ES2679124T3 - Air conditioner control procedure - Google Patents

Abstract

A method of controlling an air conditioner (100), comprising: detecting (120) an indoor temperature; detect (122) an indoor humidity; perform (306, 308, 304) a dehumidification operation based on a comparison between an indoor temperature and a first temperature set in advance when the indoor humidity is higher than a reference indoor humidity, and perform (306, 310, 304) the dehumidification operation based on a comparison between an indoor temperature and a second temperature set in advance when the indoor humidity is not higher than the internal reference humidity, characterized in that the second temperature set in advance is higher than the first set temperature `in advance.

Description

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DESCRIPTION

Air conditioner control procedure Background

1. Field

The present invention relates to a method for controlling an air conditioner and, more particularly, to a method for controlling a dehumidification operation of an air conditioner.

2. Description of the related technique

In general, air conditioners basically perform a cooling operation in an air conditioning space and, in addition, perform a dehumidification operation, in which the humidity in the air conditioning space is reduced. The dehumidification operation of the air conditioner is performed similarly to the cooling operation. That is, a refrigerant is circulated through a refrigeration cycle that includes a compressor, an external heat exchanger (condenser), an expansion device and an internal heat exchanger (evaporator) and thereby cools the air in an air conditioning space. When the air in the air conditioning space cools, two charges are eliminated, that is, a sensible heat load and a latent heat load. When the sensible heat load is eliminated, the air temperature in the air conditioning space decreases and when the latent heat load is eliminated, the humidity in the air of the air conditioning space is eliminated. That is, both the temperature and humidity of the air conditioning space are reduced by the dehumidification operation.

US 2006/260334 A1 discloses a thermostat and a method for operating in a normal or dehumidifying mode, in accordance with the preamble of claim 1. There is a comparison of indoor humidity with a reference indoor humidity. In the event that the humidity inside is higher than the corresponding internal humidity reference, there will be a dehumidification operation until the temperature is below a certain set temperature. In the event that the humidity inside is lower than the corresponding indoor humidity, a dehumidification operation will be carried out until the corresponding temperature is lower than the set temperature as well. The corresponding dehumidification operation is also performed whenever the temperature is below a temperature of approximately three to eight degrees higher than the set temperature.

Summary

Therefore, it is an object of the invention to provide a method for controlling a dehumidification operation of an air conditioner, according to which the temperature and humidity are optimally maintained.

This objective is solved by the features of claim 1. Advantageous embodiments are disclosed in the subclaims.

The procedure may further include stopping the operations of a compressor and an indoor fan for a first predetermined time when a condition, between the condition that the indoor humidity is greater than the reference indoor humidity and an indoor temperature not exceeding the first temperature and a condition is fulfilled that the indoor humidity is not higher than the reference indoor humidity and the indoor temperature is not higher than the second temperature.

The procedure may also include determining whether or not the dehumidification operation is required by observing the indoor humidity and the indoor temperature during the first predetermined time; and re-operate the compressor and the indoor fan, when it is determined that the dehumidification operation is required.

The procedure may also include operating the indoor fan for a second predetermined time, when the first predetermined time has elapsed, to circulate the indoor air. The operation of the indoor fan can be carried out by rotating the indoor fan at a speed lower than the rotation speed of the indoor fan in the dehumidification operation.

The procedure may also include determining whether or not the dehumidification operation is required by detecting the temperature and humidity of the indoor air during the second predetermined time; and re-operate the compressor, when it is determined that the dehumidification operation is required.

The procedure may also include rotating the indoor fan at a speed required by the dehumidification operation together with the compressor reoperation.

The first temperature may be set at the lower temperature limit of a temperature range, in which the average temperature of a man's skin is uniformly maintained at the reference indoor humidity; and the second temperature can be set at the upper temperature limit of the temperature range, in the

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that the average temperature of a man's skin is maintained uniformly in the internal humidity of reference.

The procedure may also include entering the desired internal reference humidity from a user; determine a permissible temperature range corresponding to the internal humidity reference; detect indoor humidity; in which a lower temperature limit of the permissible temperature range is established as the first temperature and an upper temperature limit of the permissible temperature range is set as the second temperature.

The permissible temperature range may be a temperature range, in which the average temperature of a man's skin is uniformly maintained at the reference indoor humidity introduced by the user.

The method may further include stopping the operations of a compressor and an indoor fan for a first predetermined time when a condition, between a condition that the indoor humidity is greater than the internal reference humidity and an indoor temperature is not higher than the lower limit of the temperature of the permissible temperature range and a condition is fulfilled that the indoor humidity is not higher than the reference indoor humidity and the indoor temperature is not higher than the upper temperature limit of the permissible temperature range.

The procedure may further include the indoor fan for a second predetermined time, when the first predetermined time has elapsed, to circulate the indoor air.

The procedure may also include introducing a desired indoor humidity of a user; and entering a reference temperature range desired by the user's user; a lower temperature limit of the reference temperature range is set at the first temperature and an upper temperature limit of the reference temperature range is set as the second temperature.

The method may further include stopping the operations of a compressor and an indoor fan for a first predetermined time when a condition, between a condition that the indoor humidity is greater than the internal reference humidity and an indoor temperature is not higher than the lower limit of the temperature of the reference temperature range and a condition that the indoor humidity is not higher than the indoor reference humidity and the indoor temperature is not higher than the upper temperature limit of the reference temperature range is met.

The procedure may also include operating the indoor fan for a second predetermined time, when the first predetermined time has elapsed, to circulate the indoor air.

Brief description of the drawings

These and / or other aspects and advantages of the invention will be apparent and will be more readily appreciated from the following description of the embodiments, taken together with the accompanying drawings in which:

Figure 1 is a view illustrating a refrigeration cycle of an air conditioner according to an embodiment of the present invention;

Figure 2 is a block diagram illustrating a control system of the air conditioner of Figure 1; Fig. 3 is a flow chart illustrating a process for controlling an air conditioner in accordance with an embodiment of the present invention;

Figure 4 is a flow chart illustrating a method for controlling an air conditioner in accordance with another embodiment of the present invention; Y

Figure 5 is a flow chart illustrating a method for controlling an air conditioner in accordance with a further embodiment of the present invention.

Detailed description

Reference will now be made in detail to the embodiments herein, an example of which is illustrated in the accompanying drawings, in which similar reference numbers indicate similar elements throughout the memory. The embodiments described below to explain the present invention in reference to the accompanying drawings.

The humidity, which is controlled by the dehumidification operation of an air conditioner, is the relative humidity, and the relative humidity is defined as the ratio between the amount of current steam and the amount of saturated steam at the current temperature. It is known that the appropriate range of relative humidity, which is suitable for a man to live, is about 40% to about 60%. Therefore, under the same relative humidity, temperatures may be different.

For this reason, when the dehumidification operation is performed as a function of humidity, the temperature can be reduced or increased excessively. Additionally, when the dehumidification operation is performed depending on the temperature, the humidity can be reduced or increased excessively.

In a process for controlling an air conditioner according to the present invention, it is carried out

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a dehumidification operation taking into account both temperature and humidity, and thus temperature and humidity are optimally maintained.

Now, exemplary embodiments of the present invention will be described with reference to Figures 1 to 5. First, Figure 1 is a view illustrating a refrigeration cycle of an air conditioner according to an embodiment of the present invention.

As shown in Figure 1, an air conditioner 100 according to an embodiment of the present invention includes an outdoor unit 102 and an indoor unit 104, which are connected by a liquid refrigerant tube 106a and a gas refrigerant tube 106b to form a refrigeration cycle. A compressor 108 provided in the outdoor unit 102 compresses a refrigerant in a gaseous state at high temperature and high pressure. An external heat exchanger 110 receives the high temperature and high pressure gaseous refrigerant discharged from the compressor 108 and exchanges heat between the gaseous refrigerant and the outside air. An outside fan 112 forcedly drives the outside air so that the outside heat exchanger (condenser) 110 exchanges heat between the gaseous refrigerant and the outside air. The high temperature and high pressure refrigerant of the outdoor unit 102 is expanded (decompressed) by an expansion device 114, and is supplied to the indoor unit 104. An outdoor temperature sensor 115 is installed in the outdoor unit 102, and detects an outside temperature

An indoor heat exchanger (evaporator) 116 is installed in the indoor unit 104. An indoor fan 118 forcedly drives the indoor air to the indoor heat exchanger 116 so that the indoor heat exchanger 116 exchanges heat between the exchanger refrigerant of interior heat 116 and indoor air.

An indoor temperature sensor 120 and an indoor humidity sensor 122 are installed in a part of the indoor unit 104, through which indoor air is sucked into the indoor unit 104. The indoor temperature sensor 120 detects a temperature in a air conditioning space, that is, a temperature of the air flowing from the air conditioning space to the indoor unit104. The indoor humidity sensor 122 detects a humidity in the air conditioning space, that is, a relative humidity in the air flowing from the air conditioning space to the indoor unit 104.

Figure 2 is a block diagram illustrating a control system of the air conditioner of Figure 1. As shown in Figure 2, a control unit 202 of the outdoor unit 102 uses the outside temperature, supplied from the sensor outside temperature 115 connected to an input side of the control unit 202, in a cooling operation. A storage unit 204 communicably connected to the control unit 202 stores system software required to control the overall operation of the air conditioner 100 through the control unit 202. Particularly, a reference indoor humidity (for example , 50%) and reference temperatures, that is, a first temperature (for example, 22 ° C) and a second temperature (for example, 26 ° C) required to perform a dehumidification operation are stored in the storage unit 204 The outdoor fan 112 and the compressor 108 are connected to an output side of the control unit 202.

In addition to the indoor temperature sensor 120 and the indoor humidity sensor 122, as shown in Figure 1, a display unit 206 and an input unit 208 are provided in the indoor unit 104. The display unit 206 displays data from the operational status of the air conditioner 100, a user input request message, or etc. The input unit 208 allows the user to live in the air conditioning space to generate an operating instruction or to set (enter) a predetermined value. The instruction or the default value entered through the input unit 208 of the indoor unit 104 is transmitted to the control unit 202 of the outdoor unit 102.

Fig. 3 is a flow chart illustrating a process for controlling an air conditioner in accordance with an embodiment of the present invention. As shown in FIG. 3, when the control unit 202 receives a dehumidification operation instruction through the input unit 208 of the indoor unit 104, the control unit 202 drives the compressor 108 and the indoor fan 118 for perform the dehumidification operation (operation 302). In this case, the indoor fan 112 is also actuated to perform the operation of the outdoor unit 102. Next, the control unit 202 initiates the dehumidification operation and initializes a thermal shutdown time (t_off) (operation 304). The thermal shutdown time (t_off) is a time during which the operation of the compressor 108 is stopped when any one of the humidity and temperature reaches a desired level due to the dehumidification operation. When the dehumidification operation is started, the control unit 202 drives the compressor 108 and the indoor fan 118 to reduce the humidity of the air conditioner space to the reference indoor humidity (for example, 50%) or less, and, by therefore, it cools the air conditioning space (operation 306).

In case the humidity of the air conditioning space does not satisfy the internal humidity of reference, that is, it is higher than the internal humidity of reference (for example, 50%) (not in operation 306), when the indoor temperature of the air conditioning space does not satisfy a reference temperature, that is, it is higher than the first reference temperature (for example, 22 ° C) (not in operation 308), the compressor 108 and the indoor fan 118 function in continuous way to additionally perform the dehumidification operation and,

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therefore, the humidity and temperature of the air conditioning space decreases further. In the event that the humidity of the air conditioning space is even greater than the internal humidity of reference (for example, 50%) (not in operation 306), when the temperature of the air conditioning space does not exceed the first temperature (22 ° C), which is the lower temperature limit of the reference temperature range (yes in operation 308), the compressor 108 and the inner fan 118 stop to prevent the indoor temperature of the air conditioning space from reduce below the first temperature (22 ° C) even if the internal humidity of the air conditioning space does not satisfy the internal humidity reference of the target (thermal shutdown, operation 312). When the compressor 108 and the indoor fan 118 stop, the thermal shutdown time (t_off) is counted from this moment.

On the other hand, in case the humidity of the air conditioning space satisfies the internal humidity of reference, that is, it is not higher than the internal humidity of reference (for example, 50%) (yes in operation 306), when the temperature of the air conditioning space is higher than another reference temperature, that is, the second temperature (26 ° C) (not in operation 310), the compressor 108 and the inner fan 118 work even more, although the indoor humidity of the air conditioning space satisfies the indoor humidity of reference and, therefore, further reduces the temperature of the air conditioning space. Since the user still feels comfortable even if the humidity in the air conditioning space is lower than the reference indoor humidity of 50% to some extent, the dehumidification operation continues so that the indoor temperature does not exceed the second temperature ( 26 ° C), which is the upper temperature limit of the reference temperature range, although the humidity is slightly less than 50%. In case the humidity of the air conditioning space does not exceed the internal humidity of reference (for example, 50%) (yes in operation 306), when the temperature of the air conditioning space does not exceed the second temperature (26 ° C) (yes in operation 310), the control unit 202 determines that the air conditioning space is in an optimal state and stops the compressor 108 and the inner fan 118 (thermo-disconnection, operation 312). When the compressor 108 and the indoor fan 118 stop, the thermal shutdown time (t_off) is counted from this moment.

That is, when the indoor humidity does not satisfy the reference indoor humidity, the target indoor temperature is reduced to the maximum up to the lower temperature limit (for example 22 ° C) of the allowable temperature range, but does not decrease below the lower limit Of temperature. Additionally, although the indoor humidity satisfies the reference indoor humidity, the indoor temperature does not rise above the upper temperature limit (for example, 26 ° C) of the allowable temperature range.

After the thermo-disconnection, the thermo-disconnection time (t_off) is counted and it is controlled whether or not the internal humidity and the internal temperature deviate from the objective internal humidity and the objective internal temperature in the condition that the compressor 108 and the fan inside 118 stop for a first predetermined time (t1) to the maximum (operation 314). In the condition that the thermal shutdown time (t_off) does not pass the first predetermined time (t1) (not in operation 314), when the indoor humidity satisfies the internal reference humidity and the indoor temperature exceeds the second temperature, i.e. , upper temperature limit of the permissible temperature range, (not in operation 310) or the indoor humidity does not satisfy the internal reference humidity and the indoor temperature exceeds the first temperature, that is, the lower temperature limit of the permissible temperature range (not in operation 308), the dehumidification operation is repeated in operations 302 and 304. The stopping of the compressor 108 and the inner fan 118 during the first predetermined time (t1) after the thermal shutdown serves to prevent the increase of the moisture caused by the supply of moisture formed around the indoor heat exchanger 116 to the air conditioning space due to the operation of the indoor fan 118.

On the other hand, when the indoor humidity satisfies the reference indoor humidity and the indoor temperature is not higher than the second temperature, that is, the upper temperature limit of the permissible temperature range (yes in operation 310) or humidity indoor temperature does not satisfy the internal humidity of reference and the indoor temperature is not higher than the first temperature, that is, the lower temperature limit of the permissible temperature range (yes in operation 308) until the thermal shutdown time (t_off) ) t1), only the indoor fan 116 is operated at a speed lower than the rotation speed in the dehumidification operation for a second predetermined time (t2) at the maximum in the condition that the compressor 108 is still stopped (operation 316 ). In the condition that the thermal shutdown time (t_off) does not exceed the sum of the first predetermined time (t1) and the second predetermined time (t2) (not in operation 318), when the indoor humidity satisfies the reference indoor humidity and the indoor temperature exceeds the second temperature, that is, the upper temperature limit of the permissible temperature range, (not in operation 310) or the indoor humidity does not satisfy the internal reference humidity and the indoor temperature exceeds the first temperature, it is that is, the lower temperature limit of the permissible temperature range (not in operation 308), the dehumidification operation is repeated in operations 302 and 304 again. The operation of the indoor fan 118 at low speed during the second predetermined time (t2) serves to circulate the indoor air through the indoor unit 104, so that the indoor humidity and the indoor temperature can be detected more accurately.

When the control units 202 do not receive a stop instruction of the dehumidification operation until the thermal shutdown time (t_off) exceeds the sum of the first predetermined time (t1) and the second

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predetermined time (t2) (not in operation 320), the indoor fan 118 stops (operation 322), and the dehumidification operation is repeated in operations 306, 308 and 310, if necessary. When the control unit 202 receives the dehumidification operation stop instruction (yes in operation 320), the dehumidification operation ends.

Figure 4 is a flow chart illustrating a method for controlling an air conditioner according to another embodiment of the present invention. As shown in FIG. 4, when the control unit 202 receives a dehumidification operation instruction through the input unit 208 of the indoor unit 104 (operation 402), the control unit 202 receives a reference indoor humidity , that is, the desired indoor humidity of the user, of a user (operation 404).). The reception of the reference indoor humidity is carried out by investigating a desired indoor humidity through the display unit 206 of the indoor unit 104 and inducing the user to introduce the desired indoor humidity through the input unit 208.

The control unit 202 determines a permissible temperature range corresponding to the reference indoor humidity, that is, the upper temperature limit and the lower temperature limit (operation 406). The control unit 202 determines that an average skin temperature range (MST) in which a user feels comfortable in the reference indoor humidity becomes the permissible temperature range. That is, the storage unit 404 of the outdoor unit 102 stores anticipated data with respect to the MST interval in which the user feels comfortable in accordance with the reference indoor humidity, and the control unit 202 determines the temperature range permissible in the dehumidification operation with reference to the data stored in the storage unit 204. For example, when the internal reference humidity entered by the user is 65% and the permissible temperature range corresponding to the internal reference humidity is 22.1 ~ 29.4 ° C, the first temperature is the lower temperature limit of 22.1 ° C and the second temperature is the upper temperature limit of 29.4 ° C.

When the allowable temperature range is determined, the control unit 202 sets the lower temperature limit of the MST interval to be the first temperature and the upper temperature limit of the MST interval to be the second temperature (operation 408). In this case, the first temperature and the second temperature correspond, respectively, to the first temperature and the second temperature, which are used in operation 308 and operation 310 of Figure 3. That is, the control unit 202 applies the internal reference temperature received from the user and the target temperature range (the first and second temperature) was determined corresponding to the internal reference temperature for the procedure in the figure and, thus, the procedure for controlling the dehumidification operation of the air conditioner according to this embodiment (operation 410). Since the internal humidity of reference is received directly from the user and the dehumidification operation of the air conditioner is carried out to follow the internal humidity of reference, the user incorporates and completely supplies a humidity condition required by the user.

Fig. 5 is a flow chart illustrating a method for controlling an air conditioner in accordance with a further embodiment of the present invention. As shown in Fig. 5, when the control unit 202 receives a dehumidification operation instruction through the input unit 208 of the indoor unit 104 (operation 502), the control unit 202 receives a reference indoor humidity , that is, the desired indoor humidity of the user, of a user (operation 504). In addition, the control unit 202 receives an allowable temperature range, that is, a reference temperature range desired by the user, from the user (step 506). The reception of the reference indoor humidity and the reference temperature range is carried out by inquiring about a desired indoor humidity and a desired indoor temperature range through the display unit 206 of the indoor unit 104 and inducing the user to enter the desired indoor humidity and the desired indoor temperature range through the input unit 208.

When the reference temperature range is determined, the control unit 202 sets the lower temperature limit of the reference temperature range to be the first temperature and the upper temperature limit of the reference temperature range to be the second temperature ( operation 508). In this case, the first temperature and the second temperature correspond, respectively, to the first temperature and the second temperature, which are used in operation 308 and operation 310 of Figure 3. That is, the control unit 202 applies the internal reference humidity received from the user and the reference temperature range (the first and second temperature) was determined corresponding to the internal reference humidity for the procedure in the figure and, thus, the procedure is carried out for control the dehumidification operation of the air conditioner according to this embodiment (operation 510). Since the internal reference humidity and the reference temperature range are received directly from the user and the dehumidification operation of the air conditioner is performed to follow the internal reference humidity and the required internal temperature, humidity and reference temperature conditions by the user they are fully incorporated and provided to the user.

Claims (14)

5 10 fifteen twenty 25 30 35 40 Four. Five fifty 1. A method of controlling an air conditioner (100), comprising: detect (120) an indoor temperature; detect (122) an indoor humidity; perform (306, 308, 304) a dehumidification operation based on a comparison between an indoor temperature and a first temperature set in advance when the indoor humidity is higher than a reference indoor humidity, and perform (306, 310, 304) the dehumidification operation based on a comparison between an indoor temperature and a second temperature set in advance when the indoor humidity is not higher than the internal reference humidity, characterized in that The second temperature set in advance is higher than the first temperature set in advance. 2. The method according to claim 1, further comprising stopping (312) the operations of a compressor (108) and an indoor fan (118) for a first predetermined time (t1) when any condition is met, between a condition in which the internal humidity is greater than the internal reference humidity and an internal temperature is not higher than the first temperature and a condition in which the internal humidity is not higher than the internal reference humidity and the internal temperature is no more high than the second temperature. 3. The method according to claim 2, further comprising: determine whether or not the dehumidification operation is required by observing the indoor humidity and the indoor temperature during the first predetermined time; Y re-operate the compressor and the indoor fan, when it is determined that the dehumidification operation is required. 4. The method according to claim 2, further comprising operating the indoor fan (118) for a second predetermined time (t2), when the first predetermined time (t1) has elapsed, to circulate the indoor air. 5. The method according to claim 4, wherein the operation of the indoor fan (118) is carried out by rotating the indoor fan at a speed lower than the rotation speed of the indoor fan in the dehumidification operation. 6. The method according to claim 4, further comprising: determine (306, 308, 310, 312) whether or not the dehumidification operation is required by detecting the temperature and humidity of the indoor air circulated during the second predetermined time; Y re-operate the compressor (108) when it is determined that the dehumidification operation is required. 7. The method according to claim 6, further comprising rotating the indoor fan (118) at a speed required by the dehumidification operation together with the compressor reoperation. 8. The method according to claim 1, wherein: the first temperature (t1) is set (408) at the lower temperature limit of a temperature range, in which the average temperature of a man's skin is uniformly maintained at the reference indoor humidity; Y the second temperature (t2) is set (408) at the upper temperature limit of the temperature range, in which the average temperature of a man's skin is uniformly maintained at the reference indoor humidity. 9. The method according to one of the preceding claims, further comprising: Enter (402, 404) an internal reference humidity desired by the user of a user to determine (406, 408) an allowable temperature range corresponding to the internal reference humidity, in which the lower temperature limit of the permissible temperature range it is set as the first temperature and an upper temperature limit of the permissible temperature range is set as the second temperature. 10. The method according to claim 9, wherein the allowable temperature range is a temperature range, in which the average temperature of a man's skin is uniformly maintained at the reference indoor humidity introduced by the user . 11. The method according to claim 9, further comprising stopping the operations of a compressor and an indoor fan for a first predetermined time when any condition is met, between a condition in which the indoor humidity is greater than the reference indoor humidity and an indoor temperature does not exceed the lower temperature limit of the permissible temperature range and a condition in which the indoor humidity is not higher than the reference indoor humidity and the indoor temperature 5 is not higher than the upper temperature limit of the permissible temperature range. 12. The method according to claim 11, further comprising operating the indoor fan for a second predetermined time, when the first predetermined time has elapsed, to circulate the indoor air. 13. The method according to one of the preceding claims 1 to 8, further comprising: 10 enter (504) the reference internal humidity desired by the user of a user, and Enter (506) the reference temperature range desired by the user, in which a lower temperature limit of the reference temperature range is set as the first temperature and an upper temperature limit of the reference temperature is set as the second temperature 14. The method according to claim 13, further comprising stopping the operations of a compressor and an indoor fan for a first predetermined time when a condition is met. Either, between a condition in which the internal humidity is greater than the internal reference humidity and an internal temperature is not higher than the lower temperature limit of the reference temperature range and a condition in which the internal humidity is not higher than internal reference humidity and the internal temperature is not higher than the upper temperature limit of the reference temperature range. The method according to claim 14, further comprising operating the indoor fan. during a second predetermined time, when the first predetermined time has elapsed, to circulate the indoor air.