JP2004282926A - Inverter device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inverter device having reduced power consumption, largely improved in reliability and also reduced in cost. <P>SOLUTION: The inverter device 1 comprises an inverter main circuit 3 for driving a motor 4, and an inverter drive circuit 9 for driving the inverter main circuit 3. The invert drive circuit 9 comprises a frequency command input circuit 13, to which an operation command signal of an inverter frequency is inputted, and a power-on/off circuit for turning on and off an auxiliary power circuit 10, that is a power supply of the inverter drive circuit 9. When the operation command signal inputted to the frequency command input circuit 13 is an operation signal, an auxiliary power supply is turned on by the power-on/off circuit 11. When the operation command signal inputted to the frequency command input circuit 13 is a stopping signal, the auxiliary power supply is turned off by the power-on/off circuit 11. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an inverter device including an inverter main circuit for driving a motor and an inverter drive circuit for driving the inverter main circuit.
[0002]
[Prior art]
Conventionally, an electric motor of a compressor is driven by an inverter device (Patent Document 1). In FIG. 6, AC is a commercial AC power supply of 100 V or 200 V, 101 is an inverter device including an inverter main circuit 3 and an inverter drive circuit 109, 5 is a refrigerant compressor, and 4 is an electric motor for driving the refrigerant compressor 5. It is a phase motor.
[0003]
The inverter main circuit 3 includes a rectifier circuit 2 and a power transistor 6 including a plurality of switching elements. The inverter drive circuit 109 includes a frequency command input circuit 113 and an auxiliary power supply circuit 110. The auxiliary power supply circuit 110 is connected to the rectifier circuit 2 of the inverter drive circuit 109. In addition, 114 is a control circuit, 120 is a mechanical relay having a contact, and C1 is a smoothing capacitor. In the inverter device 1, the voltage of the commercial AC power supply AC is assumed to be 100V.
[0004]
Then, when the relay 120 is turned on by the control circuit 114, the commercial AC power supply AC is rectified by the rectifier circuit 2, smoothed by the smoothing capacitor C1, and then applied to the inverter main circuit 3 and the auxiliary power supply circuit 110. When the operation command signal output from the control circuit 114 is input to the frequency command input circuit 113, the plurality of switching elements of the inverter main circuit 3 are controlled, and a waveform approximating a predetermined three-phase sine wave is transmitted to the motor 4. Is output. Thus, the motor 4 was driven to rotate.
[0005]
On the other hand, the power supply of the inverter device 101 including the inverter main circuit 3 and the inverter drive circuit 109 is turned on / off by a relay 120 provided in the control circuit 114. The relay 120 is provided separately from the inverter device 101.
[0006]
[Patent Document 1]
JP-A-59-213285
[Problems to be solved by the invention]
However, in the conventional inverter device, a relay having a contact is used to turn on / off the power of the inverter device. However, dust and carbon adhere to the contact of the relay while the relay is operating. Therefore, there is a problem that the contact of the relay does not need to be contacted and the reliability of the inverter device is reduced.
[0008]
Further, there is a problem that power is consumed by the auxiliary power supply circuit and the inverter drive circuit even when the placement waveform is not output from the inverter device.
[0009]
Further, when a relay having a contact for turning on / off the power of the inverter device is used, there is a problem that the cost of the inverter device is increased. There is also a problem that power is consumed for driving the relay.
[0010]
The present invention has been made to solve the problems of the related art, and has as its object to provide an inverter device that can reduce costs and greatly improve reliability.
[0011]
[Means for Solving the Problems]
That is, the inverter device of the present invention includes an inverter main circuit for driving a motor, and an inverter drive circuit for driving the inverter main circuit. A frequency command input circuit to which a signal is input, and a power ON / OFF circuit for turning ON / OFF an auxiliary power circuit which is a power source of the inverter drive circuit. When the operation signal is an operation signal, the auxiliary power is turned on by the power ON / OFF circuit, and when the operation command signal input to the frequency command input circuit is a stop signal, the auxiliary power is turned off by the power ON / OFF circuit. The auxiliary power supply circuit can be turned on / off by the operation command signal of the inverter frequency. As a result, the power consumption of the auxiliary power supply circuit and the inverter drive circuit can be greatly reduced when the output waveform from the inverter device is stopped. Further, since a relay for turning on / off the power of the inverter device can be made contactless, for example, a mechanical relay for turning on / off the power of the inverter device, which has been conventionally used, can be eliminated. It is also possible to suppress an increase in power consumption due to the use of a mechanical relay. Therefore, the contact failure of the relay due to the use of the mechanical relay can be reliably avoided, and the reliability of the inverter device can be greatly improved.
[0012]
In the inverter device according to the second aspect of the present invention, since the operation command signal input to the frequency command input circuit is a rectangular wave having a frequency proportional to the inverter frequency, the operation command signal can be simplified. Becomes possible. Therefore, a versatile signal can be used as the operation command signal, and the circuit design cost can be greatly reduced.
[0013]
In the inverter device according to the third aspect of the present invention, the power ON / OFF circuit turns ON / OFF the auxiliary power circuit by the semiconductor switching element, so that the power ON / OFF circuit and the auxiliary power circuit are electrically insulated. It is possible to do. As a result, for example, even when noise is generated in the power supply circuit, it is possible to prevent inconveniences such as noise entering the control circuit and malfunction, and to turn on the power of the conventional inverter device. Even if the relay used for / OFF is abolished, the power of the inverter device can be turned ON / OFF, so that the cost of the inverter device can be reduced. Therefore, it is possible to avoid occurrence of a contact failure of the relay, so that maintenance of the mechanical relay is not required, reliability of the inverter device can be further improved, and power consumption of the relay can be reduced. .
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a block diagram of an inverter device 1 of the present invention. In each figure, the same reference numerals as those in FIG. 6 denote the same elements. In the figure, reference numeral 1 denotes an inverter device, and 4 denotes an electric three-phase motor for driving a refrigerant compressor 5 installed in, for example, a refrigerator or a freezer. The inverter device 1 includes an inverter main circuit 3 and an inverter drive circuit 9, and the inverter device 1 is connected to a rectifier circuit 2 having a commercial AC power supply (in this case, AC 200 V, 50/60 Hz) AC input.
[0015]
A power transistor 6 composed of a plurality of switching elements of the rectifier circuit 2 is connected, and a motor 4 is connected to an output side of the inverter main circuit 3. The collector of TR1A of power transistor 6 is connected to the positive side of rectifier circuit 2, the emitter of TR1A of power transistor 6 is connected to the collector of TR1B of power transistor 6, and the emitter of TR1B of power transistor 6 is connected to rectifier circuit 2. (Fig. 2). The emitter of TR1A of power transistor 6 (collector of TR1B of power transistor 6) is connected to one phase (in this case, U phase) of three-phase motor 4 composed of three phases of U phase, V phase and W phase (not shown). Is done.
[0016]
The collector of the TR2A of the power transistor 6 is connected to the positive side of the rectifier circuit 2, the emitter of the TR2A of the power transistor 6 is connected to the collector of the TR2B of the power transistor 6, and the emitter of the TR2B of the power transistor 6 is rectified. It is connected to the negative side of the circuit 2. The emitter of TR2A of power transistor 6 (collector of TR2B of power transistor 6) is connected to one phase (in this case, V phase) of three-phase motor 4.
[0017]
The collector of TR3A of the power transistor 6 is connected to the positive side of the rectifier circuit 2, the emitter of TR3A of the power transistor 6 is connected to the collector of TR3B of the power transistor 6, and the emitter of TR3B of the power transistor 6 is rectified. It is connected to the negative side of the circuit 2. The emitter of TR3A of power transistor 6 (collector of TR3B of power transistor 6) is connected to one phase (in this case, W phase) of three-phase motor 4. A drive unit 12 is connected to the inverter main circuit 3, and the inverter main circuit 3 outputs a waveform approximated to a predetermined three-phase sine wave to the motor 4 by the drive signal from the drive unit 12, Drive at rotation speed. C1 is a smoothing capacitor.
[0018]
On the other hand, the inverter drive circuit 9 includes an auxiliary power supply circuit 10, a power ON / OFF circuit 11, a drive unit 12, and a frequency command input circuit 13. One of the resistors R3 provided in the power ON / OFF circuit 11 is connected to an output of a control circuit 14 described later, and the other is connected to the base of the transistor TR4. The collector of the transistor TR4 is connected to the base of the transistor TR5, the collector of the transistor TR5 is connected to the base of the transistor TR6, and the collector of the transistor TR5 is connected to, for example, a DC + 5V power supply line of the control circuit 14 (FIG. 3). ).
[0019]
The collector of the transistor TR6 is connected to the auxiliary power supply circuit 10 through the resistor R6, and via the light emitting diode of the photocoupler PC1 (semiconductor switching element) in which the light emitting diode and the light receiving element are provided facing each other at a predetermined interval. It is connected to the ground of the control circuit 14. That is, since the photocoupler PC1 is provided with the light emitting diode and the light receiving element at a predetermined interval, the light emitting diode side and the light receiving element side are electrically insulated. Further, the emitter of the transistor TR4 is connected to the ground of the control circuit 14. The emitter of the transistor TR5 and the emitter of the transistor TR6 are connected to a power supply line of the control circuit 14. The collector of the transistor TR5 is connected to the power supply line of the control circuit 14 and the ground via the capacitor C2, the resistor R4, and the resistor R5, and the connection point between the resistor R4 and the resistor R5 is the base of the transistor TR6 (collector of the transistor TR5). It is connected to the.
[0020]
Here, the control circuit 14 outputs a rectangular wave signal having a duty ratio of 1/2 and a frequency proportional to the frequency of the inverter to the frequency command input circuit 13 and the power ON / OFF circuit 11 (FIG. 4). The signal of the control circuit 14 becomes an operation command signal. That is, when the operation command signal is a rectangular wave (upper in FIG. 4), it is an operation signal, and when the operation command signal is a non-rectangular stop signal (lower in FIG. 4), the operation is a stop signal. The frequency of the rectangular wave is doubled, for example, 120 Hz when the output frequency of the power transistor 6 is 60 Hz. The inverter device 1 for driving the rotation of the motor 4 includes an inverter main circuit 3 and an inverter drive circuit 9.
[0021]
On the other hand, in the frequency command input circuit 13, one of the resistors R1 is connected to the output of the control circuit 14, and the other is connected to the ground of the control circuit 14 via the light emitting diode of the photocoupler PC2 (semiconductor switching element). The collector side of the photocoupler PC2 is connected to the power supply line of the drive unit 12 via the resistor R2, and the emitter side of the light receiving element is connected to the ground of the frequency command input circuit 13. The technique of transmitting signals from the light emitting diode side to the light receiving element side by the photocouplers PC1 and PC2 is a well-known technique, and a detailed description thereof will be omitted.
[0022]
One of the light receiving elements of the photocoupler PC1 is connected to the input of the power supply driving IC 30 of the auxiliary power supply circuit 10, and the other is connected to the ground (FIG. 5). The output of the power supply driving IC 30 is connected to the base of the transistor TR7, and the collector of the transistor TR7 is connected to the positive side of the rectifier circuit 2 via the primary coil of the pressure reducing transformer 31. One of the secondary coils of the pressure reducing transformer 31 is connected to the output smoothing capacitor C3 of the auxiliary power supply circuit 10 via the rectifier diode D1, and the other is connected to the ground of the inverter main circuit 3.
[0023]
The operation command signal of the control circuit 14 may be a temperature sensor provided in the refrigerant compressor 5 and a refrigerant circuit (not shown) constituting the refrigerant compressor 5 or a frequency command input circuit 13 based on an operation command signal from another. Output to When the operation command signal input to the frequency command input circuit 13 is an operation signal (rectangular wave), the power supply (auxiliary power supply) of the auxiliary power supply circuit 10 is turned on by the power supply ON / OFF circuit 11. When the operation command signal input to the frequency command input circuit 13 is a stop signal, the power supply ON / OFF circuit 11 turns off the auxiliary power supply.
[0024]
When a signal is output from the control circuit 14, the power ON / OFF circuit 11 of the inverter device 1 operates to turn on the auxiliary power circuit 10, apply a predetermined voltage to the drive unit 12, and operate the drive unit 12. The frequency command input circuit 13 outputs a command signal to the drive unit 12, and the drive unit 12 that has received the signal drives the inverter main circuit 3 to operate the motor 4. When the operation command signal from the control circuit 14 is a stop signal, the power ON / OFF circuit 11 turns off the auxiliary power circuit 10 and stops the operation of the drive unit 12. The drive unit 12 stops driving the inverter main circuit 3 and stops the operation of the motor 4.
[0025]
Specifically, when the signal output from the control circuit 14 by the power ON / OFF circuit 11 is an operation signal, the transistor TR4 is turned ON / OFF and the transistor TR5 is turned ON / OFF. When the transistor TR5 is turned on / off, the transistor TR6 is turned off and the light emitting diode of the photocoupler PC1 is turned off. When the photocoupler PC1 is turned off, the power supply drive IC 30 is turned on, the transistor TR7 is driven, and the voltage reduced by the pressure reducing transformer 31 is applied to the drive unit 12, and the inverter main circuit 3 is driven by the drive signal from the drive unit 12 for a predetermined voltage. A waveform approximated to a phase sine wave is output to the motor 4, and the motor 4 is driven at a predetermined rotation speed.
[0026]
When the signal output from the control circuit 14 is an operation stop signal, the power supply ON / OFF circuit 11 turns off the transistor TR4 and turns off the transistor TR5. When the transistor TR5 turns off, the transistor TR6 turns on, and the light emitting diode of the photocoupler PC1 emits light and turns on. When the photocoupler PC1 is turned on, the power supply driving IC 30 is turned off and the transistor TR7 is turned off, so that the operation of the pressure reducing transformer 31 is stopped and the power is not applied to the drive unit 12, so that the inverter main circuit 3 stops the operation of the motor 4. I do. Thereby, the power consumption of the auxiliary power supply circuit 10 and the drive unit 12 can be eliminated.
[0027]
As described above, the frequency command input circuit 13 to which the operation command signal of the inverter frequency is input to the inverter drive circuit 9 and the power supply ON / OFF for turning ON / OFF the auxiliary power supply circuit 10 which is the power supply of the inverter drive circuit 9. And a circuit 11. If the operation command signal input to the frequency command input circuit 13 is a rectangular wave, the auxiliary power is turned on by the power ON / OFF circuit 11 to operate the inverter drive circuit 9 and input to the frequency command input circuit 13. When the operation command signal is a stop signal, the auxiliary power supply is turned off by the power supply ON / OFF circuit 11 to stop the operation of the inverter drive circuit 9. 10 can be turned ON / OFF. Thereby, the power consumption of the auxiliary power supply circuit 10 and the drive unit 12, that is, the power consumption of the inverter drive circuit 9 can be eliminated.
[0028]
In addition, since a relay for turning on / off the power of the inverter device 1 can be made contactless, a mechanical relay for turning on / off the power of the inverter device 1 which has been conventionally used is eliminated. It becomes possible. Further, since the mechanical relay used conventionally can be deleted, it is possible to suppress an increase in power consumption due to the use of the mechanical relay. As a result, it is possible to reliably avoid a contact failure of the relay due to the use of the mechanical relay, and it is possible to greatly improve the reliability of the inverter device 1.
[0029]
Further, since the operation command signal input to the frequency command input circuit 13 is a rectangular wave having a frequency proportional to the inverter frequency, it is possible to prevent malfunction due to external noise. As a result, the operation command signal can be simplified, so that a versatile rectangular wave signal can be used as the operation command signal, and the circuit design cost of the inverter device 1 can be significantly reduced. What.
[0030]
Further, since the power ON / OFF circuit 11 is configured to turn ON / OFF the auxiliary power circuit 10 by the photocoupler PC1, it is possible to electrically insulate the control circuit 14 from the auxiliary power circuit 10. Become. Thus, for example, even when external noise enters the power supply circuit, it is possible to prevent inconvenience such as malfunction of the control circuit 14 due to noise sneaking into the control circuit 14.
[0031]
In addition, since the auxiliary power supply circuit 10 is turned on / off by the photocoupler PC1, the power supply of the inverter device 1 can be turned on / off even if the relay conventionally used for turning on / off the inverter power supply is abolished. Becomes possible. As a result, the cost of the inverter device 1 can be reduced. Therefore, it is possible to avoid occurrence of a contact failure of the relay used conventionally, so that maintenance of the mechanical relay is not required, and the reliability of the inverter device 1 can be further improved.
[0032]
【The invention's effect】
As described above in detail, according to the present invention, in an inverter device including an inverter main circuit for driving a motor and an inverter drive circuit for driving the inverter main circuit, the inverter drive circuit operates at an inverter frequency. A frequency command input circuit for inputting a command signal, and a power ON / OFF circuit for turning on / off an auxiliary power circuit which is a power supply of the inverter drive circuit; an operation command signal input to the frequency command input circuit; Is an operation signal, the auxiliary power is turned on by the power ON / OFF circuit, and if the operation command signal input to the frequency command input circuit is a stop signal, the auxiliary power is turned off by the power ON / OFF circuit. Therefore, the auxiliary power supply circuit can be turned on / off by the operation command signal of the inverter frequency. Thus, the power consumption of the auxiliary power supply circuit and the driving unit, that is, the power consumption of the inverter driving circuit can be eliminated. Further, since a relay for turning on / off the power of the inverter device can be made contactless, for example, a mechanical relay for turning on / off the power of the inverter device, which has been conventionally used, can be eliminated. It is also possible to suppress an increase in power consumption due to the use of a mechanical relay. Therefore, a contact failure due to the use of a mechanical relay can be reliably avoided, and the reliability of the inverter device can be greatly improved.
[0033]
According to the second aspect of the present invention, since the operation command signal input to the frequency command input circuit is a rectangular wave having a frequency proportional to the inverter frequency, the operation command signal is simplified. It becomes possible. Therefore, a versatile signal can be used as the operation command signal, and the circuit design cost can be greatly reduced.
[0034]
According to the third aspect of the present invention, in the above, the power ON / OFF circuit turns ON / OFF the auxiliary power circuit by the semiconductor switching element, so that the power ON / OFF circuit and the auxiliary power circuit are electrically connected. It becomes possible to insulate. As a result, for example, even when noise is generated in the power supply circuit, it is possible to prevent inconveniences such as noise entering the control circuit and malfunction, and to turn on the power of the conventional inverter device. Even if the relay used for / OFF is abolished, the power of the inverter device can be turned ON / OFF, so that the cost of the inverter device can be reduced. Therefore, it is possible to avoid occurrence of contact failure of the relay, so that maintenance of the mechanical relay is not required, and the reliability of the inverter device can be further improved.
[Brief description of the drawings]
FIG. 1 is a block diagram of an inverter device according to the present invention.
FIG. 2 is a circuit diagram of an inverter main circuit diagram.
FIG. 3 is a circuit diagram of an inverter drive circuit.
FIG. 4 is a diagram of an operation command signal of a control circuit.
FIG. 5 is a circuit diagram of an auxiliary power supply circuit.
FIG. 6 is a block diagram of a conventional inverter device.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 inverter device 2 rectifier circuit 3 inverter main circuit 4 motor 5 refrigerant compressor 6 power transistor 9 inverter drive circuit 10 auxiliary power circuit 11 power ON / OFF circuit 12 drive unit 13 frequency command input circuit 14 control circuit 30 power drive IC
31 Decompression transformer AC Commercial AC power supply PC1 Photocoupler PC2 Photocoupler

Claims (3)

In an inverter device including an inverter main circuit for driving a motor, and an inverter drive circuit for driving the inverter main circuit,
The inverter drive circuit includes a frequency command input circuit to which an operation command signal of an inverter frequency is input, and a power supply ON / OFF circuit for turning on / off an auxiliary power supply circuit that is a power supply of the inverter drive circuit.
When the operation command signal input to the frequency command input circuit is an operation signal, the auxiliary power is turned on by the power ON / OFF circuit,
An inverter device, wherein when the operation command signal input to the frequency command input circuit is a stop signal, the auxiliary power is turned off by the power ON / OFF circuit. The inverter device according to claim 1, wherein the operation command signal input to the frequency command input circuit is a rectangular wave having a frequency proportional to the inverter frequency. 3. The inverter device according to claim 1, wherein the power ON / OFF circuit turns on / off the auxiliary power circuit by a semiconductor switching element.

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