KR200306494Y1 - Three-phase power reduced Device using Mutual compensation induction - Google Patents

Abstract

The present invention changes the shape of the winding to minimize the imbalance of current and voltage of three-phase power, and adjusts the voltage deviation of the primary and secondary by using a magnetic contactor, and the coil of each phase This connection relates to the application of a power reduction system that induces magnetic flux interaction to cut off and improve the harmonic noise that impedes the power system.

The three-phase power reduction device using the mutual offset induction of the present invention has a power line having an input (R, S, T) and an output (u, v, w), and a turn ratio of each phase determined to maintain power. ) Has a technical feature of being composed of two magnetic contacts connected to an end portion of the voltage induction winding part and 1: 1 of the voltage induction winding part.

Therefore, the three-phase power reduction device using the mutual offset induction of the present invention has the effect of maximizing the efficiency of the power consumption of the rear stage compared to the input power consumption of the front stage.

Description

Three-phase power reduced device using mutual offset induction

The present invention relates to a three-phase power reduction device using mutual offset induction, more specifically, a power line having inputs (R, S, T) and outputs (u, v, w), which are determined to maintain power. It relates to two magnetic contactors connected to the end of the voltage-induced winding and the voltage-induced winding in which the turn ratio of each phase is 1: 1: 1: 1.

According to Korean Patent No. 1994-026867, there is a three-phase automatic transformer having a balancing function to improve the efficiency of the electrical devices connected to the automatic transformer because the imbalance between the three phase voltages and currents can be eliminated.

However, in the conventional three-phase automatic transformer as described above, the balance between the three-phase input voltage and input current, and the three-phase output voltage and output current is automatically maintained. There is a problem in that the voltage deviation of the car cannot be adjusted.

Therefore, the present invention is to solve the above-mentioned disadvantages and problems of the prior art, to minimize the current and voltage imbalance of the three-phase power by changing the shape of the winding (Winding), using a magnetic contactor and the primary and It is an object of the present invention to provide a power reduction system that adjusts the voltage deviation of the secondary, and the wiring of the coils of each phase induces magnetic flux mutual cancellation to cut off the harmonic noises that impede the power system.

1 is a circuit diagram of the present invention.

2 is a connection diagram of the present invention.

3A is a test circuit diagram showing an unbalance of power of a conventional design.

3b is a test circuit diagram showing the power balance of the present invention.

((Explanation of symbols for main part of drawing))

R, S, T: power lines on the input side of each phase of a three-phase circuit

u, v, w: power lines on the output side of each phase of a three-phase circuit

, , : Voltage induction winding part on the primary side of each phase of a three phase circuit

, , : Induction winding part of secondary phase of each phase of 3-phase circuit

The above object of the present invention is a power line 61 having an input (R, S, T) and an output (u, v, w), the number of turns ratio of each phase determined to maintain power is 1: 1: 1: 1 It is achieved by a three-phase power reduction device using the mutual offset induction consisting of the voltage induction winding portion 71 and the two magnetic contactors (41, 51) connected to the end of the voltage induction winding portion.

Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

1 is a circuit diagram of the present invention.

The device comprises a power line 61 having inputs (R, S, T) and outputs (u, v, w), the turn ratio of each phase determined to maintain power, 1: 1: 1: 1. The voltage induction winding part 71 and two magnetic contactors 41 and 51 connected to the ends of the voltage induction winding part.

Powered on R, R11 is wired to S22 wound in the forward direction, and S22 wound in the reverse direction is again wound in forward direction by connecting to R13 and connected to S24. S21, which is also supplied with S phase, is connected to T32 wound in the forward direction, and T32 wound in the reverse direction is again connected to S23 and wound in the forward direction, and connected to T34. Similarly, T31, which is supplied with power, is connected to R12 wound in the forward direction, and R12 wound in the reverse direction is connected to T33 and wound in the forward direction, and connected to R14.

The turns ratio of each phase is 1: 2: 1, and when the power is used, the current on the power supply side of the front end is in equilibrium due to mutual cancellation of magnetic flux even if the load side is somewhat unbalanced. At this time, the form of electromotive force generated by mutual cancellation of interlinked magnetic fluxes has the characteristic of filtering noise and harmonics unlike the general voltage induction control device, resulting in power consumption improvement and power factor improvement effect. Will also be brought.

S24, which is connected to R13 on R and wound in the reverse direction, is again connected to R15 and connected to S26 that is wound in the forward direction, and S26, wound in the reverse direction, is connected to R17 to finish the winding in the forward direction. Also in S phase, T34, which is connected to S23 and wound in the reverse direction, is again connected to S25 and connected to T36 that is wound in the forward direction, and T36, which is wound in the reverse direction, is connected to S27 to finish winding in the forward direction. In addition, R14, which is connected to T33 and wound in the reverse direction, is connected to T35 and connected to R16 that is wound in the forward direction, and R16, wound in the reverse direction, is connected to T37 to finish winding in the forward direction.

The turns ratio of each phase is 1: 1: 1: 1, and the unbalance of the phase voltages of each phase is balanced in the process of repeating the forward and reverse windings. This is because they use the jarrow in common.

The voltage of each phase is different from the primary and secondary voltages according to the voltage characteristics of the power used, the power properties (harmonic generation, the failure caused by the equipment used). In this case, a magnetic contactor having a small voltage deviation may be selected among two magnetic contactors having different voltage variations of each phase, thereby selecting a voltage of each phase having a small deviation in the first and second phases.

FIG. 2 shows a circuit diagram of FIG. 1.

3a and 3b are tested through a simulator (Simulator) to confirm the actual performance of the present invention, Figure 3a is a test of the prior art, Figure 3b is a test of the technology of the present invention. Through the above test it can be seen that the technique of the present invention is equilibrated with a remarkable difference than the prior art. The result is a direct impact on power usage and a significant increase in power gain.

Therefore, the three-phase power reduction device using the mutual offset induction of the present invention has advantages such as smoothing of current and voltage imbalance, improvement of harmonic noise, and no leakage magnetic flux. There is an effect to maximize the efficiency of the power used.

Claims (2)

A three-phase power reduction device using mutual offset induction comprising a power line 61 having an input (R, S, T) and an output (u, v, w) and a voltage induction winding portion determined to maintain power. In The voltage induction winding part 71 having a turn ratio of each phase of 1: 1: 1: 1; Wow The three-phase power reduction device using mutual offset induction, characterized in that consisting of two magnetic contacts (Magnetic Contactor, 41, 51) connected to the end of the voltage induction winding. The method of claim 1, The magnetic contactor (41, 51) is a three-phase power reduction device using mutual offset induction, characterized in that to select one of the two to adjust the voltage deviation of the primary and secondary.