KR0117769Y1 - Control circuit for cooling fan motor of cooling machinery - Google Patents

Abstract

The present invention relates to a fan motor control circuit for cooling a cold device, and in particular, a fan motor control circuit for a cold device to reduce the starting characteristics and power consumption of the compressor by controlling the cooling fan motor according to the outside temperature. It is about.

To this end, the microcomputer 2 for controlling the compressor 5 and the cooling fan motor 6 by controlling the first drive circuit 7 composed of an inverter and a control switch after reading the output signal of the ambient temperature sensor 1. In the cooling fan motor control circuit of the cold air device including a, a second drive circuit 10 is added between one side end of the microcomputer 2 and the cooling fan motor 6 to control the microcomputer 2. The compressor 5 and the cooling fan motor 6 are driven independently by signals.

Description

Fan motor control circuit for cooling equipment

1 is a control circuit diagram of a fan motor for cooling a conventional cold air machine.

2 is a fan motor control circuit for cooling a refrigerator

3 is a flow chart of the control unit according to the present proposal

* Explanation of symbols for main parts of the drawings

1: outside temperature sensor 2: microcomputer

3,8: Inverter 4,9: Control switch

5: Compressor 6: Fan motor for cooling

7: first drive circuit 10: second drive circuit

The present invention relates to a cooling fan motor control circuit for a cooling device. In particular, a cooling fan motor control circuit for a cooling device is used to control the cooling fan motor according to the recirculation temperature to reduce the starting characteristics and power consumption of the compressor. It is about.

In general, the fan motor control circuit of the cold air device is configured to simultaneously operate the cooling fan motor when the compressor is operated regardless of the outside temperature.

That is, as shown in FIG. 1, the resistor R1 and the outside temperature sensor 1 are connected in series to the power supply terminal Vcc, and the resistor R1 is connected to the parallel connection point of the resistor R1 and the outside temperature sensor 1. A first drive circuit 7 having an inverter 3 and a control switch 4 connected in series is connected to an output terminal of the microcomputer 2 through R2), and the first drive connected to the microcomputer 2. The compressor 5 and the cooling fan motor 6 are connected in parallel to the output side of the circuit 7.

In the conventional fan motor control circuit for cooling a cold air device configured as described above, first, the external air temperature sensor 1 changes its resistance value proportionally according to the outdoor air temperature of the cold air device. The voltage is divided by the outside temperature sensor 1 and then transmitted to the microcomputer 2 through the resistor R2.

At this time, the microcomputer 2 reads the voltage through the outside temperature sensor 1 and converts it into a temperature value by a built-in program, and then outputs a low signal when the outside temperature value is higher than the set reference temperature. Is inverted to a high level via the inverter 3, which is the first drive circuit 7, so that the control switch 4 is connected to the on state, thereby simultaneously connecting the compressor 5 and the cooling fan motor 6. Will be driven.

However, when the outside temperature value read from the microcomputer 2 is equal to or less than the set reference temperature, a high level signal is output, and the signal is turned off by inverting the control switch 4 to the low level in the inverter 3. The compressor 5 and the cooling fan motor 6 are stopped.

In the conventional cooling fan motor control circuit of the conventional cold air device, when the compressor and the cooling fan motor are connected in parallel, when the compressor is driven in the microcomputer regardless of the ambient temperature, the cooling fan motor is simultaneously driven so that the ambient temperature is set. When the level is lower than the compressor, the starting characteristic of the compressor is lowered and the power consumption by the unnecessary fan driving is increased, thereby reducing the reliability of the cold air machine.

In order to solve the above problems, this paper adds a drive circuit that controls a separate cooling fan motor to the microcomputer to independently control the fan motor. However, if the outside temperature is lower than a certain level, the compressor is used for cooling. The fan motor is kept off, and when the outside temperature is above a certain temperature, the fan motor is driven after a predetermined time after starting the compressor, and the fan motor is stopped after a predetermined time after the compressor is stopped to improve the starting characteristics of the compressor. At the same time it is an object of the present invention to provide a fan motor control circuit for cooling a cold air device to minimize the power consumption to contribute to improving the reliability of the cold air device.

The present invention for realizing the above object is to read the output signal of the outside temperature sensor 1, and then control the first drive circuit (7) consisting of an inverter and a control switch to the compressor (5) and the cooling fan motor A fan motor control circuit for cooling a cold air machine including a microcomputer (2) for controlling (6). An additional second drive circuit 10 is added between one side end of the microcomputer 2 and the cooling fan motor 6 to control the compressor 5 and the cooling fan motor by the control signal of the microcomputer 2. 6) is to be driven independently of each other.

Hereinafter, described in detail by the accompanying drawings as follows.

2 is a circuit diagram for controlling a fan motor for cooling a cold air apparatus according to the present invention, in which a resistor R1 and an outside temperature sensor 1 are connected in series to a power supply terminal Vcc, and the resistor R1 and the outside temperature sensor ( A first drive circuit 7 having a parallel connection point of 1) connected to a microcomputer 2 through a resistor R2, and an inverter 3 and a control switch 4 connected in series at one output terminal of the microcomputer 2. Is connected, and the compressor 5 is connected to the output side of the first drive circuit 7.

In addition, the cooling fan motor 6 is connected to the other output terminal of the microcomputer 2 through the second drive circuit 10 in which the inverter 8 and the control switch 9 are connected in series.

3 is a flowchart of operation of the microcomputer 2 according to the present invention.

Referring to the present invention made as described above in detail with reference to Figures 2 to 4, first, the external air temperature sensor (1) is the resistance of the VCC according to the self-resistance value is proportionally changed according to the ambient air temperature of the cold air device The voltage is divided by R1 and the outside temperature sensor 1 and then transmitted to the microcomputer 2 through the resistor R2.

At this time, the microcomputer 2 reads the voltage through the outside temperature sensor 1 and converts the voltage into a temperature value by a built-in program, and then the first and second drive circuits 7 and 10 according to the outside temperature value. Individual control is to drive the compressor 5 and the cooling fan motor 6 independently of each other.

That is, referring to the control process of the compressor 5 and the cooling fan motor 6 performed according to the operation flow diagram of the microcomputer shown in FIG. 3, first, in step 101, the microcomputer 2 sets the outside air temperature and the reference temperature. After comparison, step 102 is performed when the outside air temperature read by the microcomputer 2 is higher than the set reference temperature.

In step 102, the microcomputer 2 determines whether the compressor 5 is started, and if the compressor 5 is started, step 103 is performed, otherwise step 107 is performed.

In step 103, the microcomputer 2 initializes the drive delay time (t2 = 2 minutes) of the cooling fan motor 6, and in step 104, the drive time of the compressor 5 (t1 = 5 minutes). Count

In step 105, the microcomputer 2 determines whether the time counted in the step 104 has been completed by a predetermined time t1, and in step 106, the microcomputer 2 is completed by the predetermined time t1. At this point in time, the second drive circuit 10 is controlled to operate the cooling fan motor 6.

On the other hand, if it is determined in the step 102 that the compressor 5 is not started when the outside temperature is higher than the reference temperature, the microcomputer 2 drives the compressor 5 in step 107. After the time t1 is initialized (step 107), the first drive circuit 7 is controlled to start the female accumulator 5.

Thereafter, in step 108, the microcomputer 2 counts the driving delay time t2 of the cooling fan motor 6, and in step 109, the time counted in the step 108 is a predetermined time t2. Determine if it is completed.

As a result of the determination in step 109, when the predetermined time t2 is completed, the microcomputer 2 stops the driving of the cooling fan motor 6.

In addition, as a result of the determination in step 101, when the outside air temperature is lower than the reference set temperature, in step 111, the microcomputer 2 causes the cooling fan motor 6 to stop unconditionally.

As described above, the present invention controls the fan motor by adding a drive circuit for controlling the cooling fan motor to the microcomputer in controlling the cooling fan motor of the cold air machine, but if the outside temperature is below a certain level. Regardless of whether the compressor is operating or not, the cooling fan motor is kept off, and when the outside temperature is above a certain temperature, the fan motor is driven after a predetermined time after the compressor is started, and the fan motor is stopped after a predetermined time after the compressor is stopped. By improving the starting characteristics of the compressor and by minimizing the power consumption can contribute to the improvement of the reliability of the cold air equipment.

Claims (1)

After reading the output signal of the outside air temperature sensor 1, the first drive circuit 7 composed of the inverter 3 and the control switch 4 is controlled to control the compressor 5 and the cooling fan motor 6. In a cooling fan motor control circuit of a cold air device including a microcomputer 2, a connection between one end of the microcomputer 2 and the cooling fan motor 6 is performed to reverse the output of the microcomputer 2. A second drive circuit (10) comprising a inverter (8) and a control switch (9) switched according to the output of the inverter (8) is provided separately, and the microcomputer (2) is connected to the outside air temperature sensor (1). If the outside air temperature detected by the predetermined temperature is below a predetermined level, the cooling fan motor 6 is kept off regardless of whether the compressor 5 is operated. If the outside air temperature is above a predetermined temperature, the compressor 5 Drive the cooling fan motor 6 after a predetermined time after And stopping the cooling fan motor (6) after a predetermined time elapses after the compressor (5) is stopped.