KR20020056232A - Method for checking thermo sensor in air-conditioner - Google Patents

Abstract

PURPOSE: A method for checking condition of temperature sensor of air conditioner is provided to check operational condition of the temperature sensor during operation of the air conditioner. CONSTITUTION: A method includes the steps of: a step executing operation at reference operational frequency and reference degree of superheat of discharge according to temperature set up by a user; a step calculating difference between discharge temperature detected by a discharge temperature sensor installed on a discharge tube of a compressor and condensation temperature detected by a condensation temperature sensor installed on a condenser to continuously calculate degree of superheat of discharge; and a step transmitting sensor check message when the degree of superheat of discharge calculated during operation is lower than setup limit value.

Description

Air Conditioning Temperature Sensor Steady State Check Method {METHOD FOR CHECKING THERMO SENSOR IN AIR-CONDITIONER}

The present invention relates to a method for checking an air conditioner temperature sensor steady state, and more particularly, to a method for checking an air conditioner temperature sensor steady state to detect a normal state of a temperature sensor measuring discharge overheating during operation.

In general, the refrigeration cycle apparatus, as shown in Figure 1, the working fluid, that is, the compressor (10) for compressing and converting the refrigerant to a high temperature and high pressure state, and the refrigerant in the high temperature and high pressure state compressed by the compressor 10 is Condenser 20 for discharging the latent heat to the outside while converting to, expansion means 30 for reducing the pressure by adjusting the flow rate of the refrigerant converted into the liquid phase in the condenser 20, and expansion in the expansion means 30 It comprises an evaporator 40 for absorbing the external heat while evaporating the refrigerant in the liquid state to the gas, each component is connected by a connecting pipe (50).

In the refrigeration cycle apparatus as described above, when the power is applied and the compressor 10 operates, the high-temperature, high-pressure gaseous refrigerant compressed by the compressor 10 flows into the condenser 20, and the condenser 20 flows into the condenser 20. The high-temperature, high-pressure gaseous refrigerant is converted into a liquid state while passing through the condenser 20 to a liquid state while passing through the expansion means 30 while passing through the expansion means 30. As it is lowered is introduced into the evaporator 40. The low-temperature low-pressure liquid state refrigerant flowing into the evaporator 40 changes to a gas state while passing through the evaporator 40 to absorb external heat, and the refrigerant in the gas state evaporated from the evaporator 40 is a compressor ( 10) inhaled and compressed. At this time, the condenser 20 and the evaporator 40 is also called a heat exchanger because the heat exchange with the outside.

On the other hand, an air conditioner (AIR-CONDITIONER; also known as an air conditioner) to keep the room in a comfortable state is equipped with the refrigeration cycle device is mounted inside the blower fan on the condenser 20 and the evaporator 40 side, respectively. The room is heated or cooled by circulating flow of heat and cold air respectively discharged from the condenser 20 and the evaporator 40.

The air conditioner has a general form having only a cooling function to keep the room in a cold state according to the outside air, and a form having both cooling and heating functions to keep the room in a cool state or a warm state according to the outside air, etc. ) And the condenser 20 are separated from the indoor unit and the outdoor unit so that the condenser 20 is installed indoors and outdoors, respectively, and the evaporator 40 and the condenser 20 are configured as one unit. The air conditioner includes an air conditioner in which the compressor 10 is operated at a constant frequency and an inverter air conditioner in which the compressor 10 is operated at a variable speed frequency.

On the other hand, the operation control of the air conditioner first when the user inputs the set temperature accordingly, the reference operation frequency and the reference discharge superheat of the air conditioner is input to the microcomputer and then the operation is performed. At this time, the discharge temperature sensor mounted on the discharge pipe located on the discharge side of the compressor and the temperature detected by the condensation temperature sensor mounted on the condenser 20 side while adjusting the expansion valve constituting the expansion means 30 and the discharge and In addition to reaching the archipelago, the current value detected by the internally mounted ammeter is adjusted to the reference operating frequency by adjusting the frequency within a range not exceeding the maximum value. The discharge superheat degree is a value for the difference between the discharge temperature of the compressor 10 and the condensation temperature. That is, the discharge superheat degree is a value obtained by subtracting the condensation temperature from the discharge temperature. If the discharge superheat degree is large, the opening degree of the expansion valve 30 is increased to increase the flow rate of the refrigerant flowing through the expansion valve 30. When the discharge superheat is small, the opening degree of the expansion valve 30 is reduced to increase the flow rate of the refrigerant flowing through the expansion valve 30 so that the discharge superheat is maintained in a set state. The microcomputer is connected to the evaporator temperature sensor mounted on the evaporator 40 side to check the short circuit of the evaporator temperature sensor.

As shown in Figure 2, the condensation temperature sensor and the discharge temperature sensor, the sensor holder 60 having a receiving space of a predetermined shape is coupled to one side of the discharge pipe and the condenser 20 of the compressor 10, respectively The temperature sensors 70 are inserted into the sensor holders 60, respectively.

However, in the conventional control method as described above, the discharge temperature sensor 70 and the condensation temperature sensor 70 for detecting the discharge temperature of the compressor 10 and the condensation temperature in the condenser 20, which are the determinants of the discharge superheat degree. Is not operating properly, that is, when the discharge temperature sensor 70 and the condensation temperature sensor 70 is pulled out or malfunctions in the sensor holder 60, it detects and controls the wrong temperature value during the long time operation of the compressor (10). Excessive load or fatal damage occurs to the other parts and other parts, in particular, the discharge temperature sensor 70 has a problem that the expansion valve 30 is malfunctioned to significantly reduce the reliability of the product.

An object of the present invention devised in view of the above point is to provide an air conditioner temperature sensor steady state check method for checking the operating state of the temperature sensor during operation of the air conditioner.

1 is a piping diagram showing a general refrigeration cycle device as a symbol,

2 is a flow chart showing an example of a conventional air conditioner operation control method;

3 is a cross-sectional view showing a state of mounting a temperature sensor of the air conditioner,

Figure 4 is a flow chart illustrating a method for checking air conditioner temperature sensor steady state of the present invention.

(Explanation of symbols for the main parts of the drawing)

10; Compressor 20; Condenser

30; Expansion means 40; evaporator

In order to achieve the object of the present invention as described above, the operation is performed at the reference operating frequency and the reference discharge superheat according to the user's set temperature, and the discharge temperature detected by the discharge temperature sensor mounted on the discharge piping side of the compressor; Calculating the discharge superheat continuously by calculating a difference between the condensation temperatures detected by the condensation temperature sensor mounted on the condenser side, and when the value of the discharge superheat calculated in the operation process is smaller than a set limit value, Provided is a method for checking a temperature sensor steady state of an air conditioner, including the step of sending a check message.

Hereinafter, the method of checking the temperature sensor steady state of the air conditioner of the present invention will be described according to the embodiment shown in the accompanying drawings.

3 is a view illustrating an exemplary embodiment of a method for checking a temperature sensor steady state of an air conditioner according to the present invention. Referring to this, the method for checking a temperature sensor steady state of an air conditioner according to the present invention may first input a desired set temperature. When the reference operating frequency and the reference discharge superheat of the air conditioner are input to the microcomputer, the next operation is performed. At this time, the expansion valve 30, the expansion means 30, while detecting the discharge temperature detected by the discharge temperature sensor mounted on the discharge pipe side of the compressor 10 and the condensation temperature sensor mounted on the condenser 20 side is recognized. It not only adjusts to reach the standard discharge superheat, but also operates to reach the reference operating frequency by adjusting the frequency within a range in which the current value detected by the ammeter mounted therein does not exceed the maximum value. The discharge superheat degree is a value for the difference between the discharge temperature and the condensation temperature. That is, the discharge superheat degree is a value obtained by subtracting the condensation temperature from the discharge temperature. If the discharge superheat degree is greater than the standard discharge superheat degree, the opening degree of the expansion valve 30 is increased to flow through the expansion valve 30. When the flow rate of the refrigerant is increased and the discharge superheat is smaller than the standard discharge superheat, the opening degree of the expansion valve is reduced to increase the flow rate of the refrigerant flowing through the expansion valve 30 to maintain the discharge superheat in a set state. To drive as much as possible.

And comparing the difference between the discharge temperature detected by the discharge temperature sensor mounted on the discharge pipe side and the condensation temperature detected by the condensation temperature sensor mounted on the condenser 20 side and the set limit value. The temperature difference between the discharge temperature and the condensation temperature and the set limit value are compared, and when the temperature difference is smaller than the set limit value, that is, the sensor check message is sent when the temperature difference is less than the set limit value. The operation proceeds by adjusting. That is, a value obtained by subtracting the temperature detected by the condenser temperature sensor mounted on the condenser 20 side from the temperature detected by the discharge temperature sensor mounted on the discharge pipe, that is, when the temperature difference is smaller than the set limit value, the discharge mounted on the discharge pipe side It is determined that the temperature sensor is separated from the sensor holder 60 or malfunctions to display a check message. This shuts down the system and causes the administrator to replace or position the temperature sensor.

Hereinafter, the operational effects of the air conditioner temperature sensor steady state check method of the present invention will be described.

In the operating process of the air conditioner of the present invention, the difference between the discharge temperature detected by the discharge temperature sensor mounted on the discharge pipe side of the compressor 10 and the condensation temperature detected by the condensation temperature sensor mounted on the condenser 20 side is at a set limit value. If it is out of the discharge temperature, that is, the value obtained by subtracting the condensation temperature from the discharge temperature is smaller than the limit value, it is determined that the discharge temperature sensor detecting the discharge temperature of the compressor 10 is dislodged or malfunctioned and displayed on the display of the air conditioner to indicate the malfunction of the temperature sensor. It allows you.

In general, as an important factor controlling the air conditioner, the evaporation temperature of the evaporator 40 and the suction side suction temperature of the compressor 10 are sensed and controlled by the temperature difference or the discharge temperature of the compressor 10 and the condensation temperature of the condenser 20 are controlled. Is detected and controlled by the temperature difference. In controlling by the difference between the discharge temperature of the compressor 10 and the condensation temperature of the condenser 20, when the discharge temperature is lower than the condensation temperature, the discharge temperature sensor for detecting the discharge temperature is separated from the sensor holder 60 In addition, it is possible to know abnormal operation state early by displaying it as it is judged or displayed as a malfunction or to stop the system so that the administrator can correct the displacement of the discharge temperature sensor to the correct position or replace it.

As described above, the air conditioner temperature sensor steady state check method according to the present invention is the discharge temperature sensor and the evaporation temperature for detecting the discharge temperature and the evaporation temperature to calculate the discharge superheat degree which is one of the operation control factors during the operation of the air conditioner By knowing the normal state of the sensor early, it is possible to prevent the breakage of parts due to the continuous operation of the abnormal state, thereby increasing the reliability of the product.

Claims (1)

Operation at the reference operation frequency and the reference discharge overheat according to the user's set temperature, the discharge temperature detected by the discharge temperature sensor mounted on the discharge pipe side of the compressor and the condensation temperature sensor mounted on the condenser side, respectively Calculating a discharge superheat degree continuously by calculating a difference between condensation temperatures, and sending a sensor check message when a value of the discharge superheat degree calculated in the operation process is smaller than a set limit value. How to check the temperature sensor normal condition of the air conditioner.