KR100849463B1 - A harmonic wave reduction apparatus with an overload protection device - Google Patents

Abstract

A harmonic wave reduction apparatus with an overload protection device is provided to absorb and remove a harmonic wave without a manager for inputting power again by connection with a main circuit again by automatically returning a temperature switch below a predetermined temperature. A harmonic wave reduction apparatus(60) with an overload protection device includes a temperature switch(70) inside. The temperature switch is opened and closed according to an internal temperature of the harmonic wave reduction apparatus. A magnetic contactor(50) is provided at input stages of 3-phase lines inputted from a distributing board(40) to the harmonic wave reduction apparatus and is opened and closed according to an operation of a coil(52). The coil constituting the magnetic contactor is connected to the temperature switch.

Description

A harmonic wave reduction apparatus with an overload protection device

The present invention relates to an image harmonic reduction device equipped with an overload protection device, and more particularly, a built-in temperature switch inside the image harmonic reduction device to increase the temperature inside the device due to the temporary generation of a large amount of image harmonics. Open the temperature switch to separate the image harmonics reducing device from the main circuit, and if the temperature of the image harmonics reducing device becomes lower than the set temperature after a certain time, turn on the temperature switch again. The present invention relates to an image harmonic reduction device equipped with an overload protection device for automatic recovery.

In recent years, the use of electric devices that generate a lot of harmonics in industrial sites as well as at home has increased so that the voltage and current waveforms applied to power devices on the power system are distorted under the influence of the harmonics.

Sources of harmonic generation include thyristor applications, rotating devices, transformers, and electronic devices. Damages caused by harmonics can cause overheating of power equipment, abnormal noise vibrations of devices, malfunction of protection devices, communication induction disturbances, and the like. The damage is getting bigger due to overheating of the neutral line (N).

On the other hand, among these harmonics, the third-order high frequency generation, which is the lowest order, is the most cost-effective and more efficient in terms of eliminating high frequency ZigZag transformer type image harmonics reduction devices are currently used.

The ZigZag transformer-type image harmonic reduction device has multiple windings wound around the core and the two phases are connected in opposite directions so that the image magnetic flux is canceled and the normal and reverse magnetic flux are not canceled. Used to absorb and remove harmonics.

However, in general, the image harmonic reduction device increases the temperature inside the image harmonic reduction device according to the load condition that generates harmonics. When the amount of harmonics generated in the system is larger than the capacity of the reduction device, the overload due to overcurrent Heat is generated in the furnace winding and the iron core, and there is a risk that the abatement device may be burned out due to the heat.

Accordingly, in order to prevent the overcurrent due to the harmonics, a circuit breaker is used to protect the image harmonic reduction device. When the current of a current larger than the rated current flows continuously, the circuit breaker is applied to the image harmonic reduction device in the circuit. It is separated and protected.

However, the protection device of the conventional image harmonic reduction device measures only the amount of current flowing into the reduction device from the main circuit and separates and protects the reduction device from the main circuit according to the predetermined magnitude of the current. There is a problem in that it is not corrected and is not efficient in terms of harmonics removal because it operates with the largest current among the three phases (R, S, T) of the power supply.

In addition, in order to reconnect the separated main circuit and the reduction device, power must be supplied again to the circuit and the reduction device. However, when a conventional protection device is used, the power supply is not automatically reconnected. Is required separately, and there is a problem that the abatement device does not perform a function of absorbing harmonics of the main circuit until the manager reconnects power.

As a technology developed to solve this problem, an image harmonic reduction device having an overload protection function of Korean Patent No. 0795037 filed and registered by the same inventor as the present invention is mentioned.

1 is a circuit configuration diagram of an image harmonic reduction device having an overload protection function described in the above-mentioned patent No. 0795037.

As shown, the image harmonic reduction device having an overload protection function is a three-phase line of the power source that is connected through the distribution panel breaker (MCCB1) 11 from the distribution panel 10 consisting of a plurality of circuit breakers (FEEDER MCCB) ( R, S, T) and the neutral line (N) is configured such that the three-phase line (R, S, T) and the neutral line (N) of the connection transformer 21 of the image harmonic reduction device 20 is connected, The temperature switch 30 is interposed on the neutral line N path.

The temperature switch 30 installed on the neutral line N path opens when the internal temperature of the image harmonic reducing device 20 is equal to or higher than the rated temperature, thereby separating the image harmonic reducing device 20 from the main circuit. Accordingly, the current of the three-phase line (R, S, T) that can be caused by overload is no longer introduced into the image harmonics reducing device 20 to prevent burnout of the image harmonics reducing device 20 due to heat.

Subsequently, when the internal temperature of the image harmonic reducing device 20 falls again, the temperature switch 30 is connected again so that the current of the three-phase lines R, S, and T flows back to the image harmonic reducing device 20. The image harmonic reducing device 20 absorbs and removes harmonic currents flowing from the three-phase lines R, S, and T.

However, the above-described technique is provided with a temperature switch 30 on the neutral wire (N), the temperature switch 30 is turned on / off according to the internal temperature of the abatement device more than or less than a certain temperature, the neutral wire in the general circuit If the opening and closing of (N) is repeated, there is a problem that the overall system becomes unstable, such as the voltage of the system rises unstable, and the risk of an accident increases.

The present invention is to solve the above problems according to the prior art. That is, an object of the present invention is to incorporate a temperature switch inside the image harmonic abatement device, and to connect the input terminal of the three-phase line (R, S, T) flowing into the abatement device with the magnetic contactor connected to the temperature switch, inside the abatement device When the temperature rises or falls below a certain temperature, the temperature switch is turned on / off accordingly to open or connect the switch of the magnetic contactor connected to the three-phase line (R, S, T). It is to prevent burnout of the abatement device by overload by separating or energizing it, and to stably operate the entire system without opening and closing of the neutral wire.

The present invention as a technical concept for achieving the above object is configured to be connected to the three-phase line (R, S, T) and the neutral line (N) of the power supply passing through the distribution panel, respectively, input from the distribution panel to the image harmonic reduction device The input terminal of the three-phase line (R, S, T) is provided with a magnetic contactor, the coil constituting the magnetic contactor is configured to be connected to a temperature switch built in the image harmonic reduction device, according to the operation of the temperature switch By configuring the opening and closing of the magnetic contactor connecting the three-phase line (R, S, T) is characterized in that to prevent the overload of the image harmonic reduction device without opening and closing operation of the neutral line (N).

According to the present invention, the image harmonic reduction device for preventing overload has a built-in temperature switch, and when the temperature inside the abatement device rises above a certain temperature, a temperature switch is detected, which is connected to the temperature switch and connected to the main circuit. By opening each switch of the magnetic contactor connected to the three-phase line (R, S, T), the current flowing through each three-phase line (R, S, T) is cut off before entering the image harmonic reduction device, thereby reducing the main circuit and image harmonics. By separating the device automatically, it is possible to more effectively prevent the burnout and the fire of the image harmonic reduction device.

In addition, when the image harmonic abatement device is naturally cooled and lowered below a certain temperature, the temperature switch automatically returns to reconnect the abatement device and the main circuit so that harmonics can be efficiently absorbed and removed without a manager for re-powering. At the same time, by eliminating the opening and closing of the neutral wire in the process of disconnecting and reconnecting the abatement device, the system is maintained more stably, and the safety accidents such as leakage or connection through the abatement device are prevented by blocking the current flowing into the abatement device in advance. There is also an effect that can be prevented in advance.

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

2 is a circuit diagram illustrating the image harmonic reduction device 60 according to an embodiment of the present invention.

As shown, the image harmonic reduction device 60 according to the present invention is configured to be connected to the three-phase line (R, S, T) and the neutral line (N) of the power passing through the distribution panel 40, respectively, the distribution panel ( A magnetic contactor (MC) 50 is provided at an input terminal of the three-phase lines R, S, and T inputted from the 40 to the image harmonic reduction device 60, and a coil 52 driving the magnetic contactor 50. ) Is configured to be connected to the temperature switch 70 built in the image harmonic reduction device (60).

In other words, the three-phase lines (R, S, T) connected to the image harmonic reduction device 60 through the distribution panel 40 are connected to the three switches 51 constituting the magnetic contactor 50, respectively. It is connected to the three-phase line (R, S, T) of the connection transformer 61 of the image harmonic reduction device 60, respectively.

Magnetic contactor (MC) (50) generally has the main function to control the opening and closing of the electrical circuit, overload by starting / stopping the operation state of the device according to the degree of load imposed on the device, such as a motor It is used for the purpose of protecting and controlling the device from damage of the device by, etc., and is usually formed to be selectively operated by the operation of the electromagnet.

In the image harmonic reduction device 60 according to the present embodiment, the temperature switch 70 composed of a bimetal is connected to the magnetic contactor 50, and the temperature switch 70 of the image harmonic reduction device 60 is connected. It can be selectively installed in the iron core or winding, and when the internal temperature of the image harmonics reducing device 60 rises above a certain temperature (OFF), the internal temperature of the image harmonics reducing device 60 is less than a certain temperature If it goes down, it will be operated again.

The on-off temperature difference of the temperature switch 70 is set to about 5 ℃ ~ 15 ℃, preferably there is an operating set temperature difference of about 10 ℃.

For example, the image harmonic reduction device 60 is configured by eliminating frequent on / off repetitive phenomena in the vicinity of the operation set temperature by configuring such that when the temperature is turned off at a temperature of 85 degrees, the temperature must be lowered to 75 degrees to return to the on state. It is desirable to configure to enable a stable automatic operation control.

When the temperature switch 70 is turned off by sensing the internal temperature of the image harmonic reduction device 60 higher than a predetermined temperature through such a configuration, the coil 52 of the magnetic contactor 50 connected to the temperature switch 70. The current flowing in the is cut off, and each switch of the magnetic contactor 50 connected to each of the three phase lines R, S, and T is opened.

When each switch 51 of the magnetic contactor 50 is opened, the image harmonic reducing device 60 is separated from the main circuit, and the current flowing through the three-phase lines R, S, and T is no longer an image harmonic reducing device ( 60) will not enter.

In other words, when the image harmonic current exceeds the rated capacity of the image harmonic reduction device 60 due to the generation of a large amount of temporary image harmonics when the image harmonic current flows into the image harmonic reduction device 60 through the three-phase lines R, S, and T. The temperature switch TS1 detects an internal temperature rise due to heat generated from the iron core and the winding of the image harmonic reducing device 60, and automatically turns off when the temperature is higher than a predetermined temperature. By preventing the harmonic current flowing in the image harmonic reduction device 60 is no longer introduced to prevent burnout of the image harmonic reduction device (60).

On the other hand, when the image harmonic reduction device 60 is naturally cooled after a predetermined time elapses and the internal temperature is lowered below a certain temperature, the temperature switch 70 detects this and automatically turns on the coil 52 of the magnetic contactor 50. Excitation) causes each switch 51 of the magnetic contactor 50 connected to each of the three-phase wires R, S, and T to be turned on again.

Accordingly, the three phase lines R, S, and T of the main circuit are reconnected to the image harmonic reduction device 60 through the magnetic contactor 50, and the image harmonic reduction device 60 is connected to the three phase lines R, S, and T. The function of absorbing and removing harmonic currents flowing from T) is again performed.

As such, the image harmonic reduction device 60 according to the present invention has a built-in temperature switch 70 that detects when the internal temperature of the image harmonic reduction device 60 is more than or less than a predetermined temperature and turns on / off, 3 By controlling the harmonic current flowing into the image harmonic reduction device 60 from the commercial lines R, S, and T, the image harmonic reduction device 60 is prevented from being burned out by the heat generated by the overload, and the neutral line N By maintaining the constant connection state of the system, it is possible to improve the stability of the whole system and reduce the incidence of accidents.

In addition, when an overload is sensed, by blocking the three-phase line (R, S, T) current input to the image harmonic reduction device 60 in advance at the input terminal, a short circuit or short circuit through the image harmonic reduction device 60, etc. There is an advantage in that it can fundamentally prevent safety accidents.

In the present embodiment, the magnetic contactor 50 is interposed at the input terminal of the image harmonic reducing device 60 and the temperature of the magnetic contactor 50 is provided through a temperature switch 70 provided inside the image harmonic reducing device 60. Although the configuration for controlling the operation has been described, the present invention is not limited thereto, and various modifications may be made for the purpose of the present invention.

In other words, each of the three phase lines (R, S, T) contact input to the image harmonic reduction device 60 is provided with one temperature switch 70, and so on. Various configurations for opening and closing the current flow of the three-phase line (R, S, T) input through the temperature switch 70 that operates by sensing the internal temperature is possible.

3 is a flow chart of a harmonic reduction method of the image harmonic reduction apparatus according to an embodiment of the present invention.

As shown, when the state of the temperature switch built in the image harmonic reduction device is ON (S100), the coil of the magnetic contactor is excited and each switch is connected (S110) so that the three-phase line (R, S of the main circuit) T) is connected to the image harmonic reduction device through the switchgear breaker and the magnetic contactor.

The image harmonic reduction device normally performs the harmonic reduction function of the system by introducing and absorbing and removing harmonic currents generated at the load side (S120).

On the other hand, as a large amount of harmonic current flows into the image harmonic reduction device and heat is generated from the iron core and winding of the image harmonic reduction device, the internal temperature of the image harmonic reduction device is raised above the rated temperature, so that the temperature switch is turned on. When not turned off (S100), each switch of the magnetic contactor is opened (S130).

Accordingly, since the harmonic current is no longer introduced into the image harmonic reducing device from the three-phase lines R, S, and T of the main circuit, the image harmonic reducing device and the main circuit are separated (S140).

After a certain time, the image harmonic reduction device naturally cools and the temperature switch is turned on again (S100), the coil of the magnetic contactor is excited again (S110) and connected to the three-phase wire (R, S, T). As a result, the main circuit and the image harmonic reducing device are connected again, and the image harmonic reducing device absorbs and removes harmonic currents flowing from the three-phase lines R, S, and T of the main circuit, thereby reducing the image harmonics due to overload. Prevent burnout.

As such, the image harmonic reduction device for preventing overload has a built-in temperature switch, and when the temperature is higher than the temperature that the winding can withstand, the temperature switch is opened to cut off the current in the coil of the magnetic contactor connected to the temperature switch. Each switch of the magnetic contactor connected to each of R, S, and T is opened to block the harmonic current from entering the image harmonic reduction device from the three-phase wires R, S, and T so that there is no fear of burnout due to heat. do.

Afterwards, when the harmonics reduction device is naturally cooled, it can be operated again, and there is no need for a separate manager. Also, by maintaining the current flow of the neutral wire, it improves the stability of the entire system and reduces the incidence of accidents such as fire.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be obvious to those with knowledge of the world.

1 is a circuit diagram of an image harmonic reduction device having an overload protection function of Korean Patent No. 0795037.

2 is a circuit diagram illustrating an image harmonic reduction device 60 according to an embodiment of the present invention.

Figure 3 is a flow chart for a harmonic reduction method of the image harmonic reduction apparatus according to an embodiment of the present invention.

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

10, 40: distribution board 11: distribution board breaker

20, 60: image harmonic reduction device 21, 61: wiring transformer

30, 70: temperature switch 50: magnetic contactor

51 switch 52 coil

Claims (4)

In the image harmonic reduction device configured to be connected to each of the three-phase line (R, S, T) and the neutral line (N) of the power supply passing through the distribution panel, The image harmonic reduction device has a built-in temperature switch that opens and closes according to the internal temperature of the image harmonic reduction device; The input terminal of the three-phase line (R, S, T) input from the distribution panel to the image harmonic reduction device is provided with a magnetic contactor that is opened and closed according to the operation of the coil; The coil constituting the magnetic contactor is configured to be connected to a temperature switch embedded in the image harmonic reduction device, According to the operation of the temperature switch is configured to open and close the magnetic contactor provided in the input terminal of the three-phase line (R, S, T) to prevent the overload of the image harmonic reduction device without the opening and closing operation of the neutral wire (N). Image harmonic reduction device equipped with an overload protection device. In the image harmonic reduction device configured to be connected to each of the three-phase line (R, S, T) and the neutral line (N) of the power supply passing through the distribution panel, The input terminal of the three-phase line (R, S, T) input from the distribution panel to the image harmonic reduction device, is configured to be connected to each of the three temperature switches that are opened and closed according to the internal temperature of the image harmonic reduction device, In accordance with the internal temperature of the image harmonic reduction device is configured to open and close the three temperature switches respectively provided at the input terminal of the three-phase line (R, S, T) of the image harmonic reduction device without opening and closing operation of the neutral line (N) Image harmonic reduction device equipped with an overload prevention device, characterized in that to prevent the overload. The method according to claim 1 or 2, The temperature switch, Image harmonic reduction device equipped with an overload prevention device, characterized in that consisting of bimetal. The method according to claim 1 or 2, Image harmonics reduction device with an overload prevention device, characterized in that the temperature difference range for determining the on-off operation of the temperature switch is 5 ℃ ° ~ 15 ℃.

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