KR100944468B1 - Connection structure of fault detection devices for reactors and short circuit switch for these reactors to limit motor starting current and method of fault detection using the same - Google Patents

Abstract

The present invention relates to a fault detection device for detecting faults of a motor starting current limiting reactor and a reactor short-circuit switch unit. Reactor short-circuit reactor and reactor short-circuit switch unit, characterized in that it comprises a structure of a reactor short circuit switch unit installed in series with the motor for each phase and a reactor for limiting the starting current connected in parallel to the upper end The present invention relates to a fault detection device for detecting a fault.

Motor, Current Limit, Reactor, Fault Detection, Reactor Protector

Description

Connection structure of fault detection devices for reactors and short circuit switch for these reactors to limit motor starting current and method of fault detection using the same}

The present invention relates to a fault detection device for detecting faults of a motor starting current limiting reactor and a reactor short-circuit switch unit. Reactor short-circuit reactor and reactor short-circuit switch unit, characterized in that it comprises a structure of a reactor short circuit switch unit installed in series with the motor for each phase and a reactor for limiting the starting current connected in parallel to the upper end The present invention relates to a fault detection device for detecting a fault.

In general, there are various problems caused by the current of 5 ~ 7 times at the start of full voltage in the starting (starting) of large-capacity three-phase squirrel cage induction motor, so the current limiting method is used to prevent this. It is done. One of these methods is to install a starting current limiting reactor. When the motor starts, current flows through the reactor, and the counter electromotive force is generated in the reactor, so the voltage is limited. . After the start is completed, the reactor short circuit breaker is turned on and the current flows from the power supply directly to the motor without going through the reactor to operate.

If a fault such as an interlayer short circuit occurs in the starting reactor, the faulty reactor does not play a role of limiting the current during initial start-up of the motor, so a large current flows into the motor. Significant impacts will occur on the surrounding equipment.

In the reactor starting method, the conventional reactor fault detection method is to install a temperature detecting sensor on the winding or iron core of the starting reactor and operate when the temperature is over the set temperature to detect the failure state of the reactor and to measure the starting reactor. A method of detecting overcurrent by installing two current detection sensors (CT) is used. However, the temperature detection method may take a long time to determine the fault condition, and the method using two CT current detection sensors (CT) may fail when the reactor in the phase that does not have a current detection sensor installed. There is a disadvantage that can not detect.

In addition, if the contactor of reactor short circuit breaker (VCB, VCC, VCS, MC,) is defective and is not opened even after the start is completed, it opens to the motor side through the starter reactor connected in parallel corresponding to this fault phase. Since the current flows continuously, the starting reactor, which is rated for a short time, may generate heat and spread to burnout and short circuit accidents.

The present invention is to prevent the burnout of the starting reactor and to detect the burnout state and to effectively detect the burnout of the breaker for the starting reactor short circuit in the starting reactor method that is widely used among the large-capacity high-pressure, low-pressure induction motor starting (starting) method I would like to present a method.

An accident occurs because the contactor of short circuit contactor (VCB, MC, VC, VCS) that short-circuits the starter reactor is short-circuit among the starting reactors installed for the purpose of starting the motor. There is a problem.

In addition, the starting reactor is manufactured at a short-term use rating (1, 3, 5 minutes, etc.) at the time of manufacture, and the motor load current is continuously passed through the starting reactor winding due to poor contact of the starting reactor short circuit contactor. If the flow occurs to the burnout and the reactor is burned, there is a problem that occurs even if the power outage, burnout of peripheral devices and fire accidents.

The present invention relates to a fault detection device for detecting faults of a reactor for limiting the starting current of a motor and a switch for short circuiting of a reactor, and a detection method using the same. In the structure of the reactor short circuit switch unit installed in series at each stage just before and the start current limiting reactor connected in parallel to the upper end of the reactor, it is possible to prevent the burnout of the starting reactor and the fault location and the breaker of the reactor direct connection. Electrical signals (voltage, current, power factor) at the start of the motor acquired through current or voltage sensors (CT, PT) prepared to find the status and fault location quickly and accurately and electrical signals (voltage, current, power factor) at operation It is configured to set the signal value at normal time as a reference value and to compare and determine the signal value generated at the time of failure.

Here, it is a software part that accurately detects whether there is a fault or not, and a hardware part that detects current and voltage from the sensor and processes it into analysis data. Are distinguished.

The present invention can effectively detect the failure of the starting reactor and the failure state of the reactor short circuit breaker in the fault detection device for detecting faults of the motor starting current limiting reactor and the reactor short circuit switch unit. As a result, damage to the facility and surrounding facilities can be reduced by preventing the burning and spreading of the starting reactor in advance.

According to the present invention, in the reactor connection structure connected to the motor, the reactor 60 is provided for each phase in the reactor short switch unit 50 installed at the front end of the motor 70 which is operated by receiving power from three phases. Is connected in parallel, the reactor protector 10 is connected to the upper end of each reactor 60 to detect the failure of the reactor 60 and the reactor short switch unit 50.

Here, the reactor short switch unit 50 is operated after a predetermined time when the power is supplied through the reactor 60 during the initial driving of the motor 70 to flow the current directly to the motor.

In addition, the reactor protector 10 is connected between the reactor short switch unit 50 and the motor 70 through a voltage or current detection sensor to detect a failure of the reactor 60.

And, the current detection sensor (CT) connected to the front end or the bottom of the reactor 60 is composed of a structure using any one of the connection method 'Y' connection or 'open delta' (open Δ) connection method. It is done.

In addition, a current detecting sensor 81 (CT: Current Transformer) or a voltage detecting sensor 81 is provided at the top or the bottom of the reactor 60 to supply a signal by detecting a voltage or current to the reactor protector 10. It is additionally installed.

In addition, the connection method between the reactor protectors 10 connected to the voltage detecting coil 80 installed at the top or bottom of the reactor 60 may be any one of a 'Y' connection or an 'open delta' (open Δ) connection method. The connection is made using one thing.

In addition, the overall configuration of the reactor fault current limiting device connection structure for the motor starting current is the power switch unit 30 connected to the lower end of the cable between the power supply unit 20 and the motor 70 for supplying power to the motor 70, respectively. Wow; A main switch unit 40 connected to a lower end of the power switch unit 30 for switching the starting and stopping of the motor; A reactor short switch unit 50 connected to the lower end of the main switch unit 40 for the motor and switched after being driven by the motor 70; An electric motor 70 driven when the power switch unit 30 and the main switch unit 40 for the motor are connected to each other; It is connected to the power switch unit 30 and the power supply unit 20 by a copper conductor, and is connected between the power switch unit 30 and the motor main switch unit 40 to detect a failure state of the reactor and the reactor short circuit switch unit. A reactor protector; One side is connected between the main switch unit 40 for the motor and the reactor short switch unit 50, and the other side is the lower end of the reactor short switch unit 50, that is, the upper end of the reactor short circuit switch unit 50. A reactor 60 connected in parallel to flow a high voltage current during initial driving of the motor 70; And a reactor protector 10 connected to one side of the reactor 60 and the other side of the reactor 60 to detect failure of the reactor 60 and the reactor short switch unit 50.

The method using the present invention is as follows.

In the reactor failure detection method using a reactor fault detection device connection structure for limiting the starting current of the motor, the initial driving current supplied from the power supply unit 20 is transferred to the motor 70 through the reactor 60 connected in parallel with three phases. When the electric motor 70 is driven by the voltage current transmitted through the reactor 60, the current flowing to the reactor 60 does not fail when one or two or more of the reactors 60 are broken. When a large current flows, the current or the voltage induced by the current is detected by the reactor protector 10 connected to the upper end of the reactor 60, and detecting whether there is a failure by comparing with the voltage and current, that is, the power factor, when the current is normal. It is made to include.

At this time, when the reactor short switch unit 50 connected to the reactor protector 10 fails, a current is passed through the reactor 60, and then each switch of the reactor short switch unit 50 is connected after a predetermined time. After the initial drive of the ground, the current is supplied to the motor 70 through this switch. When the switch breaks down, the current is supplied to the motor 70 through the reactor 60, so the initial drive is completed in the reactor protector 10. After the measurement, the voltage and the current of the reactor 60 are measured to detect the failure of the reactor short switch unit 50.

That is, the present invention will be described in more detail with reference to the following examples.

When the main switch 40 for the motor is inserted to start the motor, power is supplied from the power supply unit 20 consisting of three phases to the motor 70 through the motor starting reactor 60 and the reactor 60. ) Depressurizes the applied power by the ratio set by the reactor 60 and applies the motor 70 to the motor 70. As a result, the motor 70 is initially driven, and the power is set through the reactor 60. After being applied for a time, the reactor short switch unit 50 is connected to continuously apply the power applied to the reactor 60 to the motor 70 to drive the motor 70 continuously.

The reactor protector 10 is connected to the upper end of the reactor 60 to measure the voltage and current of the reactor 60 and compares the normal voltage, current and power factor to detect the difference between the normal state and the user. Informs to the user, if the failure of the reactor short switch unit 50 is a normal operation, the power applied to the reactor short switch unit 50 is part or all of the switch of the reactor short switch unit 50 is broken or the like The contact state of the switch contact is poor so that the current is continuously flowing through the reactor 60 to detect whether the reactor short switch unit 50 is broken.

At this time, the 'Y' connection method and the 'open delta' (open Δ) connection method are used in connecting the current detection sensor CT and the reactor protector 10 installed at the power terminal or the load terminal of the reactor 60. In order to be used as a signal for the protector by the voltage detection method, the voltage detection sensor installed at the top or the bottom of the reactor is also connected to the Y 'connection method and the' open delta '(open Δ) connection method.

1 is an enlarged view in which a current measuring sensor is attached to an upper part of a reactor in a reactor fault detection device connection structure for limiting a starting motor according to the present invention;

2 is an enlarged view of a current measuring sensor attached to the bottom of the reactor of the reactor fault detection device connection structure for limiting the motor starting current according to the present invention;

FIG. 3 is an overall configuration diagram in which a sensor for detecting a current input to a reactor protector of a reactor fault detection device connection structure for limiting the starting current of the motor according to the present invention is connected to an upper end of the reactor;

4 is an overall configuration diagram in which a sensor for detecting a current input to the reactor protector of the reactor fault detection device connection structure for limiting the motor starting current according to the present invention is connected to the bottom of the reactor;

5 is an overall configuration diagram in which a sensor for detecting a current input to a reactor protector of a reactor fault detection device connection structure for limiting the starting current of the motor is connected to the upper end of the reactor in a 'Y' connection manner;

6 is an overall configuration diagram in which a sensor for detecting current input to the reactor protector of the reactor fault detection device connection structure for limiting the starting current of the motor is connected to the bottom of the reactor in a 'Y' connection manner;

7 is an overall configuration diagram in which a sensor for detecting current input to the reactor protector of the reactor fault detection device connection structure for limiting the motor starting current according to the present invention is connected to the top of the reactor in an 'open delta' (open Δ) connection method. ,

8 is an overall configuration diagram in which a sensor for detecting a current input to a reactor protector of a reactor fault detection device connection structure for motor starting current limiting according to the present invention is connected to the bottom of the reactor in an 'open delta' (open Δ) connection method. ,

9 is a sensor for detecting a voltage input to the reactor protector of the reactor fault detection device connection structure for limiting the starting current of the motor according to the present invention, the lower voltage detection coil of the reactor is installed and the 'Y' connection at the lower end of the voltage detection coil The whole schematic, connected in a way,

10 is a sensor for detecting a voltage input to the reactor protector of the reactor fault limiting device connection structure for limiting the starting current of the motor according to the present invention is installed with a lower voltage detection coil of the reactor and the 'open delta' at the bottom of the voltage detection coil (Open Δ) The overall schematic diagram connected in a wiring method.

<Explanation of symbols for the main parts of the drawings>

10: reactor protector 20: power supply

30: power switch part 40: motor start / stop switch part

50: reactor short circuit switch section 60: reactor

70: motor 80: voltage detection coil

81: current detection sensor (C.T: Current Transformer)

Claims (10)

In the connection structure of the reactor connected to the motor, The reactor 60 is connected in parallel to the upper end of the reactor short circuit switch unit 50 installed at the front end of the electric motor 70 operating by receiving power from three phases, and the reactor is connected to the upper end of the reactor 60. A failure detection device for detecting a failure of the reactor starting current limiting reactor and the reactor short circuit switch, characterized in that the protector (10) is connected to detect a failure of the reactor (60) and the reactor short circuit switch (50). The method of claim 1, The reactor short-circuit switch unit 50 is operated after a predetermined time when the power is supplied through the reactor 60 during the initial driving of the motor 70, so that the electric current starts to flow directly to the motor 70. A fault detection device that detects faults in the current limiting reactor and the reactor short switch unit. The method of claim 1, The reactor protector 10 is connected between the lower end of the reactor 60 and the reactor short circuit switch 50 and the motor 70 to detect a failure of the reactor 60, characterized in that for detecting the motor starting current And a fault detection device for detecting faults in the switch section for reactor short circuit. The method of claim 1 or 3, The reactor protector 10 connected to the top or bottom of the reactor 60 has a connection method of a current detection sensor (CT) of 'Y' connection or 'open delta' (open Δ) connection method. A fault detection device for detecting faults in a motor starting current limiting reactor and a reactor short-circuit switch unit, which are connected using one of them. The method of claim 1, The reactor 60 is connected between the top or bottom and the reactor short circuit switch 50 and the motor 70, the voltage detection coil 80 is added to the top or bottom of the reactor 60 is detected A failure detection device for detecting a failure of the motor starting current limiting reactor and the reactor short-circuit switch unit, characterized in that it is formed integrally. The method of claim 5, The connection method between the voltage detection coil 80 and the reactor protector additionally installed at the top or bottom of the reactor 60 is connected using any one of a 'Y' connection or an 'open delta' (open Δ) connection method. And a fault detection device for detecting faults in the motor starting current limiting reactor and the reactor short-circuit switch unit. The method of claim 1, Motor starting current limiting, characterized in that the voltage detection sensor 81 is attached to the top or bottom of the reactor 60 or the cable end of the reactor protector 10 connected to the bottom of the voltage detection coil (80). A failure detection device that detects a failure of a reactor and a switch section for reactor short circuit. The method of claim 1, The overall configuration of the reactor fault detection device connection structure for limiting the motor starting current includes a power switch unit 30 connected to a lower end between the power supply unit 20 for supplying power to the motor 70 and the motor 70, and the It is connected to the lower end of the power switch unit 30 is connected to the motor start, stop switch unit 40 for starting or stopping the motor, and the lower end of the motor start, stop switch unit 40 to drive the motor 70 It is connected to the lower end of the reactor short-circuit switch unit 50 and the reactor short-circuit switch unit 50 to be switched back, the power switch unit 30, the motor start, stop switch unit 40, reactor short circuit switch unit When all of the 50 is connected, the motor 70 is driven, and is connected between the power switch unit 30 and the power supply unit 20, the motor start, stop switch unit 40 and the reactor short switch unit ( 50) One side is connected between The other side is connected in parallel to the lower end of the reactor short-circuit switch unit 50, that is, the upper end of the motor start / stop switch unit 40, and the reactor 60 through which current flows during the initial driving of the motor 70; And a reactor protector 10 connected to one side of the reactor 60 and the other side of the reactor 60 to detect failure of the reactor 60 and the reactor short circuit switch unit 50. A fault detection device for detecting faults in the motor starting current limiting reactor and the reactor short circuit switch unit. Reactor fault detection method using a reactor fault detection device connection structure for limiting the starting current of the motor, The initial driving current supplied from the power supply unit 20 is transmitted to the motor 70 through the reactor 60 connected in parallel with the three phases, and the motor 70 is supplied with the voltage current transmitted through the reactor 60. If one or two or more reactors 60 fail in the process of being driven, if the current flowing to the reactor 60 flows with a larger current than the reactor 60 which has not failed, this voltage or current is applied to the top of the reactor 60 or The reactor current limiting reactor and the reactor short-circuit switch unit, characterized in that the detection by the reactor protector 10 connected to the lower end by comparing the voltage or current or power factor or power when the current is normal; Fault detection method using a fault detection device for detecting faults. The method of claim 9, In case of failure of the reactor short circuit switch unit 50 connected to the reactor protector 10, when a current is passed through the reactor 60, the respective switches of the reactor short circuit switch unit 50 are connected after a predetermined time. After driving, the current is supplied to the motor 70 through the switch. When the switch breaks down, the current is supplied to the motor 70 through the reactor 60. After the initial driving is completed in the reactor protector 10, the reactor is completed. Using the fault detection device for detecting the fault of the reactor starting current limiting reactor and the reactor short circuit switch, characterized in that by detecting the voltage and the current of (60) to detect the failure of the reactor short circuit switch unit (50) Fault detection method.

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