KR20000055409A - Method for controlling refrigerator of the air conditioner - Google Patents

Abstract

PURPOSE: A control method of a coolant amount in an air conditioner is provided to sense and eliminate the damage to a compressor caused by the shortage or excess of the coolant amount or the use inconvenience of a consumer. CONSTITUTION: A test operation key signal is fed from a test operation key signal input unit(22). An indoor temperature sensing unit(21) senses an indoor temperature and transmits the sensed temperature value to a control unit(28) of an outdoor unit. The control unit(28) decides what amount of frequency is established so the pressure of a service valve(27) on a low pressure side as to be a regulative pressure by taking the indoor/outdoor temperatures. The control unit controls the operation of a compressor at the decided frequency. When the high pressure from the compressor is too high or the pressure from an evaporator is too low, high and low pressure service valves(26,27) are acted. Thereby, an electric circuit is blocked and the compressor is stopped.

Description

Refrigerant amount control method of air conditioner {Method for controlling refrigerator of the air conditioner}

The present invention relates to an air conditioner, and more particularly, to a method for controlling a refrigerant amount of a separate air conditioner.

In general, a separate air conditioner is divided into an indoor unit and an outdoor unit. The former exchanges air in the room to lower the room temperature or lower the humidity, and the latter discharges the heated heat out of the indoor unit.

Such indoor units are each made by an evaporator and a fan as indoor heat exchange means, and an outdoor unit is made by a compressor and a condenser as outdoor heat conversion means.

Therefore, the separate type air conditioner performs operations such as cooling and dehumidification by appropriate communication between the indoor unit and the outdoor unit.

Hereinafter, with reference to the accompanying drawings as follows.

1 is a view showing a refrigeration cycle of an air conditioner according to the prior art, Figure 2 is a flow chart showing a refrigerant amount control method of the air conditioner according to the prior art.

As shown in Fig. 1, a cooling cycle in which refrigerant is circulated from the indoor heat exchanger (2) to the compressor (1) to the outdoor heat exchanger (4) to the capillary tube (3), and the indoor heat exchanger (2)-> capillary tube (3)-> outdoor heat exchanger (4)-> operation of the heating cycle circulated to the compressor (1).

Here, the parts not described are the valves 5 which connect the pipes to circulate from the indoor heat exchanger 4 to the compressor 1 or the capillary tube 3.

By the operation of the cooling / heating cycle, the indoor hot air is converted into cold air by heat conversion, and the humidity and temperature of the room are comfortably conversely. The cold air is thermally converted by heat to maintain an appropriate temperature environment.

Referring to the operation of the heating cycle in such an air conditioner, the high temperature and high pressure refrigerant discharged from the compressor 1 is liquefied from the gas state to the liquid state while passing through the indoor heat exchanger (2).

At this time, the high temperature and high pressure refrigerant is delivered to the indoor heat exchanger (2) through a pipe (not shown) and a valve (5) connecting the indoor and outdoor.

The refrigerant liquefied in the indoor heat exchanger (2) undergoes a physical conversion into a liquid refrigerant of low temperature and low pressure while passing through the capillary tube (3), and is then vaporized with low temperature and low pressure gas in the outdoor heat exchanger (4).

The refrigerant vaporized in the outdoor heat exchanger (4) is collected in a condenser (not shown in the outdoor heat exchanger, not shown), separated into gas and liquid, and the low temperature and low pressure gas refrigerant returns to the compressor (1). Maintain circulation

In this heating cycle, if the pipe temperature of the outdoor heat exchanger 4 gradually decreases as the temperature of the external environment decreases, the circulating refrigerant at this time becomes a cooler of a lower temperature, so that the cooling fins of the outdoor heat exchanger 4 ( Freezing occurs when the dew freezes in the city.

In this way, in order to eliminate the freezing phenomenon occurring in the outdoor heat exchanger 4 during the heating cycle of the air conditioner, the compressor 1 is operated by switching the heating cycle of the air conditioner to the cooling cycle which is being performed and the indoor / outdoor fan (not shown). ) Performs a defrosting operation to stop for a predetermined time and when the pipe temperature of the outdoor heat exchanger 4 rises to reach a predetermined value or more, it performs a normal heating cycle again.

Referring to Figure 2 describes the refrigerant amount control method of the air conditioner according to the prior art as follows.

Referring to FIG. 2, in the conventional air conditioner equipped with an indoor unit and an outdoor unit, the pressure on the outdoor unit side is checked (S1), and the checked current pressure is compared with the reference pressure (S2).

If the current pressure is less than the reference pressure, the amount of refrigerant is added (S3). If the current pressure is greater than the reference pressure, the amount of refrigerant is released (S4).

Then, it is determined whether or not the current pressure and the reference pressure is matched, and ends (S5).

However, the refrigerant amount control method of the air conditioner according to the prior art has the following problems.

First, since the pressure is different depending on the configuration characteristics of the air conditioner, it is impossible to accurately seal the amount of refrigerant and thus cannot accurately reflect the pressure change according to the temperature.

Second, since the pressure change cannot be accurately reflected, the temperature rises when the refrigerant is insufficient, causing overheating of the compressor.

Third, when the refrigerant is excessive, the liquid refrigerant flows into the compressor, thereby lowering the reliability.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a refrigerant amount control method of the air conditioner to detect and compensate for compressor damage or consumer inconvenience caused by insufficient refrigerant amount or excess. .

1 is a view showing a refrigeration cycle of an air conditioner

2 is a flow chart showing a refrigerant amount control method of an air conditioner according to the prior art.

Figure 3 is a block diagram showing a refrigerant amount control device of the air conditioner according to the present invention

4 is a flow chart showing a refrigerant amount control method of an air conditioner according to the present invention.

Explanation of symbols for main parts of the drawings

21: room temperature detection unit 22: trial operation key input unit

23: indoor unit control unit 24: liquid injection unit

25 gas inlet 26 high pressure service valve

27: low pressure service valve 28: outdoor unit control unit

29: outdoor temperature sensing unit 30: pressure measuring unit

The present invention is a step of detecting the indoor and outdoor temperature by the indoor temperature sensor and the outdoor temperature sensor after performing the test run by receiving a test key signal in the indoor and outdoor temperature sensing unit, a microcomputer, a compressor And determining an operating frequency required to drive the compressor at a prescribed pressure corresponding to the sensed indoor and outdoor temperatures, and the current of the exhaust gas applied to the compressor after the compressor operation according to the operating frequency determined in the step. Measuring the pressure to determine whether the measured pressure is equal to or higher than the specified pressure; and if the measured pressure is equal to or higher than the specified pressure, the refrigerant is discharged. It is characterized by including the step of ending after.

Hereinafter, with reference to the accompanying drawings as follows.

3 is a layout showing a refrigerant amount control apparatus of the air conditioner according to the present invention, Figure 4 is a flow chart showing a refrigerant amount control method of the air conditioner according to the present invention.

As shown in FIG. 3, the present invention provides an indoor temperature sensing unit 21 for detecting an indoor temperature, a test driving key signal input unit 22, and a key signal input from the test driving key signal input unit 22. The indoor unit controller 23 which receives the indoor temperature sensed by the temperature detector 21 and outputs a control signal, and the indoor temperature transmitted by the indoor unit controller 23 and the outdoor temperature detected by the outdoor temperature sensor 29. And an outdoor unit controller 28 for outputting a control signal.

In addition, the high pressure service valve 26 adjusts the discharge gas (high pressure) discharged from the outdoor unit controller 23, and the liquid inlet 24 is a liquid refrigerant in accordance with the on / off of the high pressure service valve 26. The indoor unit controller 23 outputs the result.

And, the gas injection unit 25 delivers the suction gas (low pressure) to the compressor (not shown) output from the indoor unit control unit 23, the low pressure service valve 27 is applied from the gas injection unit 25 Adjust the suction gas.

The pressure measuring unit 30 is connected to one end of the low pressure service valve 27 to measure the pressure.

In the air conditioner configured as described above, when a test drive key signal is applied from the test drive key signal input unit 22, the indoor temperature detector 21 senses an indoor temperature and transmits a detected temperature value to the outdoor unit controller 28. Send.

The outdoor unit control unit 28 combines the indoor temperature transmitted from the indoor unit control unit 23 and the outdoor temperature sensed outdoors, and at a frequency of a predetermined frequency at which the pressure of the low pressure side service valve 27 becomes a prescribed pressure at this temperature. Decide if you need to drive. Then, the operation of the compressor (not shown) is controlled at the determined frequency.

If the high pressure output from the compressor (not shown) is too high, or the pressure of the evaporator (not shown) is too low, the high pressure service valve 26 and the low pressure service valve 27 operate to cut off the electric circuit, and the compressor ( Omit the illustration).

The refrigerant amount control method of the air conditioner configured as described above will be described with reference to FIG. 4.

First, the present invention performs a trial run by receiving a trial run key signal (S11), and senses the indoor and outdoor temperatures after the trial run (S12).

The detected indoor and outdoor temperatures are collected to determine an operating frequency corresponding to the prescribed pressure corresponding thereto (S13), and a compressor operation is performed according to the determined operating frequency (S14). After the compressor operation, the pressure applied to the compressor is measured (S15).

Then, it is determined whether the measured pressure is equal to or greater than the prescribed pressure (S16), and when the measured pressure is equal to or greater than the prescribed pressure, the refrigerant is released (S17).

If the measured pressure is equal to or less than the specified pressure, a refrigerant is added (S18), and if the measured pressure and the specified pressure coincide, the process is terminated (S19).

As described above, the air conditioner according to the present invention adjusts the pressure and frequency measured during operation in accordance with the predetermined specified pressure and operating frequency to check only whether the pressure meets the specified pressure without considering the pressure change according to the temperature conditions, Refrigerant amount can be checked.

In addition, when the method is applied to a variable speed inverter air conditioner, the driving frequency is controlled. In the case of the general constant speed type, the amount of refrigerant can be controlled by adjusting the voltage applied to the compressor using a boost transformer. Can be.

Refrigerant amount control method of the air conditioner according to the present invention can control the compressor at the operating frequency according to the specified pressure irrespective of the condition, so that the refrigerant amount can be precisely sealed, thus preventing damage to the compressor in advance and easily detecting inconvenience. There is an effect that can be supplemented.

Claims (2)

In the air conditioner with indoor and outdoor temperature sensing unit, microcomputer, and compressor, Sensing indoor and outdoor temperatures by the indoor temperature detector and the outdoor temperature detector after receiving a test key signal; Determining an operating frequency required to drive the compressor at a prescribed pressure corresponding to the sensed indoor and outdoor temperatures; Determining whether the measured pressure is greater than or equal to a prescribed pressure by measuring the pressure of the exhaust gas applied to the compressor after the compressor operation according to the operation frequency determined in the step; If the measured pressure is equal to or higher than the specified pressure, the refrigerant is discharged; and if the measured pressure is equal to or less than the specified pressure, adding the refrigerant to match the measured pressure and the prescribed pressure, and then terminating the refrigerant amount of the air conditioner Way. The method of claim 1, The operating frequency corresponding to the prescribed pressure is a preset amount of the refrigerant control method of the air conditioner, characterized in that the preset.