KR101446308B1 - Open-phase recovery device equipped with transformer - Google Patents

Abstract

The present invention relates to an open-phase recovery device equipped with a transformer. The open-phase recovery device equipped with a transformer according to one embodiment of the present invention includes inductance (iron core, coil). According to one embodiment of the present invention, the inductance (iron core, coil) includes a first lag, a second lag, and a third lag. The legs include a first wire, a second wire, and a third wire. More particularly, in an aspect of the present invention, the open-phase recovery device equipped with a transformer can include other embodiments.

Description

[0001] The present invention relates to an open-phase recovery device equipped with a transformer,

(R, S, T, N) or a three-phase three-wire (R, S, T) power distribution system having a transformer in a power phase of a power distribution system. More particularly, It prevents the unbalanced power (voltage, current) from being generated when the power line is formed or the neutral line is formed and the normalized voltage is maintained by recovering the formed power line and neutral line. And more particularly, to an image restorer having a transformer that improves unbalance and attenuates image harmonics to prevent waste of electric power due to power quality degradation and prevent electric accidents occurring during image formation.

In an information society, electricity is like an artery, and managing it is an important starting point for improving the quality of life.

Generally in the power distribution system, the 22.9 kv-y power distribution system supplies power directly from a substation to a large customer such as a factory or a building through a 3-phase 4-wire distribution line, or through a secondary transformer to a small- To the power supply.

In order to ensure stable use of electricity, it is managed through various relay devices in stages.

The electric utility is transmitted by ultra-high voltage for energy efficiency, and as it goes down to the car user in the lower house, it is converted to a lower voltage step by step through the transformer.

The relay detects the input voltage and current to detect the overcurrent / overvoltage / phase / reverse / ground fault current and operates the circuit breaker (CB) So that the fault of the car customer can be prevented from propagating to the electric appliance side or the fault of the electric appliance side can be prevented from propagating to the car customer side so that the entire system network can be stably operated.

The most typical operation during relay operation is over current and phase loss.

Generally, the overcurrent is present in the load, so that the car customer's relay can sense the load current and shut off the load.

Therefore, the relay operation by the most common overcurrent occurs by individual operation, and only the upper relay which operates the overcurrent should operate.

If the generated overcurrent was a large current that could operate up to the top relay (electric carrier relay), the upper relay would also block the upper breaker by overcurrent operation, which would cause a major accident to shut down all the car users connected to the electric carrier at the same time .

Therefore, in order to suppress such an operation, the overcurrent relay has various operating conditions such as a predetermined time / inverse time / early time, and the operation time is variablely operated according to the magnitude of the overcurrent.

In other words, the operation time of the lower overcurrent relay is set to be faster than the operation time of the upper overcurrent relay, and the load that generates the overcurrent is separated from the system in a short time, so that the entire system can be stably operated.

Therefore, when the overcurrent relay is operated under all general conditions, it is easy to know that the overcurrent is generated at the bottom of the operated relay, and it is possible to find the cause of the fault within a short period of time.

In addition, the phase-change relay, which is a common relay operation in the field, operates the relay when any phase of the three phases does not emit a voltage, that is, when an image occurs.

An image is a case where a circuit of one phase is disconnected from the network, and the cause thereof is disconnection of a fuse, disconnection of a line, disconnection of a transformer, disconnection of a circuit breaker, and the like.

When an image is formed, power is not supplied to one phase in the case of a load, and thus a fatal problem occurs in a system using a three-phase.

Therefore, it is necessary to detect and block it within a short time.

However, the operation of the imaging relay is different from that of the overcurrent relay, so it is not easy to actively detect the area where the imaging occurs.

However, in the above-mentioned conventional art, in a power distribution system having a phase-change relay in a power line or neutral line image-forming phase in a three-phase four-wire or three-phase three-wire power distribution system, an image-forming relay is used to block the breaker, However, there is a problem that the enormous damage caused by the unexpected power failure can not be solved.

Therefore, if a power line or a neutral line image formation occurs in a power distribution system that does not have an image forming relay, an electric accident occurs in which power is unbalanced or overcurrent is burnt out or a fire is caused, There was a problem that the whole of the customer who received electricity from the damaged power distribution system was blacked out.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The problem to be solved by the present invention is to prevent generation of power unbalance, overcurrent and overvoltage during power line image formation or neutral line image formation in a three-phase four-wire or three-phase three-wire power distribution system, to maintain a steady voltage, And to provide a phase recovery device having a transformer in which image harmonics flowing in a neutral line can be reduced by circulating in a coil connected by a delta (there is a lot of reference data when searching in a search window).

Another problem to be solved by the present invention is to provide an image restorer having a transformer that prevents damage to the load-side electrical apparatus due to unbalance, overcurrent, and overvoltage during image formation of the power distribution system, or secondary damage due to power failure.

Another object to be solved by the present invention is to provide an image restorer having a transformer capable of reducing generation of harmonics, which is a cause of neutral line failure, to prevent burnout of the neutral line, .

According to an aspect of the present invention, there is provided an image restoration device including a transformer,

1. An image reconstruction apparatus for reconstructing an image of a power line,

A phase inductance (iron core, coil) for recovering an image of a power line and a neutral line is recovered and recovery of the power phase of the power line and the neutral line is recovered by using power of a normal phase other than the phase phase power, And an inductance for maintaining the inductance.

The inductance,

A first winding, a second winding, and a third winding, which are windings wound on the legs, each of which has a first leg, a second leg, and a third leg for restoring the phase of the image, And recovering an image by summing the inverse phases of the other windings other than the phases connected to the phase-connected power lines.

Wherein the first winding is wound on the first leg so that one end is connected to a power line and the other end is connected to a neutral line, and the second leg and the third leg are wound in the reverse direction of the winding wound on the first leg, The third leg and the first leg are connected to the power line and the other end is connected to the neutral line, the second winding is wound on the second leg, one end is connected to the power line, and the other end is connected to the neutral line, And the other end is connected to the neutral line, the third winding is wound on the third leg, one end is connected to the power line, the other end is connected to the neutral line, and the other end is connected to the neutral line, The first leg and the second leg are wound in a direction opposite to the winding wound on the third leg so that one end is connected to the power line and the other end is connected to the neutral line.

The first and second legs are wound on the first leg so that one end is connected to the power line and the other end is connected to the neutral line. The third leg and the second leg are wound in opposite directions of the windings wound on the first leg, The first leg and the third leg are connected to a power line and the other end is connected to a neutral line, the second winding is wound around the second leg, one end is connected to a power line, and the other end is connected to a neutral line, And the other end is connected to the neutral line, the third winding is wound on the third leg, one end is connected to the power line, the other end is connected to the neutral line, and the other end is connected to the neutral line, And the second leg and the first leg are wound in a direction opposite to the winding wound on the third leg so that one end is connected to the power line and the other end is connected to the neutral line.

Wherein the first winding is wound on the first leg so that one end is connected to a power line and the other end is connected to a neutral line, and the second leg and the third leg are wound in the reverse direction of the winding wound on the first leg, And the other end is connected to the neutral line, and the third leg and the first leg are connected to the neutral line, the second winding is wound around the second leg, one end is connected to the power line, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the power line, and the other end is connected to the neutral wire, The first leg and the second leg are wound in the opposite direction to the windings wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral wire.

The first and second legs are wound on the first leg so that one end is connected to the power line and the other end is connected to the neutral line. The third leg and the second leg are wound in opposite directions of the windings wound on the first leg, And the other end is connected to the neutral line, and the first leg and the third leg are connected to the neutral line, the second winding is wound on the second leg, one end is connected to the power line, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the power line, and the other end is connected to the neutral wire, The second leg and the first leg are wound in the opposite direction to the windings wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral wire.

Wherein the first winding is wound on the first leg so that one end thereof is connected to the switch and the other end is connected to the neutral wire and the second leg and the third leg are wound on the opposite side of the winding wound on the first leg, And the other end is connected to the neutral line, and the third leg and the first leg are connected to the neutral line, and the second winding is wound around the second leg so that one end is connected to the switch, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the switch, the other end is connected to the neutral wire, and the other end is connected to the neutral wire, The first leg and the second leg are wound in the opposite direction to the windings wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral wire.

The first and second legs are wound on the first leg so that one end is connected to the switch and the other end is connected to the neutral line. The third leg and the second leg are wound in opposite directions of the windings wound on the first leg, And the other end is connected to the neutral line, and the first leg and the third leg are connected to the neutral line, and the second winding is wound around the second leg so that one end is connected to the switch, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the switch, the other end is connected to the neutral wire, and the other end is connected to the neutral wire, The second leg and the first leg are wound in the opposite direction to the windings wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral wire.

The image forming restorer is connected to the power line to improve unbalance and to reduce image harmonics by circulating a coil connected to the delta wiring.

According to the present invention, when an image is formed in a power line and a neutral line (N) in a three-phase four-wire or three-phase three-wire power distribution system, an image of a power line and a neutral line is recovered, , It is possible to prevent the abnormal power generation due to the image formation between the power line and the neutral line, to maintain the power unbalance at the power balance, to circulate and remove the generated image harmonics, and to continuously supply the normal power to the load side.

Further, according to the present invention, it is possible to prevent burning of the load device due to image formation, prevent power failure due to image formation, and prevent secondary accident caused by power failure.

FIG. 1 is a schematic diagram of a vector and an image reconstruction device for image reconstruction.
2 is a configuration diagram of an image restoration device installed in a conventional distribution system.
3 is a circuit diagram of an image reconstruction apparatus having a switch capable of operating in conjunction with a conventional built-
4 is a circuit diagram of an image restor with a transformer according to a preferred embodiment of the present invention.
5 is a block diagram of an image reconstruction apparatus using a conventional image forming relay.

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

FIG. 1 is a basic circuit diagram and a vector diagram of an image reconstruction apparatus, and includes an inductance.

When the image reconstruction machine 200 is implemented as a single product and commercialized, the image reconstruction machine 200 can be easily applied to existing installed power equipment.

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

The image formation restorer 200 is connected to the power lines R, S, T (not shown) provided in the power supply device 100 of the three-phase four-wire type (R, S, T, N) To perform a function of maintaining the normal power when the power line is formed or when the neutral line is formed and the image is restored and the image harmonics are reduced (the harmonics are circulated in the delta wiring with different phases) .

The image reconstruction unit 200 has an inductance for restoring the phase imaged using the phases of the power lines R, S, T or different from the phase of the image formed during the neutral line image formation, Waits while decreasing the current, and restores the imaged phase using the opposite phase of the normal two phases when the power line is formed.

Here, in order for the image reconstruction apparatus 200 to recover the image and to repair the image of the power distribution system that has been burned, it is necessary for the administrator to recognize the formed power line. That is, it is difficult for the image reconstruction unit to recognize the phase of the power line itself even if the image reconstruction unit itself is restored. Therefore, it is preferable to realize the alarm (visual and audible) generation function of the existing built-in relay during power line image formation by using the existing image forming relay.

Further, it is also possible to operate the image-forming restorer at power-line image-forming or neutral-line image-forming using the image-forming relay. If the image forming and recovering machine is provided with the switch M1 for image forming restoration, it is preferable to include the switch M1 in the image forming and repairing machine because it is possible to realize anyone who is engaged in the electric job.

According to the above configuration, when the power line image is formed or when the neutral line image is formed, the switch provided in the image forming apparatus is operated by the control signal of the image forming relay, and the alarm function or alarm of the image forming relay, It is preferable to further include an image-forming relay.

The image-formation restoring unit in the image-forming operation of the power distribution system according to the present invention configured as described above can be configured to be installed in a power supply apparatus such as a power distribution apparatus as a power supply apparatus 100, a transformer, a distribution board, and an electric distribution board.

At this time, if the power line or the neutral line is formed, the three-phase or single-phase loads are burned or fired, the operation of the phase protection relay or the operation of the circuit breaker stops the electricity supply, leading to a power failure, , Causing damage to the industrial wires that process and produce the product during the blackout period in which the cause of the image is found and repaired after the occurrence of the image.

In order to prevent such an accident in advance, in the present invention, the image-formation restorer 200 is connected to the normal power line to perform image reconstruction of a power line and a neutral line when an image is formed between a power line and a neutral line, reduce power imbalance, To the coil connected to the delta.

More specifically, FIG. 1 shows a vector diagram of the Y wiring and the V wiring. S, T, and legs 120, 130, and 140 of the image reconstruction device connected to the power line simultaneously with the image formation of the power line, assuming that the R phase of the power line of the power supply device 100 is formed. ), The two powers of the S phase and the T phase are supplied to the image formation restorer 200 without the power of the R image formed, and the Y connected image reconstruction apparatus 200 connected to the power line of the power supply apparatus 100 A magnetic flux is formed in the legs of the S 130 and T 140 by the coils Ss and Tt wound on the T phase and the S phase of the coils Ss and Tt wound on the T phase legs, , Tt) are electromagnetically induced and the coil (Rs, Rt) connected to the power line R is electromagnetically induced so that the phase (vector) opposite to that on the S (130) When the phase is made to be the same as that of the R phase 120 in the wound order and power is supplied, the R phase leg 120 is also wound on the R phase by the coil Rr, which is Y- It is formed to be the normal power. More specifically, when the power line R, which is the power line (R, S, T) of the power supply, is a phase (vector) based on the power line R, (Vector) with respect to the R phase (vector) is rotated by 180 degrees when the S phase (vector) shifted to the right by 120 degrees and the S phase and the T phase (vector) (Vector) is 60 degrees centered on the R phase (vector), that is, the S phase (vector) and the S phase The T phase (vector) becomes a phase (vector) maintaining 120 degrees. When the phase of S and the phase of T (vector) which maintain this state are added by 1: 1 respectively, the phase of R phase is generated and appears. Therefore, the phase of the formed power line is recovered and the normal power is maintained.

It also reduces the current imbalance and reduces harmonics of the image to prevent damage to the distribution equipment such as neutral line overheating, medium line breakdown, transformer, etc., and restoring power quality to save wasted power and prevent accident caused by power failure. have.

Meanwhile, when it is determined that the power line or the neutral line is formed by using the conventional built-in relay, the control signal is immediately transmitted to the switch of the image-forming restorer and the alarm generator is driven. In the present invention, an alarm is generated using a visual alarm and / or an audible alarm (the description of the phase relays and the alarm generation is made by a user of a related job type Avoid detailed description because it is common technology).

If the administrator recognizes this in the presence of a visual and / or audible alarm, it will quickly follow up and prevent any accidents that may occur due to powerline imaging.

For example, according to the present invention, it is possible to prevent uneven power imbalance caused by image formation between a power line and a neutral line of a power supply apparatus, to reduce image harmonics, to prevent burnout of electrical equipment on a load side, It is possible to prevent waste of electric power. In addition, when an electric power line and neutral line image occurs, an alarm is generated and the manager can recognize it, and the manager can take a follow-up action promptly. By this, it is possible to prevent a fire due to overheating, overvoltage and overcurrent It is possible to prevent an accident such as a system failure caused by the system.

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

R, S, T ... Phase of three phases
R1, S1, T1 ... 3 phases (primary or secondary)
N ... Neutral line
Rt ... The power line (coil) on R is wound on the phase of T phase
Rs ... When the power line (coil) on R is wound on the phase S phase
Rr ... When the power line (coil) on R is wound in the phase of R phase
St ... The power line (coil) of the S phase is wound on the phase of the T phase
Ss ... When the power line (coil) of S phase is wound in the phase of S phase
Sr ... When the power line (coil) of S phase is wound on the phase of R phase
Tt ... The power line (coil) on T is wound on the phase in phase T
Ts ... The power line (coil) on T is wound on the phase S phase
Tr ... The power line (coil) on T is wound on the phase of R phase
100 ... Power supply
120 ... The first leg
130 ... Second leg
140 ... Third leg
170 ... Coil (first winding, second winding, third winding)
200 ... Image-formation restorer
M1 ... Switch (magnet switch or electronic switch)

Claims (9)

1. An image restoration device for phase-recovering an image of an electric power line and a neutral line to a power supply device,
An image-forming restorer having an inductance (iron core, coil) is a device in which when one of three phases (R, S, T) is formed and two power phases (R, S or S, T or T, R) And converts the two power phases (R, S or S, T or T, R) into a power phase of opposite (180 degrees) on the basis of the neutral point N or the earth E, And the inductance outputting the T phase, summing the converted S phase and the T phase to output the R phase, and summing the converted T phase and the R phase to output the S phase. An image restorer. 4. The inductance sensor according to claim 1,
A first winding, a second winding, and a third winding, which are windings wound on the leg, having first legs, second legs, and third legs for recovering the formed phase, Wherein the phase-recovering means restores the phase of the phase-reversal phase of the other windings other than the phase-connected winding connected to the phase-locked power line to recover the phase-recovering phase. The method according to claim 2,
Wherein the first winding is wound around the first leg so that one end is connected to a power line and the other end is connected to a neutral line, and the second leg and the third leg are wound in opposition to windings wound on the first leg, The second leg is wound on the second leg so that one end is connected to the power line and the other end is connected to the neutral line, and the third leg and the first leg are connected to the power line, and the other end is connected to the neutral line, The other end is connected to the neutral line, the third winding is wound on the third leg, one end is connected to the power line, and the other end is connected to the neutral line Wherein the first leg and the second leg are wound in a direction opposite to the winding wound on the third leg so that one end is connected to the power line and the other end is connected to the neutral line. Image reconstruction. The method according to claim 2,
The first and second legs are wound on the first leg so that one end is connected to the power line and the other end is connected to the neutral line. The third leg and the second leg are wound in opposite directions of the windings wound on the first leg, The first leg and the third leg are connected to a power line and the other end is connected to a neutral line, the second winding is wound around the second leg, one end is connected to a power line, and the other end is connected to a neutral line, And the other end is connected to the neutral line, the third winding is wound on the third leg, one end is connected to the power line, the other end is connected to the neutral line, and the other end is connected to the neutral line, Wherein the second leg and the first leg are wound in a direction opposite to the winding wound on the third leg so that one end is connected to the power line and the other end is connected to the neutral line. Image reconstruction. The method according to claim 2,
Wherein the first winding is wound on the first leg so that one end is connected to a power line and the other end is connected to a neutral line, and the second leg and the third leg are wound in the reverse direction of the winding wound on the first leg, And the other end is connected to the neutral line, and the third leg and the first leg are connected to the neutral line, the second winding is wound around the second leg, one end is connected to the power line, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the power line, and the other end is connected to the neutral wire, Wherein the first leg and the second leg are wound in a direction opposite to the winding wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral line. Image reconstruction. The method according to claim 2,
The first and second legs are wound on the first leg so that one end is connected to the power line and the other end is connected to the neutral line. The third leg and the second leg are wound in opposite directions of the windings wound on the first leg, And the other end is connected to the neutral line, and the first leg and the third leg are connected to the neutral line, the second winding is wound on the second leg, one end is connected to the power line, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the power line, and the other end is connected to the neutral wire, Wherein the second leg and the first leg are wound on the third leg opposite to the winding wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral line. Image reconstruction. The method according to claim 2,
Wherein the first winding is wound on the first leg so that one end thereof is connected to the switch and the other end is connected to the neutral wire and the second leg and the third leg are wound on the opposite side of the winding wound on the first leg, And the other end is connected to the neutral line, and the third leg and the first leg are connected to the neutral line, and the second winding is wound around the second leg so that one end is connected to the switch, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the switch, the other end is connected to the neutral wire, and the other end is connected to the neutral wire, Wherein the first leg and the second leg are wound in a direction opposite to the winding wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral line. Image reconstruction. The method according to claim 2,
The first and second legs are wound on the first leg so that one end is connected to the switch and the other end is connected to the neutral line. The third leg and the second leg are wound in opposite directions of the windings wound on the first leg, And the other end is connected to the neutral line, and the first leg and the third leg are connected to the neutral line, and the second winding is wound around the second leg so that one end is connected to the switch, The other end is connected to the neutral wire, the third winding is wound around the third leg, one end is connected to the switch, the other end is connected to the neutral wire, and the other end is connected to the neutral wire, Wherein the second leg and the first leg are wound on the third leg opposite to the winding wound on the third leg so that one end is connected to the switch and the other end is connected to the neutral line. Image reconstruction. 4. The inductance sensor according to claim 1,
Wherein the transformer is connected to a power line provided in the power supply device to improve the unbalance and to reduce the image harmonics by circulating a coil connected to the delta connection.

Images