JP2000179925A - Fan controller for air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To control rotational speed by one switch by changing a duty ratio of a switching signal for turning ON, OFF a switch connected between an AC motor and an AC power source. SOLUTION: A fan 2 is driven by an AC motor 1 connected at its one input terminal to one output terminal of an AC power source 3. A control unit 5 controls ON, OFF of a switch 4 connected between an H tap of the other input terminal of the motor 1 and the other output terminal of an AC power source 3. In the case of alternately repeating ON and OFF of the switch 4 according to a switching signal output from the unit 5, a rotational speed of the fan 2 is controlled at high or low level according to a large or small duty ratio of the signal output from the unit 5 to the switch 4. When the duty ratio of the signal is set to 100%, the fan 2 is rotated at a predetermined rotational speed. When the duty ratio of the signal is set to zero, the fan 2 is stopped.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a fan control device for an air conditioner.

[0002]

2. Description of the Related Art Conventionally, as a fan control device of an air conditioner, as shown in FIG. 3, an AC motor 31 having one output terminal connected to one output terminal of an AC power source 33; , M which is the other input terminal of the AC motor 31
Switches 34A, 34B, and 34C respectively connected between the taps and the L tap and the other output terminal of the AC power supply 33.
And a control unit 35 for controlling on / off of the switches 34A, 34B, 34C.

In the fan control device for an air conditioner having the above configuration, one of the switches 34A, 34B and 34C is turned on by a switching signal from the control unit 35 to energize the AC motor 31. The fan 32 driven by the AC motor 31 rotates at a high speed when the switch 34A connected to the H tap is on, rotates at a medium speed when the switch 34B connected to the M tap is on, It rotates at a low speed when the switch 34C connected to the tap is on. Thus, the switches 34A,
By selecting and turning on one of 34B and 34C, the number of rotations of the fan 32 is controlled in three stages, and an air flow according to the operating state is obtained.

[0004]

However, in the fan control device for the air conditioner, the switches 34A, 34B, 3
In order to control the rotation speed of the fan 32 by 4C, the same number of switches as the number of gears is required, and the AC motor also needs to be provided with the same number of taps as the number of gears.
There is a problem that the cost increases. In order to solve this problem, when the fan 32 is rotated at a constant rotation speed by using a one-tap AC motor, the air flow from the fan 32 is always constant, so that the air flow according to the operation state cannot be obtained. As a result, the condensing performance or the evaporating performance of the heat exchanger cannot be optimally exhibited. Further, since the AC motor rotates the fan 32 at a constant and high speed, the fan 32 may be rotated more than necessary, and the power consumption of the AC motor increases.

It is an object of the present invention to provide a low-cost fan controller for an air conditioner which can control the number of revolutions of a fan with one switch.

[0006]

According to a first aspect of the present invention, there is provided an air conditioner fan control apparatus comprising: an AC motor; a fan driven by the AC motor;
A switch connected between the AC motor and the AC power supply, and a control unit that outputs a switching signal for turning the switch on and off, and controls a rotation speed of the fan by changing a duty ratio of the switching signal. It is characterized by that.

In the air conditioner fan control device according to the first aspect of the present invention, during normal operation, a switch is turned on by a switching signal from the control unit, and the AC power is supplied to the AC motor from the AC power supply to rotate the fan at a predetermined speed. Rotate by number. Thereafter, when the operating condition is such that the air flow of the fan is reduced, the control unit changes the duty ratio of the switching signal to alternately turn on and off the switch, and intermittently energizes the AC motor. When the switch is turned on from off by the switching signal from the control unit, the rotational torque of the AC motor becomes zero, but the fan that was being rotated by the AC motor continues to rotate due to inertia while reducing the rotation speed. When the switch is turned on again by a switching signal from the control unit before the rotation stops, the rotational torque of the AC motor is given to the fan. Then, the average rotational torque of the AC motor decreases, the rotational speed of the fan rotationally driven by the AC motor decreases, and the fan rotates at a lower rotational speed than during normal operation.

As described above, when the control section turns on and off the switch alternately, the control section can control the rotation speed of the fan to be high or low by changing the duty ratio of the switching signal to be large or small. . Therefore, the number of rotations of the fan can be controlled with one switch, and the cost can be reduced. When the duty ratio of the switching signal is set to 100%, the switch is continuously turned on. When the duty ratio of the switching signal is set to 0%, the switch is continuously turned off. And the fan stops.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fan control device for an air conditioner according to the present invention will be described in detail with reference to the illustrated embodiments.

FIG. 1 is a circuit diagram of a fan control device for an air conditioner according to an embodiment of the present invention. As shown in FIG. 1, the fan control device for an air conditioner includes an AC motor 1 having one input terminal connected to one output terminal of an AC power supply 3, and a fan 2 driven by the AC motor 1.
A switch 4 connected between an H tap as the other input terminal of the AC motor 1 and the other output terminal of the AC power supply 3, and a control unit 5 for controlling on / off of the switch 4. I have. The AC motor 1 has an H tap, an M tap, and an L tap (the M tap and the L tap are not shown).

In the air conditioner fan control apparatus having the above-described configuration, when the switch 4 is continuously turned on by a switching signal from the control unit 5 during normal operation, the AC motor 1 is energized and the fan 2 Rotates at a predetermined rotation speed.

FIG. 2 shows the timing of the switching signal output from the control unit 5 to the switch 4.
The switching signal changes depending on whether or not the following fan start / stop condition is satisfied. Outside air temperature is lower than a predetermined lower threshold during cooling operation. The outside air temperature is higher than a predetermined upper threshold during the heating operation. The operating frequency of a compressor (not shown) is lower than a predetermined frequency during cooling or heating operation. There is no command to stop the fan during cooling or heating operation.

When at least one of the fan start / stop conditions and the fan start / stop condition are satisfied (when the fan start / stop condition in FIG. 2 is satisfied), as shown in FIG. , a switching signal for turning on and off the switch 4 alternately in accordance with the oN time T ₁ of the switch 4 which is set in advance (shown in FIG. 1) off and time T _2, the control unit 5 (shown in FIG. 1) outputs AC motor 1
(Shown in FIG. 1). ON time T of the switch 4
_{During 1,} the switch 4 is turned on by the switching signal from the control unit 5, and the fan 2 (shown in FIG. 1) is rotated. After the on-time T ₁ of the aforementioned switch 4 has elapsed, turn off the switch 4 by the switching signal from the control unit 5, the rotational torque of the AC motor 1 to zero. However, fan 2 which has been given a rotation from the AC motor 1 during the off-time T _2, also continues around by the inertia while dropping speed. When the off time T ₂ of the said switch 4 has elapsed, by energizing the AC motor 1 by turning on the switch 4 again by the switching signal from the control unit 5, the rotation of the AC motor 1 before the rotation of the fan 2 is stopped Apply torque to fan 2. Thereafter, the switch 4 is controlled by a switching signal output from the control unit 5 in accordance with the ON time T ₁ and the OFF time T ₂ of the switch 4,
The fan 2 is rotated without stopping. Then, the average rotational torque of the AC motor 1 decreases, the rotational speed of the fan 2 driven to rotate by the AC motor 1 decreases, and the fan 2 rotates at a lower speed than when the switch 4 is continuously on. . At this time, the rotational speed of the fan 2 may be controlled at a desired number of gears by appropriately setting and combining the ON time T1 and the OFF time T2 of the switch 4. For example, the ON time T of the switch 4
1 and the off time T2 are each set to 3 seconds.

When the fan 2 is intermittently receiving rotational power from the motor 1, all of the fan start / stop conditions are not satisfied and the fan start / stop condition is satisfied (the fan in FIG. 2). during start-stop condition is not satisfied), it is necessary to increase the operating capacity, even during the off time of the switch 4 T _2, the control unit 5 by a switch 4 to the continuous on state, the rotation of the fan 2 in a predetermined Rotate by number and return to normal operation.

Although not shown in FIG. 2, when the fan start / stop condition is not satisfied (when there is a command to stop the fan during operation), even if the switch 4 is in the middle of the ON time T1, The switch 4 is turned off by the switching signal from the control unit 5, and the switch 4 is continuously turned off until the fan start / stop condition is satisfied.

As described above, when the switch 4 is alternately turned on and off by the switching signal output from the control unit 5, the duty ratio of the switching signal output from the control unit 5 to the switch 4 depends on the magnitude of the duty ratio.
The rotation speed of the fan 2 is controlled to be high or low. When the duty ratio of the switching signal is set to 100%, the fan 2 rotates at a predetermined rotation speed, and when the duty ratio of the switching signal is set to zero, the rotation of the fan 2 stops. Therefore, without using an inverter circuit for controlling the rotation speed of the fan, the duty ratio of the switching signal for turning on / off one switch 4 is changed, and the fan 2
Can be controlled, so that the circuit can be simplified and the cost can be reduced. Further, since the AC motor may be an AC motor that does not have a plurality of taps, if the number of turns of the AC motor is set to the maximum rotation speed desired to be used, it is not necessary to design a plurality of taps. Can reduce the man-hours required for the development and further reduce the cost.

The control unit 5 controls the number of revolutions of the fan 2 according to the above-mentioned fan start / stop conditions, thereby obtaining an air flow according to the operating condition, and condensing performance of a heat exchanger (not shown) or The evaporating performance can be kept optimal, and the power consumption of the AC motor 1 does not increase by turning the fan 2 too much.

[0018]

As is apparent from the above description, the fan control apparatus for an air conditioner according to the first aspect of the present invention changes the duty ratio of the switching signal output from the control section to change the duty ratio of the switching signal and the AC motor for driving the fan. Since the number of rotations of the fan is controlled by turning on and off a switch connected to the power supply, the number of rotations of the fan can be controlled by one switch, and the cost can be reduced.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of a fan control device for an air conditioner according to an embodiment of the present invention.

FIG. 2 is a timing chart showing a switching signal output by a control unit.

FIG. 3 is a circuit diagram of a conventional fan control device for an air conditioner.

[Explanation of symbols]

1 ... AC motor, 2 ... fan, 3 ... AC power source, 4 ... switch, 5 ... control unit, T ₁ ... on-time, T ₂ ... off time.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hitoshi Kawashima 1000-2 Oya, Okamotocho, Kusatsu-shi, Shiga 2 Daikin Industries, Ltd. Shiga Works F-term (reference) 3L061 BE03 BF01 BF08

Claims (1)

[Claims] An AC motor (1), a fan (2) driven by the AC motor (1), and a switch (4) connected between the AC motor (1) and an AC power supply (3). And a controller for outputting a switching signal for turning on and off the switch (4), and controlling the rotation speed of the fan (2) by changing the duty ratio of the switching signal.
(5) An air conditioner fan control device comprising: