KR100225639B1 - Air conditioner compressor control apparatus - Google Patents

Abstract

The present invention relates to a compressor control apparatus of an air conditioner, comprising: a current sensing means for sensing a current supplied to an outdoor unit, the outdoor unit having a compressor driven at an operating frequency determined according to outdoor conditions and an indoor unit's instruction; And control means for varying the maximum operation current according to the operation frequency of the compressor to variably set the current maintenance and current release values, and variably control the frequency of the compressor according to the outdoor unit current sensed by the current sensing means. In addition, by limiting the maximum operating current compared to the frequency of the compressor, by actively controlling the frequency of the compressor according to the current of the outdoor unit to protect the outdoor unit, it is possible to improve the operating efficiency of the outdoor unit.

Description

Compressor Controller of Air Conditioner

The present invention relates to an inverter air conditioner for driving a compressor by varying a frequency, and more particularly, to a compressor control device for an air conditioner that increases the efficiency of an outdoor unit by controlling a frequency of the compressor according to a current supplied to an outdoor unit.

In general, as shown in FIG. 1, a conventional air conditioner includes a converter unit 3 for converting an AC input power supplied from an AC power source stage 1 into a DC power source, and a DC converted from the converter unit 3. A power supply unit 5 for receiving power and converting it into a predetermined DC voltage required for driving the air conditioner (the microcomputer driving power supply of DC 5V and the load driving power supply of DC 12V) and the DC power output from the power supply unit 5; The controller 7 not only initializes the air conditioner by applying a voltage, but also determines an operating frequency of the compressor 11 according to outdoor conditions and instructions of an indoor unit, and outputs an inverter driving signal, and the operation determined by the controller 7. According to a drive signal output from the controller 7 to rotate the compressor 11 according to the frequency, a power transistor, not shown, is alternately turned on or turned off and output from the converter unit 3. It consists of the inverter part 9 which converts DC power supply into 3-phase AC power supply.

In the air conditioner configured as described above, when the AC input power is supplied, the AC input power is converted into the DC power in the converter unit 3, and the converted DC power is input to the power supply unit 5 to drive the air conditioner. Is converted into a microcomputer driving power supply of DC 5V and a load driving power supply of DC 12V and supplied to the control unit 7 and the inverter unit 9.

Therefore, the control unit 7 receives the DC voltage (microcomputer drive power) output from the power supply unit 5 to initialize the air conditioner.

At this time, when the user operates the key operation unit provided on the control panel of the remote controller or the indoor unit, inputs the desired operation mode and the set temperature, and turns on the operation key, the controller 7 controls the compressor according to the outdoor condition and the indoor unit. A driving frequency of 11) is determined and an inverter driving signal is output to the inverter unit 9.

Accordingly, the inverter unit 9 alternately turns on or off the six power transistors (not shown) according to the driving signal output from the control unit 7 to thereby output the DC power output from the converter unit 3 to 3. When converted into phase AC power and outputted, the compressor 11 rotates by the three-phase (u phase, v phase, w phase) AC power output from the inverter part 9.

That is, the inverter unit 9 supplies the compressor 13 with an operating frequency of the compressor 11 and a corresponding current (the maximum operating current of the outdoor unit B) in response to the cooling or heating capacity required for the operation of the air conditioner. The compressor 11 is driven at an operating frequency.

At this time, when the current supplied to the outdoor unit is sensed and the detected current is B-2 [A] shown in FIG. 2, the current of the compressor 11 is maintained to suppress further increase of the current, and the current is caused by any factor. Is continuously increased and becomes B-1 [A], thereby lowering the frequency of the compressor 11 to lower the current, thereby protecting the outdoor unit.

The frequency of the compressor 11 is lowered until the sensing current B-3 [A], and when B-3 [A], the frequency drop of the compressor 11 is released and the compressor is operated at an appropriate operating frequency by communication with the indoor unit. (11) is driven.

However, in such a conventional air conditioner, by limiting the maximum operating current B [A] regardless of the frequency of the compressor 11, it is not possible to effectively protect the outdoor unit when the frequency of the compressor 11 is low. In addition, since the frequency of the compressor 11 is lowered until the sensing current B-3 [A], the rise and fall of the frequency of the compressor 11 by the current control is repeated several times, thereby degrading the efficiency and performance of the outdoor unit. .

Accordingly, the present invention has been made in order to solve the above-mentioned conventional problems, by limiting the maximum operating current to the frequency of the compressor, by actively controlling the frequency of the compressor according to the current of the outdoor unit to protect the outdoor unit, the operation of the outdoor unit It is an object of the present invention to provide a compressor control device of an air conditioner that maximizes efficiency.

In order to achieve the above object, a compressor control apparatus of an air conditioner according to the present invention is an outdoor unit having a compressor driven at an operating frequency determined according to outdoor conditions and an indoor unit's instruction, the current sensing current supplied to the outdoor unit. Control means for limiting the maximum operating current in accordance with the operating frequency of the compressor, and setting the current maintenance and current release value variably, and control the variable frequency of the compressor in accordance with the outdoor unit current sensed by the current sensing means It is characterized by consisting of means.

1 is a compressor control block diagram of a conventional air conditioner.

2 is a graph showing a frequency operation region of a compressor according to a conventional outdoor current.

3 is a control block diagram of a compressor control apparatus of an air conditioner according to an embodiment of the present invention.

4 is a graph showing the frequency control of the compressor according to the outdoor current of the present invention.

* Explanation of symbols for main parts of the drawings

15: converter means 20: power supply means

25 control means 26 frequency determining unit

27: inverter drive unit 30: inverter means

31 compressor 35 temperature sensing means

40: current sensing means 50: outdoor fan driving means

60: communication means

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

As shown in FIG. 3, the converter means 15 rectifies and smoothes the AC input power supplied from the AC power supply stage 1 to the DC power, and the power supply means 20 is connected to the converter means 15. Is a SMPS (Swithching Mode Power Supply) that receives the converted DC power and converts it into a predetermined DC voltage (DC 5V microcomputer driving power supply, DC 12V load driving power supply) required for driving the air conditioner.

The control unit 25 receives the DC voltage output from the power supply unit 20 to initialize the air conditioner and determines the operating frequency of the compressor 31 according to the outdoor condition and the indoor unit to determine the inverter driving signal. As a microcomputer for outputting, the control means 25 includes a frequency determining unit 26 for determining an optimum operating frequency of the compressor 31 based on the situation of the outdoor unit and the frequency or the indoor unit state instructed by the indoor unit, and the frequency determining unit. And an inverter driver 27 which amplifies the PWM signal output from the control means 25 into an inverter drive signal to rotate the compressor 31 in accordance with the operation frequency determined in (26).

In addition, the inverter means 30 alternately turns on or turns off six power transistors (not shown) according to a driving signal output from the inverter driver 27 of the control means 25 to convert the converter means 15. The DC power output from the converter is converted into a three-phase (u-phase, v-phase, w-phase) AC power having a variable frequency and a variable voltage suitable for the operating frequency of the compressor 31, and is supplied to the compressor 31, and temperature sensing The means 35 is a thermistor for sensing the outdoor temperature, the outlet temperature of the compressor 31 and the outdoor heat exchanger temperature.

The current sensing means 40 controls the voltage with respect to the operating frequency input to the compressor 31 constantly so that the compressor 31 is supplied to the outdoor unit from the AC power supply stage 1 so that the compressor 31 exhibits maximum efficiency and maximum performance. Detect the amount of change in current of the input power and output to the control means 25, the outdoor fan driving means 50 receives the control signal output from the control means 25 to control the outdoor fan on / off as well Control the speed (speed), and the communication means 60 is a communication cable for transmitting and receiving data to and from the indoor and outdoor periods.

Hereinafter, the effect of the compressor control device of the air conditioner configured as described above will be described.

First, when power is applied to the air conditioner, the AC input power supplied from the AC power source 1 is rectified and smoothed by the converter means 15 to convert into DC power, and the DC power converted by the converter means 15. Is inputted from the power supply means 20 and converted into a microcomputer driving power supply of DC 5V and a load driving power supply of DC 12V necessary for driving the air conditioner and outputted to the control means 25.

Therefore, the control means 25 receives the DC voltage (microcomputer drive power) output from the power supply means 20 to initialize the air conditioner.

At this time, when a user inputs a desired operation mode by operating a key operation unit provided on a control panel of a remote controller or an indoor unit, and then turns on the operation key, the control unit 25 indicates a state of the outdoor unit and a frequency or indoor unit state instructing the indoor unit. On the basis of this, the frequency of the compressor 31 is determined by the frequency determining unit 26 to output the inverter drive PWM signal to the inverter driver 27 to rotate the compressor 31.

Accordingly, the inverter driver 27 amplifies the PWM signal output from the control means 25 to alternately turn on or turn off six power transistors (not shown) of the inverter means 30 to convert the converter means 15. After converting the DC power outputted from the into a three-phase AC power of the desired frequency and outputting, the compressor 31 is rotated by the three-phase (u-phase, v-phase, w-phase) AC power output from the inverter means 30 do.

Accordingly, the inverter means 30 supplies the operating frequency of the compressor 31 and the corresponding current to the compressor 31 in response to the cooling or heating capability required for the operation of the air conditioner, thereby providing the compressor 31 at the desired operating frequency. Drive.

When the compressor 31 is driven according to the determined operating frequency, the control means 25 shows the off current value, the falling current value, the holding current value and the release current value according to the operating frequency of the compressor 31 as shown in FIG. As described above, the current sensing means 40 detects the amount of change in the AC input power supplied to the outdoor unit from the AC power source 1.

When the current of the outdoor unit detected by the current sensing means 40 becomes B-2 [A] shown in FIG. 2, the current of the compressor 31 is maintained to suppress further increase of current, If the current continues to increase, the release current value corresponding to the frequency of the compressor 31 is stored just before the B-1 [A], and when the current reaches B-1 [A], the frequency of the compressor 31 is decreased. It protects the outdoor unit by lowering the current.

When the frequency of the compressor 31 decreases, the frequency of the compressor 31 decreases until the stored release current value is reached. When the stored current reaches the released current value, the frequency drop of the compressor 31 is released. The compressor 11 is driven at an appropriate operating frequency by communication with the indoor unit.

In this way, the release current value according to the frequency of the compressor 31 is stored just before the detection current becomes B-1 [A], and the compressor is used as compared with the conventional current control method by utilizing the current value stored at the time of release. It is possible to prevent the frequency of 31 from falling unnecessarily, thereby increasing the operating efficiency of the outdoor unit.

According to the compressor control apparatus of the air conditioner according to the present invention as described above, by limiting the maximum operating current to the frequency of the compressor, by actively controlling the frequency of the compressor according to the current of the outdoor unit to protect the outdoor unit, There is an effect that can improve the driving efficiency.

Claims (1)

A variable frequency control of the compressor according to an outdoor condition and a compressor driven at an operating frequency determined according to an indoor unit, current sensing means for sensing a current supplied to the outdoor unit, and outdoor unit current sensed by the current sensing means. In the air conditioner provided with the control means, the control means limits the maximum operating current in accordance with the operating frequency of the compressor, sets the current holding and current release values, and stores the set current release value to reduce the frequency of the compressor. Compressor control device of the air conditioner, characterized in that to prevent.

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