KR100274248B1 - Air conditioner with dehumidification function and control method - Google Patents

Abstract

PURPOSE: A control method of an air conditioner is provided to prevent an indoor space from overcooling by circulating an additional fluid in a dehumidification mode of an air conditioner and to control circulating of the fluid effectively. CONSTITUTION: A compressor is driven if a dehumidification mode is selected. A microcomputer stops the compressor after raising temperature of an outdoor heat exchanger by inhibiting its radiation. If indoor temperature is lower than set temperature, the microcomputer opens a valve and drives a pump to perform an overcooling prevention mode. After that, the pump is turned off and the valve is closed to finish the overcooling prevention mode. If the dehumidification mode is not selected, the microcomputer performs a cooling/heating mode for driving the compressor, the outdoor and an indoor fan. The microcomputer detects indoor temperature through a temperature sensor and decides whether the current indoor temperature falls lower than the pre-input set temperature. If so, the microcomputer stops the mode by turning off the compressor and the two fans. Therefore, indoor temperature is kept regular and an indoor space is prevented from overcooling.

Description

Air conditioner with dehumidification function and control method

The present invention relates to an air conditioner, and more particularly, to prevent overcooling of a room by circulating a separate fluid when performing a dehumidification function of an air conditioner, and having a dehumidification function to effectively control the circulation state of the fluid. An air conditioner and a control method thereof.

In general, an air conditioner is a device used for cooling or heating indoors by using a refrigerant cycle. In general, a liquid is vaporized when the pressure is kept constant and the temperature is raised. It has the property of liquefying. Here, when the liquid vaporizes, it absorbs the surrounding heat, and when the liquid is liquefied, the heat is released to perform the heat exchange action of cooling or heating.

In addition, such an air conditioner performs the dehumidification function as well as the cooling or heating functions described above. Generally, a cooling dehumidification method of cooling indoor air is generally used. That is, the aforementioned cooling dehumidification method refers to a method of converting water vapor in the air into a liquid (dew) and removing it from the air by cooling the indoor air below the saturation temperature.

1 is a block diagram showing a conventional air conditioner having a dehumidification function. Accordingly, the outdoor unit 10 includes a compressor 11 for compressing a refrigerant at high temperature and high pressure, and an outdoor unit for dissipating heat of high temperature / high pressure introduced from the compressor 11 to the outside to condense the liquid refrigerant at low temperature / low pressure. A heat exchanger 12 and a capillary tube 13 for converting the liquid refrigerant introduced from the outdoor heat exchanger 12 into a low temperature / low pressure refrigerant are provided. In addition, an outdoor fan 14 is provided to blow air to the outdoor heat exchanger 12 to cool it.

On the other hand, the indoor unit 20 is provided with an indoor heat exchanger 21 for absorbing the surrounding heat while the liquid refrigerant introduced from the capillary tube 13 evaporates, and circulates the indoor air near the indoor heat exchanger 21. An indoor fan 22 is provided. In addition, the microcomputer 30 for controlling the driving of the compressor 11, the outdoor fan 14 and the indoor fan 22, an operation key 31 for applying a user's key input to the microcomputer 30, The temperature sensor 32 is provided to detect the room temperature and apply it to the microcomputer 30.

Referring to the cooling operation and dehumidification of the conventional air conditioner configured as described above, first, the user inputs various operation commands such as temperature setting and operation start through the operation key 31, and the microcomputer 30 detects this. The cooling operation is started by driving the compressor 11, the outdoor fan 14, and the indoor fan 22.

That is, the microcomputer 30 applies the driving power by turning on the compressor 11, the outdoor fan 14, and the indoor fan 22. Accordingly, the refrigerant is circulated through the refrigerant cycle. And the indoor fan 22 sucks / blows wind to each of the outdoor heat exchanger 12 and the indoor heat exchanger 21. At this time, the outdoor unit 10 compresses the refrigerant from the compressor 11 at high temperature and high pressure, and the compressed refrigerant is circulated to the outdoor heat exchanger 12 to condense to a low temperature liquid refrigerant.

That is, outdoor air is blown toward the outdoor heat exchanger 12 by the rotation of the outdoor fan 14 to radiate heat of high temperature to the outside. In addition, the refrigerant condensed through the outdoor heat exchanger 12 flows into the capillary tube 13, and is reduced in pressure through the capillary tube 13 and converted into a low temperature / low pressure refrigerant.

In addition, in the indoor unit 20, the low temperature / low pressure refrigerant passing through the capillary tube circulates and flows into the indoor heat exchanger 21. In addition, the indoor air is circulated through the indoor heat exchanger 21 by the rotation of the indoor fan 22 to exchange heat with the low temperature / low pressure refrigerant therein. Therefore, the room is cooled to a predetermined temperature by the air cooled through the heat exchange process.

Thereafter, the microcomputer 30 detects the indoor temperature through the temperature sensor 32 and compares / determines whether the current indoor temperature is lowered below a preset input temperature. Here, when the indoor temperature does not reach the set temperature, the cooling operation is continued, while when the indoor temperature reaches the set temperature, that is, when the indoor temperature is lower than the set temperature, the compressor 11 and the indoor fan 22 are operated. And the outdoor fan 14 and the like are turned off to stop the cooling operation.

In addition, when the dehumidification function is performed, the cooling function is intermittently performed for a predetermined time, thereby cooling the indoor air below a saturation temperature, thereby converting water vapor in the air into liquid (dew) and removing it from the air. .

However, such a conventional air conditioner performs a cooling dehumidification function in order to remove moisture in the room. In particular, when performing a long time dehumidification function in a humid season of the room, that is, during the rainy season, the room temperature is relatively high. There was a problem that the room is overcooled by lowering.

Therefore, an object of the present invention devised to solve such a problem is to prevent the overcooling of the room by circulating a separate fluid when performing the dehumidification function of the air conditioner, to effectively control the circulation state of the fluid An air conditioner having a dehumidifying function is provided.

Another object of the present invention is to provide a control method of an air conditioner having a dehumidification function to perform a dehumidification function more efficiently.

1 is a control block diagram showing an air conditioner having a conventional dehumidification function,

2 is a control block diagram showing a preferred embodiment of an air conditioner having a dehumidifying function according to the present invention;

3 is a flowchart illustrating a method of controlling the air conditioner having a dehumidifying function according to the present invention.

Explanation of symbols on the main parts of the drawings

110: compressor 120: outdoor heat exchanger

130: capillary 150: pump

160: the first pipe section 170: the second pipe section

180 valve 210 indoor heat exchanger

300: microcomputer 310: operation keys

320: temperature sensor

An air conditioner having a dehumidifying function according to the present invention for achieving the above object is, in the air conditioner for performing the cooling or heating operation through a refrigerant cycle consisting of an outdoor heat exchanger and an indoor heat exchanger, the fluid inside Is circulated so that the heat of the outdoor heat exchanger is transferred to the indoor heat exchanger, a pump for pumping the fluid inside the pipe to be circulated to the outdoor heat exchanger and the indoor heat exchanger and formed on either side of the pipe part. A valve is provided to open or close the inner passage as needed. In addition, the pump and the valve is operated / controlled by a microcomputer, the fluid circulated into the pipe portion is preferably an antifreeze.

In addition, the control method of the air conditioner having a dehumidifying function according to the present invention is characterized in that the dehumidification operation determination process for determining whether the dehumidification operation is selected according to the user's key input, and the dehumidification operation by the dehumidification operation determination process As the compressor is selected, after a predetermined time elapses while the compressor is turned on and the outdoor fan is turned off, the dehumidification operation process for turning off the compressor and the indoor temperature is detected after the compressor is turned off by the dehumidification operation process. When the room temperature is below a predetermined temperature, a supercooling prevention process for opening the valve and turning on the pump for a predetermined time is provided.

Therefore, by performing the dehumidification function according to the cooling and dehumidifying method of the air conditioner by maintaining the appropriate temperature of the room it is possible to prevent the overcooling of the room, and to effectively circulate the fluid inside the pipe.

Hereinafter, exemplary embodiments of an air conditioner having a dehumidifying function and a control method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a control block diagram showing a preferred embodiment of the air conditioner having a dehumidification function according to the present invention, Figure 3 is a flow chart showing the control method of the air conditioner having a dehumidification function according to the present invention.

2, the compressor 110, the outdoor heat exchanger 120, the capillary tube 130, and the indoor heat exchanger 210 are provided, and each of the refrigerant is circulated by the first pipe part 160. Here, the compressor 110, the outdoor heat exchanger 120 and the capillary tube 130 is provided in the outdoor unit 100, the indoor heat exchanger 210 is provided in the indoor unit 200, respectively. In addition, the outdoor unit 100 is provided with an outdoor fan 140 that blows air to the outdoor heat exchanger 120 to cool it, and the indoor unit 200 circulates indoor air near the indoor heat exchanger 210. An indoor fan 220 is provided.

The compressor 110 compresses the refrigerant at high temperature and high pressure, and the outdoor heat exchanger 120 radiates heat of high temperature / high pressure introduced from the compressor 110 to the outside to condense the liquid refrigerant at low temperature / low pressure. The capillary tube 130 converts the liquid refrigerant introduced from the outdoor heat exchanger 120 into a low temperature / low pressure refrigerant. In addition, the indoor heat exchanger 210 absorbs the surrounding heat while the liquid refrigerant introduced from the capillary tube 130 evaporates.

In addition, a second pipe part 170 through which fluid is circulated therein is provided so that heat of the outdoor heat exchanger 120 is transferred to the indoor heat exchanger 210 during the dehumidification operation, and the second pipe part 170 is provided. The internal fluid is circulated to the outdoor heat exchanger 120 and the indoor heat exchanger 210 by the pump 150. In addition, the valve 180 is formed on any one side of the second pipe portion 170 to open or shut off the internal passage as necessary, and the pump 150 and the valve 180 will be described later. The fluid that is operated / controlled by the 300 and circulated into the second pipe 170 is preferably an antifreeze.

The microcomputer 300 controls the operation of the pump 150 as described above and controls the driving of the compressor 110, the outdoor fan 140, and the indoor fan 220. In addition, an operation key 310 for applying a user's key input to the microcomputer 300 and a temperature sensor 320 for detecting an indoor temperature and applying the microcomputer 300 to the microcomputer 300 are provided.

Referring to Figure 3 described in more detail the operation of the present invention.

First, it is determined whether the dehumidification operation is selected according to the user's key input as the dehumidification operation determination process (S1 to S2), and the dehumidification operation is selected according to the dehumidification operation determination process, and the outdoor fan 140 is turned off. A dehumidifying operation process for driving the compressor 110 for a predetermined time is performed. That is, the microcomputer 300 suppresses heat dissipation of the outdoor heat exchanger 120 by raising the temperature by passing a predetermined time (for example, 6 minutes) while the compressor 110 is turned on and the outdoor fan 140 is turned off. After that, the compressor 110 is stopped (S3 to S6).

Thereafter, after the compressor 110 is turned off by the dehumidifying operation process, if the indoor temperature is detected and the indoor temperature is equal to or less than a predetermined temperature, the valve 180 is opened and the pump 150 is driven for a predetermined time. To prevent the supercooling operation is performed (S7 ~ S13).

That is, the microcomputer 300 detects the indoor temperature through the temperature sensor 320 and when the indoor temperature is 25 ° C. or less, for example, the microcomputer 300 turns on the pump 150 to exchange the heat inside the second piping unit 170 for outdoor heat exchange. By circulating to the unit 120 and the indoor heat exchanger 210, the heat of the outdoor heat exchanger 120 is transferred to the indoor heat exchanger (210). At this time, the microcomputer 300 opens the valve 180 to secure the circulation passage of the fluid. Therefore, by maintaining the proper temperature of the room by this heat to prevent the overcooling of the room. Thereafter, when a predetermined time (for example, 4 minutes) elapses by counting the off time of the compressor 110, the pump 150 is turned off and the valve 180 is shut off to terminate the supercooling operation.

In this case, when the valve 180 is not blocked, the fluid inside the second pipe part 170 may be circulated due to the temperature difference between the outdoor heat exchanger 120 and the indoor heat exchanger 210. Opening or blocking the valve 180 as necessary to prevent malfunction and deterioration accordingly.

On the other hand, when the dehumidification operation is not selected by the dehumidification operation determination process, the cooling / heating operation to drive the compressor 150, the outdoor fan 140, and the indoor fan 220 so that the indoor temperature reaches a set temperature. The process is performed, where the microcomputer 300 detects the room temperature through the temperature sensor 320 and compares / determines whether the current room temperature is lower than the preset input temperature (S14 to S18).

Accordingly, when the indoor temperature does not reach the set temperature, the cooling operation is continued. When the indoor temperature reaches the set temperature, the compressor 110, the indoor fan 220, the outdoor fan 140, and the like are maintained. It turns off and stops cooling / heating action (S19-S21).

As described above, according to the air conditioner having a dehumidifying function and a control method thereof according to the present invention, by maintaining the proper temperature of the room when performing the dehumidification function according to the cooling dehumidification method of the air conditioner to prevent the overcooling of the room It is effective.

In addition, when the dehumidification function is performed, the valve may be opened or blocked as necessary to prevent malfunction and deterioration of efficiency due to fluid circulation.

In addition, there is another effect that can prevent the cooling bottle, cold, and the like by preventing the overcooling of the room.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (5)

In an air conditioner for cooling or heating operation through a refrigerant cycle consisting of an outdoor heat exchanger and an indoor heat exchanger, A pipe unit configured to circulate a fluid therein so that heat of the outdoor heat exchanger is transferred to the indoor heat exchanger; A pump for pumping the fluid inside the pipe to be circulated to the outdoor heat exchanger and the indoor heat exchanger; And The air conditioner having a dehumidifying function, characterized in that provided with a valve formed on one side of the pipe portion to open or shut off the internal passage as needed. The air conditioner of claim 1, wherein the pump and the valve are operated / controlled by a microcomputer. The air conditioner of claim 1, wherein the fluid circulated into the pipe part is an antifreeze solution. Dehumidification operation determination process for determining whether the dehumidification operation is selected according to the user's key input; A dehumidification operation process of turning off the compressor after a predetermined time has elapsed while the compressor is turned on and the outdoor fan is turned off as the dehumidification operation is selected by the dehumidification operation determination process; And After the compressor is turned off by the dehumidifying operation process, if the indoor temperature is detected and the indoor temperature is less than the predetermined temperature, the supercooling prevention process is provided to open the valve and turn on the pump for a predetermined time. The control method of the air conditioner which has a dehumidification function. The method of claim 1, further comprising a cooling / heating operation process for driving the compressor, the outdoor fan, and the indoor fan so that the indoor temperature reaches a set temperature when the dehumidification operation is not selected by the dehumidification operation determination process. The control method of the air conditioner with a dehumidification function characterized by the above-mentioned.