KR20010011404A - Velocity control apparatus for the fan motor of an air - conditioner and method therefor - Google Patents

Abstract

PURPOSE: A device and a method for controlling a speed of a fan motor of an air conditioner are provided to equalize the rpm(revolution per minute) of a fan motor by sensing the change of zero and power voltage upon the load change of the fan motor and regulating a trigger point according to a position of a louver. CONSTITUTION: A power voltage sensing unit(120) senses the load change of a fan motor. The fan motor(160) sends air to indoor and outdoor heat exchangers by rotating a fan. A louver step motor(170) moves a position of a louver and a louver step motor control unit(180) stops or drives the louver step motor. A phase control unit(150) controls the fan motor at a constant speed by regulating a trigger point upon the load change of the fan motor. A microcomputer(140) controls the phase control unit according to a voltage change sensing signal, a zero potential point sensing signal and a louver position signal, Accordingly, the rotation of the fan motor at a constant speed is possible. Further, noises caused by the load change of the fan motor are eliminated.

Description

Velocity control apparatus for the fan motor of an air-conditioner and method therefor}

The present invention relates to the fan motor speed control of an air conditioner, and more particularly, to minimize the load variation and the rotational speed change of the fan motor by controlling the phase of AC power applied to the fan motor according to the position of the louver. The present invention relates to a fan motor speed control apparatus and method for a harmonizer.

In general, as a method of controlling a fan motor that rotates a fan such as an air conditioner or a fan, a phase control method is widely used. The phase control method adjusts the strength of the power applied to the load according to the trigger applied between the zero potential point in the periodic waveform of the AC power and the next zero potential point. How to control. Therefore, the speed control apparatus of the fan motor using the phase control method as described above is shown in Figs.

As shown in FIG. 1, the key input unit 11 and the zero voltage sensing unit 12 are connected to the microcomputer 13, and the microcomputer 13 is connected to the phase controller 14. In addition, the phase controller 14 is again connected to the fan motor 15.

The key input unit 11 selects a function set by the user, and the zero voltage detection unit 12 detects a zero potential point in the above-described periodic waveform of the AC power supply and transmits a detection signal to the microcomputer 13, and the microcomputer 13. The on / off drive of the fan motor 15 is applied to the phase control unit 14 according to the zero potential point detected by the zero voltage detection unit 12. The phase controller 14 is turned on according to the control signal of the microcomputer 13 and adjusts the trigger point to apply the AC power whose phase is adjusted to the fan motor 15. The fan motor 15 rotates a fan (not shown) to blow surrounding air to indoor and outdoor heat exchangers (not shown).

Hereinafter, the operation of the first fan motor speed control device of the conventional air conditioner with the configuration of FIG. 1 described above will be described in detail.

When the user operates the key input unit 11 to turn on the air conditioner, the microcomputer 13 turns on the phase controller 14 according to the zero potential detection signal of the AC power transmitted from the zero voltage detector 12. Accordingly, the phase controller 14 is turned on under the control of the microcomputer 13 and is triggered at the time when the waveform reaches the zero potential point, for example, the maximum voltage, among the waveforms of the AC power source, and generates the AC motor. Applied to (15).

Therefore, the fan motor 15 rotates a fan (not shown) as the AC power is applied through the phase control unit 14 to start blowing the surrounding air to the indoor and outdoor heat exchangers (not shown).

In addition, when the user operates the key input unit 11 to apply the operation stop signal of the air conditioner to the microcomputer 13, the microcomputer 13 turns off the phase control unit 14 to stop the fan motor.

2 is a control block diagram showing a conventional second fan motor speed control apparatus.

As shown in FIG. 2, the key input unit 21 and the zero voltage sensing unit 22 are connected to the microcomputer 23, and the microcomputer 23 is connected to the phase control unit 24 and the rotational speed sensing unit 26. . In addition, the fan motor 25 is connected to the phase control unit 24 and the rotational speed detection unit 26.

The key input unit 21 selects a function set by the user, and the zero voltage detecting unit 22 detects a zero potential point in the waveform of the AC power as described above, and transmits a detection signal to the microcomputer 23, and a rotation speed detecting unit ( 26 detects the rotational speed of the fan motor 25 and transmits it to the microcomputer 23. The microcomputer 23 controls the phase controller 24 according to signals transmitted from the key input unit 21, the zero voltage detector 22, and the rotational speed detector 26. That is, when the driving start signal of the air conditioner transmitted from the key input unit 21 is input to the microcomputer 23, the microcomputer 23 controls the overall driving of the air conditioner. In particular, in the control of the fan motor 25, the microcomputer 25 in response to the speed change of the fan motor 25 due to the load change of the fan motor transmitted from the rotational speed sensing unit 26, the zero voltage sensing unit 22 The phase controller 24 is turned on and off in accordance with the zero potential point of the zero voltage transmitted from

The phase controller 24 is triggered on in accordance with the control signal of the microcomputer 23. In addition, the fan motor 25 rotates a fan (not shown) to blow ambient air to indoor and outdoor heat exchangers (not shown).

FIG. 3 is a flow chart illustrating a speed control method of the fan motor speed control device of FIG. 2, and further describes a conventional second fan motor speed control method according to the configuration of FIG. 2.

When the user applies the ON signal of the air conditioner by operating the key input unit 21, the microcomputer 23 transmits the zero potential point transmitted from the zero voltage sensing unit 22 to operate the fan motor 25 according to the applied signal. Judge. Then, the phase controller 24 is turned on in accordance with the zero potential point (S21) (S22).

Therefore, the fan motor 25 rotates the fan (not shown) according to the strength of the input power.

Then, the microcomputer determines the rotational speed detection signal of the fan motor transmitted from the rotational speed detection unit 26 (S23).

Therefore, the microcomputer 23 recognizes the rotational speed of the fan motor 25 to determine a change in the power supply voltage applied to the fan motor 25 (S24).

Therefore, when the rotational speed of the fan motor 25 transmitted from the rotational speed sensing unit 26 suddenly increases or decreases, the microcomputer 23 recognizes that there is a change in the power supply voltage and the fan motor 25 through the phase control unit 24. The intensity of the AC power applied to the power is adjusted (S25).

That is, by adjusting the strength of the AC power applied to the fan motor 25 by adjusting the trigger point of the phase control unit 24 according to the detection signal of the zero potential point transmitted from the zero voltage detecting unit 22, The rotation speed of the fan motor 25 is stabilized (S26).

Then, the microcomputer determines whether the power-off signal is transmitted by the user by operating the key input unit. When the power-off signal is transmitted to the microcomputer 23, the microcomputer 23 controls the phase control unit 24 to turn off the fan. The process returns to step S23 for detecting the rotational speed of the motor 25, and the above-described steps S23 to S26 are repeated.

Therefore, the fan (not shown) is rotated at a constant speed by the constant speed of the fan motor 25, the fan is rotated at a constant speed to the ambient air to the indoor and outdoor heat exchanger (not shown) Ventilate.

However, the first fan motor speed control device of the conventional air conditioner does not accurately control the speed when the load and power voltage of the fan motor change, causing a buzzing noise and generating a second fan. Although the motor speed control device is capable of accurate speed control, there is a problem in that the manufacturing cost is increased because a separate circuit must be configured to detect the rotational speed of the fan motor.

Accordingly, the present invention has been made to solve the above problems, and detects the zero voltage and power voltage fluctuations when the fan motor load fluctuate, and adjust the trigger point according to the position of the louver to adjust the rotation speed of the fan motor An object of the present invention is to provide a fan motor speed control apparatus and method for an air conditioner to be constant.

1 is a control block diagram showing a first fan motor speed control apparatus of a conventional air conditioner;

2 is a control block diagram showing a second fan motor speed control apparatus of a conventional air conditioner;

3 is a flowchart illustrating a speed control method of the fan motor speed control device of FIG. 2;

Figure 4 is a control block diagram showing a preferred embodiment of the fan motor speed control apparatus of the air conditioner according to the present invention,

5 is a flowchart illustrating a fan motor speed control method of the fan motor speed control device of FIG. 4;

6 is a diagram illustrating a trigger point in a periodic waveform of an AC power source.

Explanation of symbols on the main parts of the drawings

110: key input unit 120: power voltage detection unit

130: zero voltage detection unit 140: microcomputer

150: phase control unit 160: fan motor

170: reverse bus motor 180: reverse bus motor control unit

Fan motor speed control apparatus and method of the air conditioner for achieving the above object, the zero voltage detection unit for detecting the zero potential point in the waveform of the AC power source, the power supply voltage detection unit for detecting the voltage variation of the AC power source, A fan motor that rotates a fan to blow surrounding air to an indoor and outdoor heat exchanger, a louver step motor for moving the position of the louver, a louver step motor control unit for driving or stopping the louver step motor, and the fan according to the position of the louver A phase control unit for controlling the fan motor at a constant speed by adjusting a trigger point when a load variation of a motor occurs, a zero potential point detection signal transmitted from the zero voltage detection unit, a voltage change detection signal transmitted from the power supply voltage detection unit, and the louver And a microcomputer for controlling the phase controller according to the position signal of the louver transmitted from the step motor controller.

The phase control unit may be a solid state relay.

Alternatively, the zero voltage is sensed to turn on the fan motor through the phase controller, and the louver step motor is turned on through the louver step motor controller, and the load voltage of the fan motor is sensed by sensing that the power voltage is changed. And determining the position of the louver through the louver step motor control unit and adjusting the trigger point of the phase control unit when the fan motor load is determined in the load variation detection step of the fan motor. Controlling the rotational speed of the vehicle at a constant speed.

Therefore, the fan motor speed control apparatus and method of the air conditioner according to the present invention as described above detects the fan motor load change and by adjusting the trigger point of the phase control unit according to the position of the louver, the fan motor is capable of constant speed rotation, In addition, there is an effect that the noise caused by the fan motor load fluctuation due to the position movement of the louver is removed.

Hereinafter, a preferred embodiment of the fan motor speed control apparatus and method of the air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

The main feature of the present invention is to configure the power supply voltage sensing unit to detect the load change of the fan motor, and the microcomputer directly controls the reverse bus step control unit for controlling the louver step motor for driving the louver, and also the reverse step motor control unit Detects the position of the louver and transfers it to the microcomputer, and when the power voltage sensing unit detects a change in the power voltage and a load change of the fan motor, the phase control unit is triggered according to the position of the louver under the control of the microcomputer. As the point is adjusted, the fan motor maintains the constant speed rotation.

The above-mentioned main features are shown in FIG. 4 as a control block showing the fan motor speed control device of the air conditioner according to the present invention, and also a flow chart showing the fan motor speed control method of the air conditioner shown in FIG. Explain.

As shown in FIG. 4, the key input unit 110, the zero voltage sensing unit 130, and the power supply voltage sensing unit 120 are connected to the microcomputer 140, and the microcomputer 140 has a phase control unit 150 and a louver step. It is connected to the motor control unit 180. In addition, the phase control unit 150 is connected to the fan motor 160, the reverse step motor controller 180 is connected to the reverse step motor 170.

Zero voltage detection unit 130, key input unit 110. Since the phase control unit 150 and the fan motor 160 perform the same functions as described above, detailed description thereof will be omitted.

The power supply voltage detector 120 detects a load change and a change in power supply voltage of the fan motor 160 applied to the fan motor 160 according to the position movement of the louver (not shown). In addition, the reverse step motor 170 rotates the louver (not shown) to the position of the top, middle, and bottom, and the reverse step motor control unit 180 turns on and off the reverse step motor 170, The location of the louver (not shown) is detected and transmitted to the microcomputer 140.

The microcomputer 140 controls the phase controller 150 and the reverse step motor controller 180 in response to the signals transmitted from the key input unit 110, the zero voltage detector 130, and the power voltage detector 120. The motor 160 and the reverse step motor 170 are controlled to be on, off or to maintain the constant speed of the rotational speed of the fan motor 160.

Here, the phase control unit of the preferred embodiment of the fan motor speed control apparatus of the air conditioner according to the present invention preferably adopts a solid state relay (SSR).

FIG. 5 is a flowchart illustrating a speed control method of the fan motor speed control apparatus of FIG. 4, and FIG. 6 is a diagram illustrating a trigger point in a voltage waveform of a power supply. Therefore, the operation of the preferred embodiment of the present invention will be described in more detail with reference to FIGS. 5 and 6 as follows.

The zero potential point of the AC power sensed by the zero voltage detection unit 130 is input to the microcomputer 140 (S110). Therefore, the microcomputer 140 turns on the phase controller 150 according to the input zero potential detection signal (S120). When the phase controller 150 is turned on, the strength of the power applied to the fan motor 160 is determined. Therefore, the fan motor 160 rotates the fan at a rotation speed corresponding to the applied power.

In addition, the microcomputer 140 turns on the reverse step motor 170 through the reverse step motor control unit 180. Accordingly, the reverse step motor 170 rotates the louvers to upper, middle and lower positions according to the control of the reverse step motor controller 180 and blows them by a fan (not shown) according to the driving of the fan motor 160. Air to be discharged to an indoor and outdoor heat exchanger (not shown).

And, as described above, when the louver (not shown) moves to the upper, middle, and lower positions of the microcomputer 140 and blows to the indoor and outdoor heat exchanger (not shown), the fan motor 160 accordingly. The load variation and the change in the power supply voltage are detected by the power supply voltage detector 120. Therefore, the microcomputer 140 detects a load change of the fan motor 160 from the detection signal transmitted from the power supply voltage detector 120 (S130) (S140).

Therefore, when a load change of the fan motor 160 is detected from the power voltage detecting unit 120, the microcomputer 140 detects the position of the louver (not shown) transmitted through the louver step motor control unit 180. (S150).

In addition, the phase controller 150 adjusts the trigger point (S160) to apply the AC power of phase change to the fan motor 160 to maintain the rotational speed of the fan motor 160 at a constant speed (S170).

At this time, by determining the trigger point for the waveform shown in Figure 6 according to the position of the louver (not shown), the rotation speed of the fan motor 160 as shown in Table 1 below is generated.

Table 1 is a table showing the rotational speed of the fan motor relative to the trigger point according to the louver position, Figure 6 is a cross-sectional view showing the trigger point applied to the power waveform.

Table 1

Trigger point ⑴ ⑵ ⑶ Bottom of louver 1100 900 700 Louver stop position 1300 1100 900 Louver Top Position 1500 1300 1100

As shown in Table 1, since the rotation speed of the motor is different according to the position of the louver (not shown) and the trigger point, the load variation of the fan motor 160 and the rotation speed according to the movement of the louver (not shown) To minimize the change, adjust the trigger point shown in FIG. 6 according to the position of the louver (not shown). Therefore, the rotational speed of the fan motor is controlled by adjusting the appropriate trigger point according to the position of the louver (not shown) according to the rated capacity of the air conditioner and the heat exchange amount of the indoor and outdoor heat exchanger (not shown).

When the fan motor maintains the constant speed in the above-described steps (S110 to S170), the microcomputer 140 determines whether to turn off the phase control unit 150 according to the off signal from the key input unit 110 (S180). ).

If the off signal is not input from the key input unit 110, the microcomputer 140 returns to step S130 of determining a change in the power supply voltage. If the off signal is input from the key input unit 110, the phase controller 150 is input. ) To stop the operation of the air conditioner.

The fan motor speed control apparatus and method of the air conditioner according to the present invention as described above detects the load change of the fan motor according to the position movement of the louver, the constant speed of the fan motor by adjusting the trigger point according to the position of the louver The rotation is enabled, and the noise that is concerned by the fluctuation of the power supply voltage due to the position movement of the louver is provided.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications are possible to those skilled in the art without departing from the gist of the present invention as claimed in the claims. Such changes will fall within the scope of the claims.

Claims (3)

A zero voltage detection unit for detecting a zero potential point on a waveform of an AC power supply; A power supply voltage detecting unit detecting a voltage change of the AC power supply; A fan motor which rotates the fan and blows the surrounding air to the indoor and outdoor heat exchangers; A louver step motor for moving the position of the louver; A reverse step motor control unit for driving or stopping the reverse step motor; A phase control unit controlling the fan motor at a constant speed by adjusting a trigger point when a load variation of the fan motor occurs according to the position of the louver; And And a microcomputer for controlling the phase control unit according to the zero potential point detection signal transmitted from the zero voltage detection unit, the voltage fluctuation detection signal transmitted from the power supply voltage detection unit, and the position signal of the louver transmitted from the louver step motor control unit. Fan motor speed control device of the air conditioner, characterized in that. The method of claim 1, wherein the phase control unit Fan motor speed control device of an air conditioner, characterized in that the solid state relay, Sensing a zero voltage to turn on the fan motor through the phase controller and turn on the louver step motor through the louver step motor controller; Determining a load variation of the fan motor by sensing that the power voltage is changed; When it is determined that the fan motor load is changed in the load change detection step of the fan motor, the position of the louver is sensed through the louver step motor controller and the rotation speed of the fan motor is fixed by adjusting the trigger point of the phase controller. Fan motor speed control method of the air conditioner comprising the step of controlling the road.