side of the bypass device when receiving the bypass signal of the semiconductor switch driver;
A bypass switch connected in parallel with the bypass semiconductor switch;
An input side switch connected between the bypass switch input terminal and the instantaneous voltage compensator to supply or cut off system power to the instantaneous voltage compensator;
An output side switch for sending an output of the instantaneous voltage compensator supplied with power to the input side switch to a load;
The bypass semiconductor switch and the bypass switch or the output side switch are supplied with the output power and the system power of the instantaneous voltage compensator, and control to bypass when an abnormal occurrence and fault occurrence signal sent from the instantaneous voltage compensator is received. Bypass control unit for emitting a signal;
An input device of the bypass device of the instantaneous voltage compensation device for operating the bypass semiconductor switch and the bypass switch, the input switch, and the output switch by the user's manual operation;
The bypass switch, the input side switch, and the output side switch include a drive coil which generates magnetic force when current flows, a main circuit contact of three phases to which the drive coil operates, and a contact and drive coil to which the drive coil operates. A magnetic contactor composed of an auxiliary circuit contact made of a b contact to which it does not operate;
Connected to the input device of the bypass device of the instantaneous voltage compensating device and the control unit of the instantaneous voltage compensating device, and turn on or off the bypass semiconductor switch, the bypass switch, the input side switch, and the output side switch by a user's manual operation. ,
Bypass device of the instantaneous voltage compensation device, characterized in that the lamp for displaying the bypass device status of the instantaneous voltage compensation device is provided in the form of LCD, LED.
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