KR101479241B1 - Three phase power single phase control circuit - Google Patents

Abstract

The present invention is characterized in that a circuit for driving a single-phase load by using each phase power of a three-phase power source is provided with a switch for selecting a phase of the single-phase power source, Phase power supply single-phase control circuit that can prevent single-phase circuit breakage due to 3-phase fault and phase voltage unbalance due to load concentration by selecting phase of single-phase power supply.

Description

[0001] The present invention relates to a three-phase power supply,

The present invention relates to a three-phase power supply single-phase control circuit capable of selecting a phase of a single-phase power supply to drive a single-phase load using each phase power supply of the three-phase power supply.

In recent years, with the rapid development of analog and digital technologies, electric appliances equipped with advanced functions are rapidly spreading to homes and work sites.

The increase of such electric appliances increases the use of electric power. Especially, in the case of a system air conditioner installed for indoor air conditioning in a large building having a plurality of separate spaces such as a school, a company, and a hospital, Since a plurality of indoor units having the shape and the capacity are connected, the power consumption is large.

In order to supply power to electric appliances such as system air conditioners, a three-phase power supply is used because the three-phase power supply has less pulsation and more power than a single-phase power supply.

A three-phase power source has three sinusoidal voltages with the same amplitude and frequency, each having a phase difference of 120 ° and flowing in three phases (R, S, T). Each of the three phases (R, S and T) A three-phase four-wire system in which an N phase is a ground wire is generally used as shown in FIG.

In the case of the three-phase four-wire power supply shown in Fig. 1, the voltage between RS, ST and TR except for the ground wire (N phase) is 380 V and one of R, S, And N phase, that is, the voltage between NR, NS, and NT is 220V, and the load can be used for both single phase and three phase loads.

When these 3-phase 4-wire power supply is connected to the outdoor unit of the system air conditioner, R, S, T 3 phase is used to supply electric power for driving the compressor, and N phase and R, S, One phase is used to supply power to drive the single-phase fan motor and the fan motor controller.

However, in order to reduce the installation cost, the power terminal block 10 of the system air conditioner is installed in the outdoor unit without installing the power interrupter in the outdoor unit. However, in the case of the system air conditioner, the outdoor unit is installed with power line from the distribution panel, And is used after checking the test operation.

However, when the power is turned on without checking the wiring because the distribution board is far from the outdoor unit, the single-phase load (fan motor) due to 3-phase power supply failure (when 380V voltage is supplied to 220V rated single- Controller, and fan motor) may be damaged. If there are a plurality of outdoor units, the single phase load may concentrate on one phase, causing the overcurrent breaker of the switchboard to operate, causing voltage unbalance, and causing noise or bearing wear.

The present invention relates to a three-phase power supply which is provided with a switch for selecting a phase of a single-phase power source by using a phase-change power source of a three-phase power source, Phase control circuit.

To this end, a single-phase control circuit for a three-phase power supply according to an embodiment of the present invention includes a load for receiving and driving each phase power of a three-phase power supply; A switch for selecting an image of a single-phase power source supplied to the load; And a controller for detecting an upper power source of the single-phase power source and controlling the load, wherein the controller detects the power source of the single-phase power source and transmits the detected power source to the network controller.

The switch is a rotary switch for selecting a power source of one of the R, S, and T phases based on a ground line (N phase), and is characterized as being normally OFF.

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And the network controller monitors the power source of the single-phase power source to control the phase balance of the three-phase power source.

Wherein the single phase control circuit of the three phase power source is provided in a system for driving three phase and single phase loads connected to a three phase four wire type power source.

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

FIG. 2 is a single-phase control circuit diagram of a three-phase power supply according to an embodiment of the present invention, which includes a three-phase four-wire type power supply terminal block 10 for supplying three- Phase load 20 (hereinafter, referred to as a first load) and a single-phase load (specifically, a fan motor) by detecting a three-phase load and a three- A system controller 40 for controlling driving of a load 30 (hereinafter referred to as a second processor), and a network controller 50 for monitoring a three-phase four-wire power source through network communication with the system controller 40.

A first magnet switch 22 is provided between the three-phase four-wire type power source terminal block 10 and the first load 20 to be turned on and off under the control of the system controller 40, A second magnet switch 32 that is turned on and off under the control of the system controller 40 and a sub controller 34 that controls the driving of the second load 30 are provided between the first load 10 and the second load 30 .

The system control unit 40 includes a three-phase power detection unit 41 for detecting power sources for R, S and T 3 except for a ground line (N phase) Phase power source detecting unit 42 for detecting the power between the phases of the first and second loads 20 and N and the three phase and single phase power sources detected by the three phase and single phase power source detecting units 41 and 42, A first load driving part for turning on and off the first magnet switch 22 to drive the first load 20 under the control of the main controller 43, A second load 30 for turning on / off the second magnet switch 32 to turn on the second load 30 under the control of the main controller 43 and for operating the sub-controller 34, The driving unit 45 and the operation states of the first and second loads 20 and 30 by the three-phase and single-phase power sources and the power source of the single-phase power source are transmitted to the network controller 50 through network communication And a communication unit (46).

Also, a single-phase power source selecting rotary switch 60 (FIG. 1) is provided between the three-phase four-wire type power source terminal block 10 and the single-phase power source detecting portion 42 to select one of R, S and T 3 phases with reference to a ground wire (N phase). Hereinafter, a single-phase power source selection switch is provided to allow the user to select an image of the single-phase power source after confirming the three-phase power source, and to be shipped in a normal OFF state.

Hereinafter, the operation and effect of the single-phase control circuit of the three-phase power supply configured as described above will be described.

One embodiment of the present invention relates to a control circuit for driving a single-phase load in a system using a three-phase four-wire power source (specifically, an outdoor unit of a system air conditioner).

In the early stage of system installation, install power line from power distribution panel to installation site and connect to 3-phase 4-wire power terminal block (10). The single-phase power source selection switch 60 provided in the three-phase four-wire type power source terminal 10 is set to the OFF state when the system is shipped, so that one of R, S and T 3 phases is selected based on the ground wire (N phase).

When the switch (not shown) of the distribution board is turned on after the wiring work of the distribution board and the system is completed, power is supplied from the distribution board, so that the voltage between each phase is measured using a general circuit tester in the three- Check. The voltage between RS, ST, and TR except for the ground wire (N phase) in the three-phase four-wire type is 380 V. The voltage between one phase of R, S, The voltage between NS and NT is 220V.

As a result of checking the power source, if the N phase is changed to correct the wiring and the three phases are connected to the second load 30, which is a single-phase load rated at 220V, the single-phase power source selection switch 60 Is in the off state, it is possible to prevent breakage of the circuit portion using the single-phase power supply.

As a result of checking the power source, when single-phase power source selection switch 60 is off, one of R, S, and T 3 phases is selected so that single-phase power is supplied to second load 30.

As shown in FIG. 3, the three-phase four-wire power supply has the voltage between the phase voltages of R, S and T 3 based on the ground line (N phase) and the voltages of RS, ST and TR except for the ground line , And inputted in a sinusoidal waveform with a phase difference.

Therefore, the system controller 40 detects the phase rotation direction of the supplied three-phase power source with the phase difference as shown in FIG. 3 through the three-phase power source detection unit 41 and then controls the first load driving unit 44, And drives the first load 20 by operating the switch 22. If the phase rotation direction of the three-phase power source is a reverse phase, a failure occurs due to the reverse rotation of the first load 20, thereby causing an error and preventing the first load 20 from being driven.

Also, the system controller 40 detects the power source of the single-phase power source through the single-phase power source detector 42 for time or other control, 41 and the single-phase power detection unit 42, the waveforms shown in FIGS. 4 to 7 are obtained.

FIG. 4 is a power detection waveform diagram when a single-phase power source R is connected in a steady state of a three-phase power source according to an embodiment of the present invention. FIG. FIG. 6 is a power detection waveform when a single-phase power source T is connected in a steady state of a three-phase power source according to an embodiment of the present invention, and FIG. 6 7 is a power supply detection waveform diagram when a mis-wiring of a three-phase power supply according to an embodiment of the present invention is connected to a single-phase power supply R phase.

Therefore, the system controller 40 can check the time sequence of the waveforms shown in FIGS. 4 to 7 so as to know which phase of R, S, or T the three-phase reverse phase and the single-phase power supply are using, Phase power source selection switch 60 so that the second load 30 of each system is uniformly applied to each phase.

When the entire power source is connected and the first and second loads 20 and 30 operate normally, the network controller 50 can monitor the three-phase power through the communication unit 46 provided in the system control unit 40 As the power source of single phase power source is known, phase equilibrium operation is added as necessary to prevent phase unbalance due to load concentration so that the system can operate stably.

FIG. 1 is a diagram showing voltages across phases of a general three-phase four-wire power supply.

2 is a single-phase control circuit diagram of a three-phase power supply according to an embodiment of the present invention.

3 is a voltage waveform diagram of a three-phase power supply according to an embodiment of the present invention.

4 is a power detection waveform diagram when a single-phase power source R is connected in a steady state of a three-phase power source according to an embodiment of the present invention.

5 is a power detection waveform diagram when a single-phase power source S phase is connected in a steady state of a three-phase power source according to an embodiment of the present invention.

6 is a power detection waveform diagram when a single-phase power source T is connected in a steady state of a three-phase power source according to an embodiment of the present invention.

7 is a power supply detection waveform diagram when a mis-wiring of a three-phase power supply according to an embodiment of the present invention is connected to a single-phase power supply R phase.

Description of the Related Art [0002]

10: three-phase four-wire type power terminal 20, 30: first and second load

40: system controller 41: three-phase power detector

42: Single-phase power source detection unit 43:

44, 45: first and second load driving units 46:

50: network controller 60: single phase power selection switch

Claims (6)

A load which is driven by supplying each phase power of the three-phase power supply; A switch for selecting an image of a single-phase power source supplied to the load; And a control unit for detecting the phase power supply of the single-phase power supply and controlling the load, Wherein the controller detects the power source of the single-phase power source and transmits the detected power source to the network controller. The method according to claim 1, The switch is a three-phase power supply single-phase control circuit, which is a rotary switch that selects one of the R, S, T 3 phases relative to the ground wire (N phase). The method according to claim 1, Wherein the switch is a rotary switch in a normal OFF state. delete The method according to claim 1, Wherein the network controller monitors the used power of the single-phase power supply to control the phase balance of the three-phase power supply. The method according to claim 1, Phase control circuit of the three-phase power supply is a three-phase power supply single-phase control circuit provided in a system for driving three-phase and single-phase loads connected to a three-phase four-wire power supply.

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