KR101537708B1 - Apparatus and method for controlling single-phase induction motor - Google Patents

Abstract

A single-phase induction motor control apparatus and method are disclosed. The present invention provides a switching device such as a triac in each of a main winding line and an auxiliary winding, detects an input voltage and controls the switching devices so as to be robust against fluctuation of an input voltage and to operate stably and efficiently even in a low voltage region, The motor itself can be protected from overvoltage. Accordingly, the present invention can reduce the manufacturing cost and increase the operating efficiency and the reliability by controlling the opening time of the auxiliary winding.

Single Phase Induction Motor, Voltage, Switch

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a single phase induction motor control apparatus and a single phase induction motor control apparatus,

The present invention relates to a single-phase induction motor, and more particularly, to a single-phase induction motor control apparatus and method that can operate stably and efficiently in a voltage unstable state or a low-voltage region.

Generally, an induction motor is composed of a stator with windings, and a rotor made of permanent magnets, aluminum conductors or iron cores. Such an induction motor is a device for generating a rotational power by generating a change in a periodic current in a winding mounted on the stator and generating a torque in the rotor by a constant change of the magnetic field according to a change in current.

A single-phase induction motor is a small-sized electric motor used for household appliances generally having an output of 400 W or less, and uses a commercial power source for household use, that is, a single-phase AC power source. These single-phase induction motors are mainly used in household appliances such as electric fans, air conditioners, refrigerators, and washing machines, and provide rotational power necessary for the fans, rotary blades, and compressors.

However, in the single-phase induction motor, when an AC power is applied to the single-phase winding, an induced current flows, but the electromagnetic forces generated in the conductors in the upper and lower portions of the rotor are canceled each other and an alternating magnetic field in which the magnitude changes in the direction of the axis of the winding So that it is impossible to generate a rotational force. Accordingly, a single-phase induction motor requires a starting device for starting the single-phase induction motor. The single-phase induction motor is classified into a split starter type, a shading coil type, a condenser starter type, and a repulsive starter type.

 1 is a circuit diagram schematically showing a general condenser operation type single-phase induction motor. 1, the single-phase induction motor includes a main winding 20, an auxiliary winding 30, a positive temperature coefficient of thermally-sensitive resistors 40 connected in series to the auxiliary winding 30, And a capacitor 50 connected in parallel to the Pitti thermistor 40. In addition, the single-phase induction motor may further include an over-load protector 70 for preventing overload. The Pitty thermistor (40) is a semiconductor device whose electrical resistance increases sharply when the temperature rises, and performs a switching function. That is, when the rotational speed reaches a predetermined value of the normal speed, the auxiliary winding is opened. The capacitor 50 improves the operation efficiency of the electric power factor of the electric motor.

When a single-phase AC power source 10 is applied to the motor, an alternating magnetic field is generated in the main winding line 20, and the capacitor 50 advances the phase of the current flowing to the auxiliary winding 30 by 90 degrees. As a result, auxiliary coils having an electrical phase difference of 90 degrees are generated in the auxiliary coils 30. Therefore, the alternating magnetic field generated in the main winding line 20 and the auxiliary magnetic field generated in the auxiliary winding 30 are not canceled out because the phases of the magnetic fields are different from each other.

The single-phase induction motor according to the prior art uses a starter such as a Pittsy thermistor and rotates when the starting torque is larger than the load torque, and the starting torque is proportional to the applied voltage. In the single-phase induction motor according to the related art, if the applied voltage is low or the load is large, the single-phase induction motor can not be started, and at the same time, a current of about 10 times the rated current is generated in the motor winding. That is, the single-phase induction motor according to the prior art has a problem that the motor is damaged due to a failure in starting at a low voltage and an abnormal operation is caused in an application device in which the motor is installed.

In addition, the Pitti thermistor has a problem that the time for opening the auxiliary winding can not be controlled, and the single-phase induction motor employing the Pitti thermistor has the problems of the start failure and the abnormal operation in the low voltage region.

SUMMARY OF THE INVENTION The present invention provides a single-phase induction motor control apparatus and method that are robust against variations in input voltage, protect the motor itself from overvoltage, and operate stably and efficiently even in a low voltage region. .

It is another object of the present invention to provide a single phase induction motor control apparatus and method which can be operated through a simple circuit configuration without using a Pitti thermistor or an overload protection device.

It is another object of the present invention to provide a single-phase induction motor control apparatus and method capable of detecting an input voltage and operating based on a detected input voltage.

According to an aspect of the present invention, there is provided a single-phase induction motor control apparatus including a main winding line switch and a sub winding switch respectively connected to a main winding line and a sub winding, a voltage detection circuit for detecting an input voltage applied from an external power supply And a power supply unit for converting the input voltage into a drive voltage of the control unit and outputting the drive voltage.

In the single-phase induction motor control apparatus according to the embodiment of the present invention, the power supply unit includes: a rectification unit for rectifying the input voltage; a smoothing unit for smoothing the rectified voltage; And a transforming unit for converting the voltage to a voltage.

In the single-phase induction motor control apparatus according to the embodiment of the present invention, the voltage detection unit directly detects the AC voltage of the external power supply or detects the smoothed DC voltage.

In the single-phase induction motor control apparatus according to the embodiment of the present invention, when the detected voltage is equal to or higher than a preset reference voltage, the control unit opens the auxiliary winding switch, operates the motor through the main winding line, When the detected voltage is smaller than the reference voltage, the main power line switch is opened and the motor is operated through the auxiliary winding.

Further, in the single-phase induction motor control apparatus according to the embodiment of the present invention, the control unit may be configured such that a first reference voltage and a second reference voltage greater than the first reference voltage are preset, And when the detection voltage is lower than the first reference voltage, opening the main power line switch and opening the main winding line switch through the auxiliary winding, Operate the motor.

According to an aspect of the present invention, there is provided a method of controlling a single-phase induction motor, including: applying power to a single-phase induction motor through a main winding line switch and a secondary winding switch; A step of starting the electric motor, a step of detecting a voltage input to the electric motor, and a step of operating the single-phase induction motor by opening or closing the primary winding switch or the secondary winding switch based on the detected voltage .

In the single-phase induction motor control method according to the embodiment of the present invention, the step of operating the single-phase induction motor includes the steps of setting a reference voltage, comparing the detected voltage with the reference voltage, And opening the auxiliary winding switch when the detected voltage is equal to or higher than the reference voltage. If the detected voltage is smaller than the reference voltage as a result of the comparison, opening the main line switch may further include opening the main line switch.

Also, in the single-phase induction motor control method according to the embodiment of the present invention, the step of operating the motor may include the steps of: setting a first reference voltage and a second reference voltage greater than the first reference voltage; Comparing the first reference voltage with the second reference voltage, and opening the auxiliary winding switch when the detected voltage is equal to or higher than the second reference voltage. The step of operating the motor further includes the step of comparing the detected voltage with the first reference voltage and opening the main line switch when the detected voltage is equal to or less than the first reference voltage.

According to the apparatus and method for controlling a single-phase induction motor according to the present invention, a single-phase induction motor is robust against variations in input voltage, and can operate stably and efficiently even in a low voltage region. Further, the single-phase induction motor according to the present invention can protect the motor itself from overvoltage.

The present invention can operate the electric motor through a simple circuit configuration including a switch without using a Pitti thermistor or an overload protection device. Accordingly, the present invention can reduce the manufacturing cost and increase the operating efficiency and the reliability by controlling the opening time of the auxiliary winding.

The apparatus and method for controlling a single phase induction motor according to the present invention can detect an input voltage and operate the motor based on the detected input voltage to stably drive the motor in a low voltage state or an overvoltage state.

Hereinafter, an apparatus and method for controlling a single-phase induction motor according to the present invention will be described in detail with reference to the accompanying drawings.

2, the single-phase induction motor control apparatus according to the present invention includes a main winding line switch 230 and an auxiliary winding switch 240 respectively connected to a main winding line 210 and an auxiliary winding 220, A control unit (300) for opening / closing the main winding line switch (230) and the auxiliary winding switch (240) based on the detected voltage, a voltage detecting unit And a power supply unit 400 for converting an input voltage into a driving voltage of the control unit 300 and outputting the driving voltage. In addition, the control device may further include a driving capacitor 250 connected in parallel to the auxiliary winding switch 240 and compensating for a power factor. The control device can increase the operation efficiency of the single-phase induction motor through the operation capacitor 250. Of course, the driving capacitor 250 may be connected to the main line switch 230 in parallel, if necessary.

Relay, TRIAC, or other mechanical or electronic semiconductor devices may be used as the main winding line switch 230 and the auxiliary winding switch 240, respectively. In particular, the triac is a bidirectional thyristor that performs the same function as that of two silicon controlled rectifiers (SCRs) connected in parallel, is an electronic device, and is reliable because it can perform a large number of switching operations.

Referring to FIG. 2, in the single-phase induction motor control apparatus according to an embodiment of the present invention, the voltage detecting unit 500 is constituted by a circuit including an OP-AMP, The AC voltage is directly detected and transmitted to the control unit 300. The external power source 100 is a domestic commercial AC power source, for example, in the case of Korea, an AC power source of 220 V and 50 Hz is used.

Referring to FIG. 3, in the single-phase induction motor control apparatus according to the embodiment of the present invention, the power supply unit 400 includes a rectification unit 410 for rectifying the input voltage, a smoothing unit 410 for smoothing the rectified voltage, And a transformer unit 430 for transforming the smoothed voltage to a drive voltage of the control unit 300. [

The power supply unit 400 receives the external power supply 100, that is, commercial AC power, and outputs a DC voltage for driving a single-phase induction motor and a circuit, a unit, and the like constituting the controller. In general, the power supply unit 400 uses a Switched-Mode Power Supply (SMPS). Of course, other types of AC-DC converters other than SMPS can be used. The switch mode power supply rectifies and smoothes the AC voltage of the external power supply 100 and converts the DC voltage into a DC voltage. The DC voltage is converted to a single-phase induction motor and a single-phase induction motor control device using a transformer unit such as a high frequency transformer and a regulator And generates necessary driving voltages. The voltage detection unit (500) detects the smoothed DC voltage.

The control unit 300 can open both the main winding line switch 230 and the auxiliary winding switch 240 to protect the single phase induction motor when the detected voltage is equal to or greater than a preset overvoltage limit value. That is, the control unit 300 opens both the main winding line switch 230 and the auxiliary winding switch 240 to cut off the power input to the single-phase induction motor to prevent breakage of the single-phase induction motor from overvoltage. The control unit 300 also opens both the main winding line switch 230 and the auxiliary winding switch 240 to cut off the power input to the single phase induction motor even when the detection voltage is lower than a predetermined low voltage limit value . The control unit 300 opens both the main winding line switch 230 and the auxiliary winding switch 240 to cut off the power supplied to the single phase induction motor to thereby cause the start failure due to the low voltage and cause the overcurrent Thereby preventing the abnormal operation from being performed. The control device may further include a separate storage unit (not shown), and the overvoltage limit value and the low voltage limit value may be set and stored in the storage unit. The overvoltage limit value and the low voltage limit value are set differently according to the voltage condition of the area using the single-phase induction motor, the type and the form of the single-phase induction motor, the load condition, etc., and may be set to a predetermined ratio of the input voltage of the external power source.

Phase induction motor, the control unit (300) sets a blocking region for shutting off the power input to the single-phase induction motor when the detected voltage is equal to or higher than the overvoltage limit value or equal to or less than the low-voltage limit value. On the other hand, if the detected voltage is smaller than the overvoltage limit value Set the case to the operation area. That is, the control unit 300 connects both the main winding line switch 230 and the auxiliary winding switch 240 in the operation region to start the single-phase induction motor. The control unit 300 applies power to the main winding line 210 and the auxiliary winding 220 to generate an alternating magnetic field generated in the main winding line 210 and an auxiliary magnetic field generated in the auxiliary winding 220, A rotating magnetic field is generated to rotate the single-phase induction motor.

Then, the control unit 300 sets a reference voltage in an operation region between the overvoltage limit value and the low voltage limit value, and when the detection voltage is equal to or higher than a preset reference voltage, the auxiliary winding switch 240 is opened Phase induction motor is operated through the main winding line 210. When the detected voltage is smaller than the reference voltage, the control unit 300 opens the main winding line switch 230 and operates the single-phase induction motor through the auxiliary winding 240. The reference voltage is set differently according to the voltage of the region where the single-phase induction motor is used, the type and the form of the single-phase induction motor, the load condition, etc., and may be set to a predetermined ratio of the input voltage of the external power source.

Also, the control unit 300 may preset and store a first reference voltage and a second reference voltage that is larger than the first reference voltage. The control unit 300 opens the auxiliary winding switch 240 and operates the single phase induction motor through the main winding line 210 when the detection voltage is equal to or higher than the second reference voltage, Phase induction motor is operated through the auxiliary winding 220 when the first reference voltage is lower than the first reference voltage. The first reference voltage V1 and the second reference voltage V2 are set differently depending on the voltage of the region using the single-phase induction motor, the type and the form of the single-phase induction motor, the load condition, As shown in FIG. The first reference voltage V1 and the second reference voltage V2 have a difference of about 10 V, for example, and perform a hysteresis operation to prevent the breakdown of the motor due to a sudden change in the input voltage.

Referring to FIG. 4, the single-phase induction motor control method according to an embodiment of the present invention includes a step S110 of applying power to a single-phase induction motor through a main winding line switch and an auxiliary winding switch S110, Phase induction motor (S120), detecting a voltage input to the motor (S130), opening / closing the primary winding switch or the secondary winding switch based on the detected voltage, (Operation S140 and subsequent steps). The configuration of the apparatus will be described later with reference to FIG. 2 or FIG.

The step of operating the single-phase induction motor includes the steps of: setting a reference voltage; comparing the detected voltage with the reference voltage; and comparing the detected voltage with the reference voltage (S141) of opening the auxiliary winding switch if it is more than the predetermined value. If the detected voltage is smaller than the reference voltage as a result of the comparison, the step S151 may include opening the main line switch.

First, in the control method, power is applied to the single phase induction motor by connecting both the main winding line switch and the auxiliary winding switch (S110), and the single phase induction motor is started through the main winding line and the auxiliary winding (S120). Then, the control method is a method of directly detecting an AC voltage input from an external power supply using an OP-AMP or the like, or by driving the circuit, unit, etc. constituting the single-phase AC motor and the single- Voltage is inputted to the smoothing capacitor of the power supply unit for converting the voltage into a DC voltage to detect a voltage input to the motor (S130). Then, the control method determines whether or not the detected voltage is within a predetermined operating range (not shown). The operation region is set differently according to the voltage of the region where the single-phase induction motor is used, the type and form of the single-phase induction motor, the load condition, and the like, and may be set to a certain ratio of the input voltage of the external power source. The control method controls the main winding line switch and the auxiliary winding switch according to the determination result. When the detection voltage is outside the operation range, the main winding line switch and the auxiliary winding switch are opened to supply power to the single phase induction motor (Not shown). When the detected voltage is within the operating range, the main power switch and the auxiliary winding switch are connected to start the motor (not shown). In the control method, after starting the single-phase induction motor, the single-phase induction motor is operated by opening / closing the main-line switch or the auxiliary-winding switch based on the detected voltage (S140 and subsequent steps). If the detected voltage is equal to or higher than a preset reference voltage, the control method opens the auxiliary winding switch to cut off the power applied to the auxiliary winding circuit (S141), and operates the motor through the main winding wire (S142). On the other hand, if the detected voltage is smaller than a predetermined reference voltage, the control method is to turn off the main power line switch to cut off the power applied to the main winding line circuit (S151), and operate the motor through the auxiliary winding S152). The reference voltage is set differently according to the voltage of the region where the single-phase induction motor is used, the type and the form of the single-phase induction motor, the load condition, etc., and may be set to a predetermined ratio of the input voltage of the external power source.

Referring to FIG. 5, a method of controlling a single-phase induction motor according to another embodiment of the present invention includes a step S210 of applying power to a single-phase induction motor through a main winding line switch and an auxiliary winding switch S210, Phase induction motor (S220), detecting a voltage input to the motor (S230), opening and closing the primary winding switch or the secondary winding switch based on the detected voltage, (Step S240 and subsequent steps). The configuration of the apparatus will be described later with reference to FIG. 2 or FIG.

The step of operating the motor includes the steps of setting a first reference voltage and a second reference voltage greater than the first reference voltage, comparing the detected voltage with the second reference voltage (S240 And opening the auxiliary winding switch when the detected voltage is equal to or greater than the second reference voltage (S241). The step of operating the pre-synchronizer may further include the steps of comparing the detected voltage with the first reference voltage (S260), and opening the main line switch when the detected voltage is equal to or less than the first reference voltage S271).

First, in the control method, power is applied to the single phase induction motor by connecting both the main winding line switch and the auxiliary winding switch (S210), and the single phase induction motor is started through the main winding line and the auxiliary winding (S220). Then, the control method is a method of directly detecting an AC voltage input from an external power supply using an OP-AMP or the like, or by driving the circuit, unit, etc. constituting the single-phase AC motor and the single- Voltage is input to the smoothing capacitor of the power supply unit for converting the voltage into a DC voltage to detect the voltage input to the motor (S230). Then, the control method determines whether or not the detected voltage is within a predetermined operating range (not shown). The operation region is set differently according to the voltage of the region where the single-phase induction motor is used, the type and form of the single-phase induction motor, the load condition, and the like, and may be set to a certain ratio of the input voltage of the external power source. The control method controls the main winding line switch and the auxiliary winding switch according to the determination result. When the detection voltage is outside the operation range, the main winding line switch and the auxiliary winding switch are opened to supply power to the single phase induction motor (Not shown). When the detected voltage is within the operating range, the main power switch and the auxiliary winding switch are connected to start the motor (not shown). In the control method, after starting the single-phase induction motor, the single-phase induction motor is operated by opening or closing the primary winding switch or the secondary winding switch based on the detected voltage (S240 and subsequent steps). The operation of the motor may include setting a first reference voltage and a second reference voltage greater than the first reference voltage in advance and comparing the detected voltage with the second reference voltage in step S240, Is greater than or equal to the second reference voltage, the auxiliary winding switch is opened to cut off the power applied to the auxiliary winding circuit (S241). When the auxiliary winding switch is opened, the single-phase induction motor is operated through the main winding line (S242). The first reference voltage and the second reference voltage are set differently depending on the voltage condition of the region using the single-phase induction motor, the type and form of the single-phase induction motor, the load condition, etc., . In operation S260, the input voltage is detected again (S250), and the detected voltage is compared with the first reference voltage (S260). As a result of the comparison, if the detected voltage is equal to or less than the first reference voltage , The main power line switch is opened to cut off the power applied to the main power line circuit (S271). At this time, when the main winding line switch is opened, the single phase induction motor is operated through the auxiliary winding (S272). The control method repeatedly performs the operation of operating the motor by continuously detecting the input voltage.

As described above, the apparatus and method for controlling a single-phase induction motor according to the present invention are characterized in that a switching device such as a triac is provided in each of the main winding and the auxiliary winding, and the input voltage is detected to control the switching devices, , So that it can be stably and efficiently started or operated in a low voltage region, and the motor itself can be protected from overvoltage.

1 is a circuit diagram schematically showing a general condenser operation type single-phase induction motor;

FIG. 2 or FIG. 3 is a block diagram schematically showing a configuration of a single-phase induction motor according to embodiments of the present invention; FIG.

FIG. 4 or FIG. 5 is a flowchart schematically showing a control method of the single-phase induction motor according to the embodiments of the present invention.

Claims (14)

A main switch connected to the main winding and the auxiliary winding respectively, and a secondary winding switch; A voltage detection unit for detecting an input voltage applied from an external power supply; A control unit for opening / closing the main winding line switch and the auxiliary winding switch based on the detection voltage; And And a power supply unit converting the input voltage into a driving voltage of the control unit and outputting the driving voltage, Wherein the control unit comprises: Phase induction motor is opened by opening the main winding line switch and the auxiliary winding switch when the detection voltage is equal to or higher than the overvoltage limit value or equal to or less than the low voltage limit value, Phase induction motor is set to an operation region in which the single-phase induction motor is started by connecting the primary winding switch and the secondary winding switch when the detection voltage is smaller than the overvoltage limit value and larger than the low-voltage limit value. The voltage detection circuit according to claim 1, And directly detects the AC voltage of the external power supply. The power supply apparatus according to claim 1, A rectifying unit for rectifying the input voltage; A smoothing unit for smoothing the rectified voltage; And And a transforming unit for transforming the smoothed voltage into a driving voltage of the control unit. The voltage detection circuit according to claim 3, And detects the smoothed direct current voltage. The method according to claim 1, And a driving capacitor connected in parallel to the auxiliary winding switch and compensating the power factor. 6. The control apparatus according to any one of claims 1 to 5, Wherein when the detected voltage is equal to or higher than a preset reference voltage within the operating range after the single-phase induction motor is started, the auxiliary winding switch is opened and the motor is operated through the main winding line controller. 7. The control apparatus according to claim 6, Wherein when the detection voltage is lower than the reference voltage after the single-phase induction motor is started, the main-power-line switch is opened and the motor is operated through the auxiliary winding. 6. The control apparatus according to any one of claims 1 to 5, Wherein a first reference voltage and a second reference voltage greater than the first reference voltage are preset in the operating range, Wherein the control unit opens the auxiliary winding switch and operates the motor through the main winding line when the detection voltage is equal to or higher than the second reference voltage after the single phase induction motor is started, Motor control device. 9. The apparatus according to claim 8, Wherein when the detection voltage is lower than the first reference voltage after the single phase induction motor is started, the main winding line switch is opened and the motor is operated through the auxiliary winding. Applying power to the single phase induction motor through the main winding line switch and the auxiliary winding switch; Driving the single-phase induction motor through a main winding line and an auxiliary winding; Detecting a voltage input to the single-phase induction motor; Determining whether the detected voltage is within a predetermined operating range; And And operating the single-phase induction motor by opening or closing the primary winding switch or the secondary winding switch based on the detection voltage after the detection voltage is within the operation range and the single-phase induction motor is started, In the determining, Phase induction motor is opened by opening the main winding line switch and the auxiliary winding switch when the detected voltage is equal to or higher than the overvoltage limit value or equal to or less than the low voltage limit value, Wherein when the detected voltage is smaller than the overvoltage limit value and greater than the lower voltage limit value, the control unit sets the operation region to the operation region in which the single phase induction motor is started by connecting the primary winding switch and the secondary winding switch. The method as claimed in claim 10, wherein the step of operating the single- Setting a reference voltage within the operating range; Comparing the detected voltage with the reference voltage; And And opening the auxiliary winding switch when the detected voltage is equal to or greater than the reference voltage. 12. The method according to claim 11, wherein the step of operating the single- Further comprising the step of: if the detected voltage is smaller than the reference voltage, opening the main power line switch. The method as claimed in claim 10, wherein the step of operating the single- Setting a first reference voltage and a second reference voltage greater than the first reference voltage within the operating range; Comparing the detected voltage with the second reference voltage; And And opening the auxiliary winding switch when the detected voltage is equal to or greater than the second reference voltage. 14. The method according to claim 13, wherein operating the single-phase induction motor comprises: Comparing the detected voltage with the first reference voltage; And And opening the main line switch when the detected voltage is lower than the first reference voltage.

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