KR100541481B1 - Vane control method for dehumidification air conditioner - Google Patents

Abstract

The vane control method of the dehumidifying air conditioner according to the present invention is effective dehumidification by controlling the direction of the vanes in the direct, upward and horizontal modes, respectively, depending on whether the indoor heat exchanger is divided into two parts in the dehumidification operation of the dehumidification operation. And temperature control is possible.

In addition, the user can feel the warm air at the time of discharging the hot air and the cold air at the time of discharging the cold air, thereby providing a comfortable environment.

Description

Vane control method for dehumidification air conditioner

1 and 2 is a schematic view showing a conventional dehumidification air conditioner.

Figure 3 is a schematic diagram showing a dehumidifying air conditioner according to an embodiment of the present invention.

Figure 4 is a flow chart schematically showing the operation of the dehumidifying air conditioner according to an embodiment of the present invention.

Figure 5 is a schematic diagram showing the mode of the vane of the dehumidifying air conditioner according to an embodiment of the present invention.

Figure 6 is a schematic diagram showing an operating state of the dehumidifying air conditioner according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10 ... compressor 11 ... compressor

12 ... 4-way valve 20 ... Outdoor heat exchanger

21 ... condenser 22 ... outdoor fan

30 ... indoor heat exchanger 31 ... first heat exchanger

32 ... 2nd heat exchanger 33 ... indoor expander

34 ... 2nd valve 40 ... Expansion part

41 ... Inflator 42 ... 1st valve

35.Indoor fan 50 ... Control panel

36 ... Grill 37 ... Vane

The present invention relates to a vane control method of a dehumidification air conditioner, and more particularly, to a vane control method of a dehumidification air conditioner for efficiently changing the vane direction of the dehumidification air conditioner according to the dehumidification operation method.

In general, air conditioners used in homes are additionally equipped with a dehumidifying function such as a dehumidifier. This is because the temperature of the indoor heat exchanger in which the evaporator in which the liquid refrigerant evaporates from the air conditioner to the gaseous refrigerant is very low, and condensation of the surrounding moisture is discharged outward.

However, the air conditioner is not possible to use only the dehumidifier because the room temperature is lowered during operation, it is a dehumidification air conditioner that solves this problem.

Dehumidification air conditioner refers to an air conditioner capable of removing moisture without changing the room temperature by arranging a heat exchanger serving as a condenser and a heat exchanger serving as an evaporator, respectively, in an indoor heat exchanger located in the room.

1 is a structural diagram schematically showing a conventional dehumidification air conditioner.

Referring to the drawings, a conventional dehumidification air conditioner and a compression unit 10 is compressed refrigerant; An outdoor heat exchanger (20) provided with a heat exchanger (21) and a fan (22) to exchange heat between the refrigerant and outdoor air; The first heat exchanger (31), the second heat exchanger (32), and the indoor expansion portions (33, 34) located between the first and second heat exchangers (31, 32) are provided. An indoor heat exchanger (30); The expansion unit 40 is positioned between the outdoor heat exchanger 20 and the indoor heat exchanger 30.

In more detail, the compression unit 10 includes a compressor 11 for converting a low temperature low pressure gas refrigerant output from the outdoor heat exchange unit 20 or an indoor heat exchange unit 30 into a high temperature high pressure gas refrigerant; It is provided with a four-way valve 12 for determining the discharge direction of the compressor 11, the four-way valve 12 is to switch the suction and discharge piping of the compressor 11 to cool the room The indoor heat exchanger 30 is operated as an evaporator, and when the room is to be heated, the indoor heat exchanger 30 is operated as a condenser. Of course, the outdoor heat exchanger 20 is operated as a condenser and an evaporator, respectively. However, since the main purpose of the present invention is to use the dehumidifier, it is assumed that the outdoor heat exchanger 20 is operated as a condenser and the indoor heat exchanger 30 is operated as an evaporator.

The outdoor heat exchanger 20 is a means for converting the high temperature and high pressure gas refrigerant generated by the compression unit 10 into a medium temperature and high pressure liquid refrigerant. A condenser 21 and a fan 22 are provided for this purpose.

The expansion portion 40 is a means for converting the medium-temperature high-pressure liquid refrigerant output from the outdoor heat exchanger 20 into a low-temperature low-pressure liquid refrigerant, and consists of a capillary tube 41, in parallel with the first valve 42 ), The first valve 42 determines whether the capillary tube 41 passes. As such, the control of the passage of the capillary tube 41 is not to be performed in the expansion part 40 when the capillary tube 41 is used as a dehumidifier. In this case, the first valve 42 is opened to allow the refrigerant to pass through the first valve. Pass through (42) to prevent expansion.

As such, the refrigerant having a medium temperature and high pressure is introduced into the indoor heat exchanger 30 without undergoing the expansion process. The indoor heat exchanger 30 includes the first heat exchanger 31, the second heat exchanger 32, and the same. Consists of the indoor expansion (33, 34) between, the first heat exchanger (31) takes place once more condensation action, the expansion of the indoor expansion unit 33 of the indoor expansion is made. By the expansion process, the medium-temperature high-pressure liquid refrigerant is converted into a low-temperature low-pressure liquid refrigerant, and the second heat exchanger 32 absorbs and evaporates the surrounding heat to convert it into a low-temperature low-pressure gas refrigerant, and then the compression unit. Flows into (10). If it operates as a cooler rather than a dehumidifier, an expansion process is performed in the expansion part 40, and the first heat exchanger 31 also operates as an evaporator like the second heat exchanger 32. Of course, at this time, the second valve 34 of the indoor expansion part should be opened so that the indoor expander 33 does not operate.

Looking briefly at the operation of a conventional dehumidifying air conditioner having such a configuration, in the second heat exchanger 32, the temperature is lowered due to evaporation of the refrigerant, and condensation of surrounding moisture is caused. Leaking results in dehumidification. Of course, the temperature of the room is also cooled in this process, so that the first heat exchanger 31 is operated as a condenser in order to prevent the temperature from being balanced.

Looking at the arrangement of the conventional dehumidifying air conditioner described above with reference to Figure 2, the first heat exchanger and the second heat exchanger is located on the inner surface of the grill 36 of the indoor heat exchanger (indoor) 30, Discharge ports and vanes 37 are positioned below the grill 36.

The indoor fan is positioned between the first and second heat exchangers and the discharge port, and mixes the cold air and the warm air generated by the heat exchanger to discharge them to the discharge port.

At this time, the direction of the mixed air discharged through the discharge port is changed by the vanes 37 provided on the outer surface of the discharge port.

The vanes 37 are wind control plates, which are manually or automatically adjusted by the user. Such vanes 37 are oriented in a proper direction even during dehumidification operation in the dehumidification air conditioner, and most dehumidification air conditioners operate in an upward mode to derive an optimal effect of dehumidification.

The upward mode is a mode for discharging the mixed wind upward by facing the vane upward, and is a mode that can effectively remove the moisture formed in the ceiling portion and the wall.

However, such uniform vane direction control during dehumidification is useful for dehumidification but has a problem in that it is not actively applied to temperature.

In other words, if the user requests a change in temperature rather than simple dehumidification, the dehumidification air conditioner performs heating or cooling at the same time as dehumidification. In this case, the efficiency of heating or cooling is controlled by uniformly controlling the vanes in an upward mode. This is falling.

An object of the present invention is to provide a vane control method of a dehumidifying air conditioner, which is capable of forming an efficient indoor airflow pattern according to a method of dehumidifying operation of a dehumidifying air conditioner.

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According to the technical idea of the present invention for achieving the above object, in the method for controlling the vanes of the dehumidifying air conditioner having an outdoor heat exchanger and a divided heat exchanger, the indoor temperature and the set temperature are compared with each other. The operation method of the outdoor heat exchanger and the indoor heat exchanger is determined, and the vane direction is directly controlled in the direct mode to discharge air downward in the case of the heating dehumidification operation, and upward in the case of the constant temperature dehumidification operation. In the upward mode for discharging air, in the case of the cooling tendency dehumidification operation, the vane control method of the dehumidifying air conditioner includes a step of changing to a horizontal mode for discharging air horizontally.
On the other hand, according to another technical idea according to the present invention, in the dehumidifying air conditioner composed of an outdoor heat exchanger, a divided heat exchanger and a control unit for controlling the heat exchanger, the control unit compares the room temperature and the set temperature; And a result of the comparison by the above step, when the indoor temperature is lower than the set temperature, the outdoor fan is rotated at a low speed, and the heating dehumidification operation step in which the discharged wind is directed downward is directed downwardly, and the comparison result When the indoor temperature and the set temperature are the same, the outdoor fan is operated at a higher speed than the heating dehumidification operation, and the vane direction is upward, and the constant temperature dehumidification operation step in which the discharged wind is upward and as a result of the comparison, the indoor temperature is higher than the set temperature. If the outdoor fan is rotated at a higher speed than the constant temperature dehumidification operation, the direction of the vanes toward the horizontal, discharged wind It is achieved by the vane control method of an air conditioner for dehumidification which contains the cooling and dehumidifying operation step in which the horizontal.

By changing the direction of the vanes according to the cooling, heating, and constant temperature modes as described above, convection according to the temperature of the air is smoothly performed, thereby obtaining a high cooling and heating effect.

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

Figure 3 is a schematic diagram showing a dehumidifying air conditioner according to an embodiment of the present invention.

Referring to FIG. 3, the dehumidifying air conditioner according to the present embodiment includes a compression unit 10 in which a refrigerant is compressed; An outdoor heat exchanger (20) provided with a heat exchanger (21) and a fan (22) to exchange heat between the refrigerant and outdoor air; The first heat exchanger (31), the second heat exchanger (32), and the indoor expansion portions (33, 34) located between the first and second heat exchangers (31, 32) are provided. An indoor heat exchanger (30); The expansion unit 40 positioned between the outdoor heat exchanger 20 and the indoor heat exchanger 30, and a controller 50 for controlling the outdoor heat exchanger 20 and the indoor heat exchanger 30.

In more detail, the controller 50 has a built-in memory 52 in which a conventional comparison program is stored to compare the temperature and humidity detected by the sensor with a set temperature and humidity, and the outdoor heat exchanger 20 The indoor heat exchanger 30 is controlled. In particular, the outdoor heat exchanger 20 controls the outdoor fan 22, and the indoor heat exchanger 30 controls the first heat exchanger 31 and the second heat exchanger 32. Control usage.

The control of the outdoor fan 22 of the outdoor heat exchanger is for determining the cooling trend dehumidification operation, the constant temperature dehumidification operation, and the heating trend dehumidification operation. The dehumidification operation generally means that the first heat exchanger 31 of the indoor heat exchanger divided into two parts is used as the condenser and the second heat exchanger 32 is used as the evaporator. This is the case when operating at high speed. This is because when the outdoor fan 22 operates at a high speed, the condensation efficiency of the outdoor heat exchanger 20 provided outdoors increases, so that evaporation is more active even when the indoor heat exchanger 20 is dehumidified. This is because the room temperature decreases.

On the other hand, the constant temperature dehumidification operation is a case in which the outdoor fan 22 operates at a lower speed than the cooling tendency dehumidification operation, and means an operation in which only a dehumidification action is performed and no change in the room temperature occurs.

The heating tendency dehumidification operation is a case in which the outdoor fan 22 operates at a lower speed than the constant temperature dehumidification operation, and most of the condensation is performed in the first heat exchanger 31 of the indoor heat exchanger 30 rather than the outdoor heat exchanger 20. This means that the warm air is discharged into the room because it occurs.

Controlling the use of the first heat exchanger 31 and the second heat exchanger 32 determines whether to use a dehumidifying air conditioner for dehumidification or cooling, and the first heat exchanger 31 If the second heat exchanger 32 is used as an evaporator, the cooling operation is performed, and if the first heat exchanger 31 is a condenser and the second heat exchanger 32 is used as an evaporator, the dehumidification operation is performed.

Of course, the first valve 42 and the first heat exchanger 31 and the second heat exchanger 32 located between the indoor heat exchanger 20 and the indoor heat exchanger 30 in this process. The control of the second valve 34 should also be made, and other parts including this have been described in the related art, and thus description thereof will be omitted.

Referring to FIGS. 3 and 4, the operation of the dehumidifying air conditioner according to the present exemplary embodiment having the above configuration will be described first. When the dehumidification operation instruction and the setting temperature are set by the user (S 110), the control unit ( 50 compares the room temperature measured by the sensor (not shown) with the set temperature by a normal comparison program stored in the memory 52 of the controller 50 (S120).

As a result of the comparison, when the indoor temperature is lower than the set temperature, the heating tendency dehumidification operation of rotating the outdoor fan 22 at a low speed is performed (S 130). When the comparison results, the outdoor fan 22 is recalled. Constant temperature dehumidification operation is performed by operating at a higher speed (medium speed) than heating tendency dehumidification operation (S 140). When the indoor temperature is higher than the set temperature as a result of comparison, a cooling tendency dehumidification operation of rotating the outdoor fan 22 at high speed is performed. It is made (S 150).

In addition, the vane installed on the discharge port outer surface according to the operation mode is also changed in the direction as shown in Figure 5, in the case of the heating tendency dehumidification operation is a direct mode in which the vanes are directed downward, in the case of the constant temperature dehumidification operation In the upward mode in which the vanes face upwards, in the case of the cooling trend dehumidification operation, the vanes change in the horizontal mode in which the vanes face horizontally.

The above operation is repeatedly performed until the user ends the operation (S 160).

In summary, the operation method of the outdoor heat exchanger and the indoor heat exchanger is determined by comparing the indoor temperature with the set temperature, and the vane direction is changed accordingly.

In the case of the heating tendency dehumidification operation, a direct warm mode is discharged in a heating tendency dehumidification operation mode with respect to the room temperature. Since the warm air has a property of rising, it is discharged downward to sufficiently heat the lower part of the indoor space. As shown in FIG. 6 to rise.

In the case of the cooling trend dehumidification operation, the horizontal mode is used so that the user can feel the cold wind within a short time regardless of whether the user is standing, sitting or lying down. That is, the cold air discharged horizontally sinks to the lower part of the indoor space. In general, when the cold air is horizontally discharged on the position of the indoor unit installed at a high position on the wall as shown in FIG. I can feel it.

In the case of the constant temperature dehumidification operation, the upward mode is for facilitating the removal of moisture from the ceiling and walls as mentioned in the prior art.

As described above, in the vane control method of the dehumidifying air conditioner according to the present invention, the direction of the vanes is directly, upwardly and horizontally depending on whether the indoor heat exchanger is divided into two parts according to the heating tendency, the constant temperature tendency, and the cooling tendency. Mode control enables efficient dehumidification and temperature control.

In addition, the user can feel the warm air at the time of discharging the hot air and the cold air at the time of discharging the cold air, thereby providing a comfortable environment.

Claims (4)

In the method for controlling the vanes of the dehumidifying air conditioner provided with an outdoor heat exchanger and a divided heat exchanger, Determining an operating method of the outdoor heat exchanger and the indoor heat exchanger by comparing an indoor temperature with a set temperature; According to the operation method, the direction of the vane is a direct mode for discharging air downward in the case of heating dehumidification operation, in an upward mode for discharging air upward in the case of constant temperature dehumidification operation, and horizontal in the case of cooling dehumidification operation. And changing to a horizontal mode for discharging air to the vane control method of the dehumidifying air conditioner included. delete delete In the dehumidification air conditioner composed of an outdoor heat exchanger, a divided heat exchanger and a control unit for controlling the heat exchangers, Comparing, by the controller, a room temperature with a set temperature; As a result of the comparison by the above step, when the indoor temperature is lower than the set temperature, the outdoor fan is rotated at a low speed, the heating dehumidification operation step of the wind discharged downward, the direction of the vanes downward; A constant temperature dehumidification operation step in which the outdoor fan is operated at a higher speed than the heating dehumidification operation when the indoor temperature and the set temperature are the same, and vanes are directed upward, and the discharged wind is upward; And When the indoor temperature is higher than the set temperature as a result of the comparison, the outdoor fan is rotated at a higher speed than the constant temperature dehumidification operation, the direction of the vanes toward the horizontal, cooling dehumidification operation step that the discharged wind is horizontal; includes a Vane control method.

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