KR0170844B1 - Protection of dew control method of airconditioner - Google Patents

Abstract

The present invention relates to an air conditioner anti-dew control method for controlling the compressor operating frequency in contrast to the air flow of the indoor fan to prevent dew condensation phenomenon occurs when the indoor temperature is stabilized to lower the air flow of the indoor fan, A condition setting step of setting a compressor operating frequency band according to a reference condition for determining dew condensation conditions and an indoor piping temperature band and an indoor piping temperature band; A condensation judging step of comparing the reference value set as the dew condensation condition with the corresponding input signal to determine whether the dew condensation occurs; A temperature change judging step of judging whether the temperature rises or falls by comparing the indoor piping temperature at the time with the previous stage if it is determined to be dewy; A first frequency control step of controlling a temperature band for changing a compressor operating frequency differently according to whether the indoor piping temperature rises or falls; By performing the routine of the second frequency control step of controlling the operation frequency to the target frequency band in the indoor piping temperature stable state, dew condensation may occur when the airflow of the indoor fan is lowered while the indoor temperature is stable during the cooling operation. By adjusting the compressor operating frequency against the airflow of the indoor fan, dew condensation can be prevented even in a low airflow condition.

Description

Controlling Dew Condensation in Air Conditioners

The present invention relates to a compressor operating frequency control method of an air conditioner, in particular to control the compressor operating frequency in contrast to the air flow of the indoor fan to prevent dew condensation phenomenon occurs when the indoor temperature is stabilized to lower the air flow of the indoor fan. It relates to an air conditioner control method for preventing dew formation.

In general, dew condensation occurs in an indoor heat exchanger of an air conditioner due to a temperature difference between a condensation temperature of a refrigerant and an indoor temperature. In order to prevent such condensation, the dew condensation state is conventionally detected by a dew sensor. In Korea, Korean Patent Publication No. 95-1475 and Patent Publication No. 95-9138 have been proposed to control the air volume of the indoor fan to prevent dew condensation. According to the above-mentioned application, when dew forms, it prevents dew condensation by controlling the rotation speed of the indoor fan at high speed to increase heat exchange capacity of the indoor heat exchanger, which prevents dew condensation at a stable indoor temperature. If the air volume is excessively increased, the indoor temperature is rapidly cooled, and on the contrary, the indoor air should be reduced while the indoor temperature is stable, but there is a problem that cannot be lowered due to dew formation.

The present invention is to solve the conventional problem that can not lower the air volume of the indoor fan even though the indoor temperature is stabilized by the dew condensation phenomenon, in particular to set the dew condensation conditions through the indoor temperature, the indoor fan speed and the outside temperature If this condition is met, the air conditioner prevents dew condensation control that can maintain the pleasant indoor environment by preventing dew from condensing even when the indoor temperature is stable by controlling the operating frequency of the compressor against the air volume of the indoor fan. The purpose is to provide.

The present invention for achieving this object is an inverter compressor, an inverter for controlling the operating frequency of the compressor at a ratio of a predetermined output voltage and the operating frequency, and a microcomputer to give a variable frequency control command according to the air conditioning load to the inverter A method for preventing dew condensation of an air conditioner, comprising: a condition setting step of setting a reference condition for determining dew condensation conditions, and an operating frequency band of a compressor according to an indoor piping temperature band and an indoor piping temperature band; A condensation judging step of comparing the reference value set as the dew condensation condition with the corresponding input signal to determine whether the dew condensation occurs; A temperature change judging step of determining whether the indoor piping temperature rises or falls by comparing the indoor piping temperature with the previous stage when the dew condensation condition is met; A first frequency control step of controlling a temperature band for changing a compressor operating frequency differently according to whether the indoor piping temperature rises or falls; A second frequency control step of controlling an operating frequency in a target frequency band while the indoor piping temperature is stabilized; It is characterized by performing a routine of.

The dew condensing condition in the condition setting step is characterized by setting the room temperature, the indoor fan rotation speed and the outside temperature as the dew condensing condition.

In the dew condensation determination step, the compressor operating frequency is controlled when it is maintained for a predetermined time in accordance with the dew condensation condition.

According to the compressor operating frequency control method, the dew condensation phenomenon is controlled by controlling the compressor operating frequency to the operating frequency compared to the indoor fan's air flow in the dew condensation phenomenon that may occur when the indoor fan is lowered while the room is stable during cooling operation. Can be prevented.

1 is a block circuit diagram showing a general air conditioner system.

2 is a flow chart showing a compressor operating frequency control method corresponding to the indoor piping temperature in a state consistent with the dew formation condition of the present invention.

3 is a graph showing a compressor operating frequency band according to the indoor piping temperature of the present invention.

* Explanation of symbols for main parts of the drawings

120: indoor fan motor 230: outdoor microcomputer

260: inverter unit 270: compressor

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

1 is a block circuit diagram of a general air conditioner for realizing the compressor operating frequency control method of the present invention, the air conditioner is divided into the indoor unit 100 and the outdoor unit 200, the indoor unit 100 is the room temperature The indoor temperature sensor 110 for detecting the temperature, the indoor fan motor 120 for blowing the low-temperature airflow heat exchanged by the indoor heat exchanger, and the indoor fan motor control, temperature calculation and timer function The indoor microcomputer 130 for outputting a control signal for controlling the load according to; The outdoor unit 200 outputs an inverter by an outdoor temperature sensor 210 for detecting an outdoor temperature, an outdoor fan motor 220 for cooling an outdoor heat exchanger to increase heat exchange efficiency, and a control signal of the indoor microcomputer 130. An outdoor microcomputer 230 for controlling a frequency, a TR driver 240 for driving a compressor by a control signal of the outdoor microphone 230, and an A / D converter 250 according to the drive of the TR driver 240. Inverter unit 260 for driving the compressor by converting the direct-current DC power is converted into AC again through the commercial power (AC) and the refrigerant of the cooling cycle by the AC power applied from the inverter unit 260 forcibly Compressor 270 that compresses and circulates, DC-peak detector 280 and overcurrent detector 290 that detects the voltage and current changes in response to an increase in overload, and controls the system by a predetermined program Cooperate The.

In the air conditioner configured as described above, a compressor operating frequency control method for preventing dew condensation according to the present invention will be described with reference to the flowchart of FIG.

The present invention sets reference data that can normally be dewed according to the conditions of dew formation, that is, indoor temperature, indoor fan rotation speed, and outside air temperature (S1), and stores it in a memory in the microcomputer. In this state, when the compressor is running and in the cooling operation mode (S2-S3), the reference value of the room temperature, the indoor fan speed and the outside temperature set as the dew condensation condition in step 1 is compared with the corresponding input signal related to the condition. If the input signal continuously matches the dew condensation condition for a predetermined time (20 minutes) (S7), it is determined that dew forms (S4-S6). In addition, the present invention detects a change in the temperature of the indoor piping at the same time the compressor is driven.

If it is judged as dew condensation, the microcomputer judges whether the indoor piping temperature at the time determined as dew condensation has risen or decreased from the indoor piping temperature by changing the temperature earlier than this time (S8-S9) and the compressor for each rise / fall. The operating frequency is controlled.

That is, when the indoor piping temperature is increasing, if the indoor piping temperature is higher than the set temperature T1 ℃ (5 ℃) to reduce the frequency to the minimum operating frequency to prevent the compressor overload (S10-S11), the indoor piping temperature is set If the temperature is above T2 ℃ (3 ℃), the refrigerant cycle is stable. At this time, operate the compressor by raising the operating frequency one step higher than the minimum operating frequency (S12-S13) .If the set temperature is below T2 ℃ (3 ℃), the target frequency Control to be operated (S14).

On the contrary, when the indoor piping temperature is lowering, if the indoor piping temperature is higher than the set temperature T3 ° C (4 ° C), it operates at the minimum operating frequency (S15-S16) to prevent the indoor pipe temperature from falling sharply, and the indoor piping temperature is lowered. If the set temperature is above T4 ℃ (2 ℃), the operating frequency is controlled by one step higher than the minimum operating frequency (S17-S18). If the set temperature is below T4 ℃ (2 ℃), the target frequency is controlled as in step 14. .

In other words, if the compressor capacity is reduced against the air volume of the indoor fan as in the embodiment of the present invention, since the heat exchange capacity of the indoor heat exchanger is lowered, 100% heat exchange occurs in the indoor unit so that dew does not form.

As described above, in the present invention, dew condensation may occur when the airflow of the indoor fan is lowered while the indoor temperature is stable during the cooling operation. However, the dew condensation may be reduced even when the airflow is low by adjusting the compressor operating frequency to the airflow of the indoor fan. Condensation can be prevented.

Claims (3)

Preventing dew condensation of an air conditioner having an inverter compressor, an inverter for controlling the operating frequency of the compressor at a ratio of a predetermined output voltage and an operating frequency, and a microcomputer for giving the inverter a variable frequency control command according to an air conditioning load. A method, comprising: a condition setting step of setting a compressor operating frequency band according to a reference condition for determining dew condensation conditions and an indoor piping temperature band and an indoor piping temperature band; A condensation judging step of comparing the reference value set as the dew condensation condition with the corresponding input signal to determine whether the dew condensation occurs; A temperature change judging step of determining whether the indoor piping temperature rises or falls by comparing the indoor piping temperature and the previous stage temperature change at the time when the dew condensation condition is met; A first frequency control step of controlling a temperature band for changing a compressor operating frequency differently according to whether the indoor piping temperature rises or falls; And a second frequency control step of controlling an operating frequency in a target frequency band in a state in which the indoor piping temperature is stabilized. The method of claim 1, wherein the condition setting step sets the indoor temperature, the indoor fan rotation speed, and the outside air temperature to the dew condensation condition. The method of claim 1, wherein the dew condensation determination step controls the compressor operating frequency when the dew condensation condition is maintained for a predetermined time.