KR100848157B1 - BLC motor control method and air conditioner using same - Google Patents

Abstract

The present invention relates to a control method of a BCD motor and an air conditioner using the same. An object of the present invention is to prevent the occurrence of abnormal back EMF generated during stop braking to prevent damage to the BCD motor drive circuit and to prevent the rotor of the rotor. The present invention provides a control method of a BCD motor and an air conditioner using the same to prevent the phenomenon.

To this end, the control method of the BCD motor according to the present invention comprises the steps of determining whether the stop condition of the BLC motor; Performing gradual deceleration braking after the stopping condition of the BLC motor is satisfied so that occurrence of abnormal back EMF is prevented in the BCD motor; And turning off the power after performing the deceleration braking.

Description

Controlling method of BLC motor and air conditioner using same {Controlling method of BLDC motor and air conditioner useing the same of}

       1 is a block diagram illustrating an outdoor unit blowing fan driving system of an air conditioner equipped with a BCD motor according to an embodiment of the present invention.

       2 is a graph illustrating a stop deceleration control method showing a stop control method of a BCD motor according to the present invention.

       3 is a flowchart illustrating a control procedure of the air conditioner to which the control method of the BC motor according to the present invention is applied.

       4 is experimental data obtained by measuring counter electromotive force generated when the stator coil of a conventional BLD motor is stopped.

       5 is experimental data obtained by measuring the counter electromotive force generated during stop braking in the stator coil of the BCD motor according to the control method of the BCD motor according to the present invention.

* Description of symbols on the main parts of the drawings *

10: power supply 20: rectifier

30: inverter unit 40: blowing fan

41: BCD motor 42: stator coil

50: heat exchanger 60: pulse width modulation signal generator

90: position detection unit

The present invention relates to a control method of a BCD motor and an air conditioner using the same. More particularly, the generation of abnormal back EMF is suppressed during stop braking to prevent damage to a driving part such as an inverter part of a BCD motor and the rotor. It relates to a control method of the BCD motor and the air conditioner using the same to prevent the potato phenomenon of.

In general, a motor is a device that converts electrical energy into mechanical movement energy.

Motors are classified into DC motors and AC motors according to the type of electrical energy applied to the motor.

DC motors are classified into brush motors and BCD motors according to the presence or absence of a brush for forming a rotating magnetic field.

The BCD motor is driven by forming a rotating magnetic field through a switching unit using a transistor instead of a brush and a rectifier, which are important components of the DC motor.

The BCD motor is used as a driving unit of the variable compressor of the refrigeration system because of its high efficiency and easy to control the rotational speed, the application trend is increasing in the fields such as acting as the driving unit of the blower fan to allow air to flow in the heat exchanger have.

On the other hand, the conventional braking of the BCD motor has a method of immediately turning off the power with the stop signal.

However, when the conventional BC motor is stopped and braked, an abrupt back electromotive force is generated in the stator of the BC motor due to a sudden power off. Accordingly, there is a problem in that an electric shock is applied to a driving circuit such as an inverter part of a BLC and is damaged.

The abnormal counter electromotive force causes a change in the magnetic alignment of the rotor, which causes the phenomenon of potato phenomenon in the rotor. For this reason, there exists a problem that the performance of a BCD motor falls.

Furthermore, the above-mentioned problem becomes even more apparent when the BCD motor is applied to the blower fan motor of the outdoor unit of the air conditioner which is frequently ON / OFF controlled. For this reason, the operation of the outdoor unit of the air conditioner becomes uncertain and there is a problem that the operational reliability of the air conditioner is lowered.

Therefore, the present invention was devised to solve the above-mentioned problems, and an object of the present invention is to prevent the occurrence of abnormal back electromotive force generated during stop braking to prevent damage of the BCD motor drive circuit and to prevent the potato phenomenon of the rotor. An object of the present invention is to provide a control method of a BCD motor and an air conditioner using the same.

Another object of the present invention is to provide a fan motor control method of an air conditioner including a control method of a BLC motor to ensure the reliability of operation of the air conditioner when the BCD motor is applied to the outdoor unit of the air conditioner. It is for that purpose.

Other objects and advantages of the invention will be described below and will be appreciated by the embodiments of the invention. Furthermore, the objects and advantages of the present invention can be realized by means and combinations indicated in the claims.

The control method of the BCD motor according to the present invention for achieving the above object comprises the steps of determining whether the stop condition of the BLC motor; Performing gradual deceleration braking after the stopping condition of the BLC motor is satisfied so that occurrence of abnormal back EMF is prevented in the BCD motor; And turning off the power after performing the deceleration braking.

      Here, the step of performing the deceleration braking control method of the BCD motor, characterized in that the deceleration braking at a predetermined deceleration ratio such that the maximum value of the back EMF generated from the BCD motor is less than the rated back EMF of the drive unit.

      In another aspect, an air conditioner using a control method of a BCD motor according to the present invention for achieving the above object is a heat exchanger, a blowing fan for providing cooling air to the heat exchanger, and a BLC motor for driving the blowing fan. And a control unit for controlling a driving unit of the BLC motor, wherein the control unit gradually decelerates the BLC motor so that an abnormal counter electromotive force is prevented from occurring in the BLC motor when the stopping condition of the BLC motor is satisfied. After the braking is performed, the Biel DC motor is powered off.

      The deceleration braking performed by the controller is a deceleration braking operation of the BCD motor at a predetermined deceleration ratio such that a maximum value of the counter electromotive force is equal to or less than a rated counter electromotive force of the driving unit for a predetermined time.

      And the heat exchanger is an outdoor heat exchanger of an air conditioner.

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

1 is a block diagram showing an outdoor unit blower fan driving system of an air conditioner equipped with a BCD motor according to an embodiment of the present invention, Figure 2 is a stop deceleration control showing a stop control method of a BLC motor according to the present invention A graph showing the method.

1 and 2, the drive system of the outdoor unit blower fan of the air conditioner equipped with the BCD motor is a rectifier 20 for converting into a direct current supplied with a commercial AC power source having a predetermined frequency, Inverter unit 30 connected to the output terminal of the rectifier 20 to generate a three-phase square wave AC power supply, and a three-phase square wave having a predetermined pulse width in the inverter unit 30 by supplying a control signal to the inverter unit 30 And a controller 70 for controlling the pulse width modulated signal generator 60 and the pulse width modulated signal generator 60 to generate the signal.

And a BLC motor 41 and a BLD motor including a stator (not shown in the drawing) and a rotor (not shown) rotated by a troubleshooter having a stator coil 42 connected to Y. Blowing fan 40 made of a blade 43 is connected to the rotor of the 41 is further included.

The heat exchanger 50 is disposed at one side of the blowing fan 40.

In detail, the rectifying unit 20 rectifies and receives power from the AC power source 10 from the outside to supply DC power to the inverter unit 30.

In the inverter unit 30, six switching elements are connected to a three-phase full bridge. As the switching element 32, a transistor having a gate 31 is used.

In addition, the pulse width modulation signal generator 60 receives a control signal from the controller 70 and brings on a predetermined duty ratio to the gates 32 of the six switching elements 31 of the inverter unit 30 (ON). ) / OFF Provides a control signal.

On the other hand, the control signal of the ON / OFF (OFF) from the pulse width modulation signal generation unit 60 is input to the gate 31 of the six switching elements 32 at the output terminal of the inverter unit 30 AC power of phase is output.

The controller 70 supplies a control signal to the pulse width modulated signal generator 60 to control the rotational speed of the BC motor 40.

In detail, as shown in FIG. 2, the controller 70 controls the rotational speed (rpm) of the BCD motor 40 such that the rotational speed (rpm) of the BCD motor is decelerated at a predetermined deceleration ratio b / a during stop braking. ). Here, the reduction ratio is set to a reduction ratio such that an abnormal counter electromotive force is not generated due to a sudden change in the rotational speed in the stator coil 41 of the BC motor 40. This reduction ratio may be easily presented by measuring the counter electromotive force generated in the stator coil 42 of the BCD motor 40 according to the rate of change of the rotational speed of the stator motor of the BCD motor 40.

The heat exchanger 50 includes a plurality of heat exchange fins in which a refrigerant tube through which a refrigerant flows and a refrigerant tube are inserted into and coupled to each other. The heat exchanger 50 is forced by the blower fan 40 so that the air passing through the heat exchange fins and the refrigerant flowing through the refrigerant tube are heat exchanged.

Here, although the heat exchanger 50 according to the present invention has been proposed to be an outdoor heat exchanger of the air conditioner, it is not limited thereto, and it is understood that the heat exchanger 50 may be an indoor heat exchanger of the air conditioner.

And the position detection unit 90 detects the position information of the rotor at the initial start of the BC motor 40 and supplies it to the control unit 70. Accordingly, the BCD motor 40 drives the rotor and the stator to perform stable self-interaction. The position detection unit 90 may use a method of detecting and detecting a Hall sensor and back EMF.

Hereinafter, a method of stopping braking of a drive system of an outdoor unit blower fan of an air conditioner equipped with a BCD motor will be described with reference to the accompanying drawings.

3 is a flowchart illustrating a control procedure of an air conditioner to which a BCD motor control method is applied according to the present invention.

Referring to FIG. 3, first, when power is applied to the outdoor unit of the air conditioner, the power is turned on in the outdoor unit of the air conditioner (S201).

In this case, the control unit 70 determines whether the blowing fan of the outdoor unit of the air conditioner is to be driven (S202).

The controller 70 starts initial driving when the blower fan 40 of the air conditioner outdoor unit is to be driven, and receives the position information of the rotor through the position detector 90. Subsequently, a control signal is supplied to the pulse width modulation signal generator 60 so that AC power is supplied to the stator according to the position of the rotor. Accordingly, the inverter unit 30 supplies three-phase alternating current power to the three-phase induction coil of the stator by the ON / OFF signal having a predetermined duty ratio from the pulse width modulation signal generator 60. do. As a result, the BCD motor 41 is driven (S203).

Meanwhile, the controller 70 determines whether the blower fan 40 of the outdoor unit of the air conditioner is to be stopped (S204).

At this time, if the blowing fan 40 of the air conditioner outdoor unit is a condition to be stopped, the control unit 70 performs a control to gradually reduce the rotational speed of the BCD motor 41 (S205). In detail, as shown in FIG. 2, the control unit 70 has a predetermined time from the point of time when the rotation speed (rpm) of the BCD motor 41 is satisfied when the condition that the blowing fan 40 of the outdoor unit of the air conditioner is to be stopped is satisfied. Control is made so as to gradually decrease by a predetermined deceleration ratio b / a until this elapsed time point T.

After that, the control unit 70 causes the power supplied to the BC motor 40 to be turned off after a predetermined time elapses (S207).

Finally, the controller 70 determines whether the operation of the outdoor unit of the air conditioner should be terminated (S208) and turns off the power supplied to the outdoor unit of the air conditioner if the condition is to be terminated (S209). This completes the whole process.

Hereinafter, the counter electromotive force reduction effect according to the control method of the BCD motor according to the present invention as described above will be described with reference to the experimental data.

4 is experimental data measuring the back EMF generated when the stop in the stator coil of the conventional BCD motor, Figure 5 is generated during stop braking in the stator coil of the BLC motor according to the control method of the BCD motor according to the present invention This is experimental data measured back EMF.

Here, it is to be noted that the counter electromotive force in the above-mentioned data is experimental data obtained by measuring the counter electromotive force in any one of the three phase coils during the stop braking time.

4 and 5, the BCD motor 40 according to the present invention is gradually decelerated braking for a predetermined period of time without turning off the power immediately when the stop condition is satisfied, the conventional The abnormal counter electromotive force P generated by the BCD motor 40 is not generated.

The suppression of the abnormal counter electromotive force P as described above protects the driving unit such as the inverter unit 40 and the pulse width modulated signal generator 60.

And the potato phenomenon of the rotor provided with a permanent magnetic force by the abnormal counter electromotive force (P) is prevented. In other words, since the permanent magnet has a property that the direction of the magnetic domain is aligned by electromotive force, the alignment of the magnetic domain tends to be destroyed by rapid electromotive force or counter electromotive force. Therefore, the occurrence of the abnormal counter electromotive force P is suppressed so that the magnetic domain arrangement of the rotor can maintain the magnetic domain arrangement at the time of manufacture, and potato phenomenon is prevented.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

As described above, according to the control method of the BC motor of the present invention, there is an effect that abnormal back electromotive force generation is suppressed during stop braking. In addition, due to the suppression of the rapid back electromotive force generation, the motor driving circuit is prevented from being damaged by the rapid back electromotive force.

According to the outdoor unit of the air conditioner to which the control method of the BCD motor of the present invention is applied, the outdoor unit of the air conditioner is operated stably despite the frequent stop / operation operation of the outdoor unit. Furthermore, the abnormal back electromotive force generated during stop is minimized, thereby reducing the vibration of the BCD motor due to the abnormal back electromotive force.

Claims (5)

Controlling the operation of a blower fan providing cooling air to a heat exchanger according to the operation of an air conditioner, and determining whether the stopping condition of the BLC motor for driving the blower fan is satisfied when controlling the drive of the blower fan; Performing decelerating braking gradually after the stopping condition of the BLC motor is satisfied so that an abnormal counter electromotive force is prevented in the BCD motor; And The control method of the BCD motor comprising the step of turning off the power after performing the deceleration braking.  The method of claim 1,      The decelerating braking may include: performing the deceleration braking as the counter electromotive force generated by the BCD motor according to the rate of change of the rotational speed of the BCD motor, which is a deceleration ratio such that the maximum value of the counter electromotive force generated by the BCD motor is less than or equal to the rated back electromotive force of the driving unit. A control method of a BC motor characterized in that the deceleration braking of the DC motor. An air conditioner comprising a heat exchanger, a blowing fan for providing cooling air to the heat exchanger, a BLC motor for driving the blowing fan, and a control unit for controlling a driving unit of the BLC motor,       The control unit turns off the power of the BLC motor after performing the deceleration braking of the BLC motor gradually to prevent the occurrence of abnormal back electromotive force in the BLC motor when the stop condition of the BLC motor is satisfied. Conditioner. The method of claim 3, wherein       The deceleration braking performed by the controller is such that the maximum value of the counter electromotive force generated by the BLC motor is equal to or less than the rated counter electromotive force during the time from when the condition to stop the BC motor is turned off. An air conditioner characterized in that the deceleration braking of the BCD motor with the back electromotive force generated in the BCD motor according to the rate of change of the rotational speed of the BCD motor is a deceleration ratio.       The method of claim 3, wherein      And the heat exchanger is an outdoor heat exchanger of the air conditioner.

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