KR100252822B1 - Method for controlling a compressor in an air conditioning - Google Patents

Abstract

PURPOSE: A method for controlling operation of compressor of inverter air conditioner is provided to achieve an improved durability of compressor of inverter air conditioner while reducing energy consumption. CONSTITUTION: A method comprises a first step(100-104) of measuring the temperature(T) of the indoor heat exchanger and comparing the measured temperature with a first preset temperature(X) so as to judge whether the measured temperature has reached the first preset temperature; a second step(106-108) of entering into a freeze prevention control mode for reducing the operating frequency at every preset time intervals until the operation frequency reaches the first preset frequency, if it is judged in the first step that the measured temperature has reached the first preset temperature(X); a third step(110) of judging whether the operation frequency has reached the first preset frequency; a fourth step(112,114) of canceling the freeze prevention control mode, if it is judged in the third step that the operation frequency has reached the first preset frequency and the temperature of the indoor heat exchanger is higher than a second preset temperature(X+2); and a fifth step(107) of turning off the compressor if the measured temperature of the indoor heat exchanger is lower than a third preset temperature(X-4).

Description

TECHNICAL FOR CONTROLLING A COMPRESSOR IN AN AIR CONDITIONING

The present invention relates to an inverter air conditioner, and more particularly, to control the on / off and driving frequency of the compressor step by step according to the indoor heat exchanger temperature detected by the indoor heat exchanger temperature sensor of the inverter air conditioner to prevent freezing of the air conditioner. A compressor control method for an inverter air conditioner.

An air conditioner is one of the air conditioners used to properly cool a room using a cooling cycle. In recent years, the value of use of air conditioners has been widely expanded throughout society.

The cooling cycle used in such an air conditioner converts the high pressure vapor refrigerant compressed by the compressor into the high pressure liquid refrigerant through the condenser, and then converts the low pressure liquid refrigerant through the expansion valve to vaporize the liquid refrigerant through the evaporator. It has a structure that absorbs heat around the evaporator and provides cool air to the room by driving the fan.

The above-described cooling cycle is performed by the microcomputer in the air conditioner comparing the temperature measured by the temperature sensor installed in the air conditioner to selectively drive the compressor. In the case of the inverter air conditioner, a closer relationship is formed between the operation of the compressor and the temperature change. have.

That is, when the inverter air conditioner is operated, the inside of the air conditioner may be frozen due to a change in indoor / outdoor temperature and an increase in the compressor driving frequency. After measuring the temperature, when the temperature is below a certain temperature, a method of increasing the indoor heat exchanger temperature by reducing the driving frequency of the compressor to a predetermined frequency, for example, 16 Hz, is adopted.

However, in the conventional compressor control method, when the temperature is lower than a certain temperature, the driving frequency of the compressor is unilaterally reduced, that is, the driving frequency control is not accurate.

Therefore, problems associated with weakening durability due to excessive control of the compressor and power loss due to unnecessary compressor control have emerged.

Accordingly, the present invention has been made to solve the above problems, by controlling the on / off and driving frequency of the compressor step by time according to the indoor heat exchanger temperature detected by the indoor heat exchanger temperature sensor of the inverter air conditioner of the air conditioner Its purpose is to provide a compressor control method for an inverter air conditioner to prevent freezing.

That is, the present invention provides a method for controlling the compressor drive frequency of an inverter air conditioner having an indoor heat exchanger, comprising: a first step of measuring a temperature of an indoor heat exchanger and comparing the temperature with a set temperature; A second step of entering a freeze protection control mode controlling a driving frequency when the indoor heat exchanger temperature reaches the first set temperature as a result of the comparison; A third step of determining whether the driving frequency reaches the first set frequency after performing the second step; A fourth step of releasing the freeze protection control mode if the drive frequency reaches the first set frequency and the indoor heat exchanger temperature is greater than or equal to the second set temperature; And a fifth step of stopping the compressor if the indoor heat exchanger temperature (T) is less than or equal to the third set temperature.

1 is a block diagram of an inverter air conditioner for carrying out the method according to the invention,

FIG. 2 is a flowchart of a process in which the compressor of the inverter air conditioner is selectively controlled according to the indoor heat exchanger temperature measured by the indoor heat exchanger temperature sensor of FIG. 1;

3 is a temperature curve detected by the indoor heat exchanger temperature sensor of FIG.

<Description of the code | symbol about the principal part of drawing>

10: room heat exchanger temperature sensor 20: microcomputer

30: memory 40: compressor

T: room heat exchanger temperature X: first set temperature

X + 2: second set temperature X-4: third set temperature

The above objects and various advantages of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an inverter air conditioner for carrying out the method according to the invention, comprising an indoor heat exchanger temperature sensor 10, a microcomputer 20, a memory 30 and a compressor 40.

The indoor heat exchanger temperature sensor 10 is mounted at a predetermined position of a copper tube (not shown) of the indoor heat exchanger, and measures the change in the copper tube temperature of the indoor heat exchanger according to the operation of the air conditioner to provide the measured temperature to the microcomputer 20. do.

The microcomputer 20 selectively drives the compressor 40 according to the indoor heat exchanger copper tube temperature measured by the indoor heat exchanger temperature sensor 10, and when a predetermined temperature value is input from the indoor heat exchanger temperature sensor 10, the compressor ( A temperature control mode for controlling the drive frequency of 40) is executed.

The memory 30 stores different temperature data and frequency data, and these data are selectively read by the microcomputer 20. That is, the microcomputer 20 compares the temperature measured by the indoor heat exchanger temperature sensor 10 with the temperature data read by the memory 30 to drive the compressor 40.

Along with the above-described configuration, it will be described in detail with reference to the flowchart of Fig. 2 attached to the process of selectively controlling the compressor 40 according to the temperature detected by the copper tube of the indoor heat exchanger of the inverter air conditioner according to the present invention.

First, when a key signal for driving the compressor 40 is applied to the microcomputer 20 by the key signal input unit (not shown), the microcomputer 20 outputs a control signal to the compressor 40 (step 100).

When the compressor 40 is driven according to the control signal of the microcomputer 20, the changing indoor heat exchanger copper tube temperature T is applied to the indoor heat exchanger temperature sensor 10 mounted at a predetermined position of the copper tube of the indoor heat exchanger. Is continuously measured (step 102).

The temperature T measured by the indoor heat exchanger temperature sensor 10 is composed of a distribution in which the temperature on the vertical axis increases or decreases as time passes on the horizontal axis, as shown in the temperature curve of FIG. 3. That is, each temperature data (unit: ° C) previously stored in the memory 30 is set to the first set temperature (X), the second set temperature (X + 2), the third set temperature (X-4), respectively When the temperature T measured by the indoor heat exchanger temperature sensor 10 reaches this set temperature, the microcomputer 20 turns on or off the compressor 40 or changes the driving frequency.

On the other hand, the measured indoor heat exchanger temperature (T) is input to the microcomputer 20, the microcomputer 20 is a temperature T input from the indoor heat exchanger temperature sensor 10 and the set temperature read from the memory 30 Compare If the indoor heat exchanger temperature T reaches the first set temperature X, for example 6 ° C. (step 104) (the set temperature may vary depending on the capacity of the air conditioner). The mode of the air conditioner is changed to the freeze protection control mode for controlling the frequency (step 108).

In this case, the freezing prevention control mode is a mode in which the driving frequency is reduced in units of a second set frequency, for example, 2 Hz, until a preset frequency, for example, every 30 seconds, reaches a first set frequency, for example, 16 Hz (step 110).

This anti-freeze control mode is released if the drive frequency reaches the first set frequency and the indoor heat exchanger temperature T is above the second set temperature (X + 2), for example 8 ° C. (step 112), (Step 114).

In addition, the microcomputer 20 senses the indoor heat exchanger temperature T, and outputs a control signal for stopping the compressor 40 when the indoor heat exchanger temperature T is equal to or greater than the second set temperature X + 2. (Step 107).

On the other hand, the microcomputer 20 detects the indoor heat exchanger temperature (T) after performing the above-described step 104, so that the indoor heat exchanger temperature (T) is the third set temperature (X-4), for example, 2 ° C If it is below, a control signal for stopping the compressor 40 is output (step 107).

As described above, the present invention not only eliminates the discomfort caused by the rapid temperature change, but also improves the durability of the compressor of the inverter air conditioner, and has an effect of contributing to energy saving.

Claims (4)

A compressor driving frequency control method for an inverter air conditioner having an indoor heat exchanger, A first step of measuring the temperature (T) of the indoor heat exchanger and comparing it with a set temperature; As a result of the comparison, when the indoor heat exchanger temperature (T) reaches the first set temperature (X), freezing prevention to reduce the driving frequency by a second set frequency unit until a first set frequency is reached at each preset time. A second step of entering a control mode; A third step of determining whether the driving frequency reaches the first set frequency after performing the second step; A fourth step of releasing the freeze protection control mode when the driving frequency reaches the first set frequency and the indoor heat exchanger temperature (T) is equal to or greater than a second set temperature (X + 2); And measuring the indoor heat exchanger temperature (T) to stop the compressor if the indoor heat exchanger temperature (T) is less than or equal to a third set temperature (X-4). Compressor control method. The method of claim 1, Compressor control method of the inverter air conditioner, characterized in that the preset time is 30 seconds. The method of claim 1, The compressor control method of the inverter air conditioner, characterized in that the first set frequency is 16Hz. The method of claim 1, And the second set frequency is 2 Hz.

Images