KR20070064077A - Dehumidifier combined air conditioner - Google Patents

Abstract

The present invention relates to a dehumidifier combined air conditioner. According to the present invention, the indoor unit constitutes two rows of indoor heat exchangers. In the cooling operation, the indoor heat exchanger performs the function of an evaporator. On the other hand, in the dehumidification operation, the first indoor heat exchanger performs the function of the evaporator, and the second indoor heat exchanger performs the function of the condenser. As a result, air with low humidity is discharged into the room, and the user can feel comfortable.

Description

Air conditioner for dehumidification

1 is a circulation cycle diagram of a typical air conditioner.

Figure 2a is a cycle diagram for performing the cooling operation of the air conditioner according to the present invention.

Figure 2b is a cycle diagram for performing a dehumidification operation of the air conditioner according to the present invention.

Figure 2c is a cycle diagram for performing the heating operation of the air conditioner according to the present invention.

             Explanation of symbols on the main parts of the drawings

100, 500: compressor 150, 550: four sides

200a, 200b, 600a: Indoor heat exchanger 300,600b, 700: Outdoor heat exchanger

500, 900: Fan motor 400a, 400b, 800a, 800b: Fan

cap: Expansion valve a ~ d: Flow valve

The present invention relates to a dehumidifier combined air conditioner.

In general, the air conditioner drives a heating cycle and a cooling cycle according to a user's request, creates a warm room in the cold winter by the operation of the heating cycle, and cools the room in the hot summer by the operation of the cooling cycle. In addition, the air conditioner controls the humidity in the room, and performs dehumidification operation to control the indoor air to a comfortable clean state.

Looking at the air conditioner according to the prior art as follows.

1 is a circulation cycle diagram of a general air conditioner.

The control configuration of a general circulation cycle includes a compressor (10) for compressing a refrigerant, a four-sided (15) for controlling the inflow direction of the refrigerant, a condenser (30) for condensing the refrigerant, and an evaporator (20a) for evaporating the refrigerant. 20b), an indoor fan 40a for blowing air heat-exchanged indoors, an outdoor fan 40b for blowing air heat-exchanged outdoors, and a motor for driving the indoor fan 40a and the outdoor fan 40b. It consists of 50.

In the circulation cycle of the air conditioner, the indoor heat exchanger constitutes a heating cycle when the indoor heat exchanger functions as a condenser, and the air conditioner constitutes a cooling cycle when the indoor heat exchanger functions as an evaporator. As shown in the figure, the indoor heat exchanger installed in the conventional air conditioner is composed of two rows 20a and 20b.

In the heating operation in the heating cycle, the refrigerant is first compressed by the drive of the compressor 10. The compressed refrigerant passes through the four sides 15 to the first indoor heat exchanger 20a and the second indoor heat exchanger 20b, respectively. At this time, the refrigerant flowing through the first indoor heat exchanger 20a and the second indoor heat exchanger 20b releases heat, and warm wind is discharged to the indoor side. At this time, the indoor fan 40a is driven such that the air heat-exchanged through the indoor heat exchangers 20a and 20b is discharged into the room. The refrigerant passing through the first indoor heat exchanger 20a and the second indoor heat exchanger 20b is sucked into the outdoor heat exchanger 30 through an expansion valve cap. Then, the outdoor heat exchanger 30 performs the evaporation operation to discharge cold wind to the outside. At this time, the outdoor fan 40b is driven so that the air heat exchanged through the outdoor heat exchanger 30 is discharged to the outside.

On the other hand, in the cooling operation by the cooling cycle, the refrigerant is first compressed by the drive of the compressor 10. The compressed refrigerant is delivered to the outdoor heat exchanger (30). The outdoor heat exchanger 30 condenses the delivered refrigerant and drives the outdoor fan to discharge the heat exchanged air through the outdoor heat exchanger 30 to the outside. Then, the condensed refrigerant is transferred to the first indoor heat exchanger 20a and the second indoor heat exchanger 20b through an expansion valve cap.

As the first indoor heat exchanger 20a and the second indoor heat exchanger 20b are driven, the refrigerant of the indoor heat exchangers 20a and 20b exchanges heat with the indoor air, and cold wind is discharged to the indoor side. At this time, the indoor fan 40a is driven to discharge the heat exchanged air through the indoor heat exchangers 20a and 20b into the room. The refrigerant passing through the first indoor heat exchanger 20a and the second indoor heat exchanger 20b is input to the compressor 10 through the four sides 15.

On the other hand, when the air conditioner performs the cooling operation, dew condensation occurs on the surface of the indoor heat exchanger due to the temperature difference due to the hot temperature of the room and the cold temperature of the indoor heat exchanger. When dew condensation is generated in the indoor heat exchanger during the cooling operation as described above, moisture in the air is condensed by water droplets, and a small amount automatically has a dehumidifying ability.

However, if the dew condensation phenomenon occurs because the dehumidification ability of the conventional cooling operation is not large, the humidity of the air flowing into the room becomes high. If the high humidity wind continues to flow into the room, the room humidity is increased, and as a result, the comfort of the room temperature felt by the user is reduced.

Therefore, an object of the present invention is to provide a dehumidifier combined air conditioner.

Dehumidifier combined air conditioner according to the present invention for achieving the above object, the indoor heat exchanger made of at least two; An outdoor heat exchanger; A compressor for compressing the refrigerant; A refrigerant supply path is configured to circulate the indoor heat exchanger, the outdoor heat exchanger, and the compressor, and the refrigerant supply path is configured to control the circulation of the refrigerant so that at least one indoor heat exchanger can operate as a condenser during the dehumidification operation. .

And a dehumidifier combined air conditioner according to the present invention is installed in the refrigerant output terminal of the compressor to control the circulation of the refrigerant through the refrigerant supply path, so that the refrigerant is selectively supplied from the outdoor heat exchanger and at least one indoor heat exchanger. A first refrigerant valve for controlling; A second refrigerant valve configured between the outdoor heat exchanger and the indoor heat exchanger; A third refrigerant valve configured between the second refrigerant valve and at least one indoor heat exchanger; Is installed in the indoor heat exchanger that is responsible for the condensation function, and comprises a fourth valve for controlling the refrigerant to be supplied selectively from the compressor and other indoor heat exchanger.

In addition, the dehumidifier combined air conditioner according to the present invention further comprises a second expansion valve for controlling a refrigerant output from the indoor heat exchanger performing the condensation function to enter the indoor heat exchanger performing the evaporation operation during the dehumidification operation.

In the air conditioner combined dehumidifier according to the present invention, four sides are configured between the compressor and the outdoor heat exchanger, and the four sides control the refrigerant compressed through the compressor to flow into the outdoor heat exchanger first, and between the outdoor heat exchanger and the indoor heat exchanger. A first expansion valve is configured, and the first expansion valve is characterized in that the refrigerant is transferred from the outdoor heat exchanger side to the indoor heat exchanger side.

Looking in detail with respect to the dehumidifying operation device of the air conditioner according to the present invention.

Figure 2a is a cycle diagram for performing the cooling operation of the air conditioner according to the present invention, Figure 2c is a cycle diagram for performing the heating operation of the air conditioner according to the present invention.

As shown in the figure, the control configuration of the cycle diagram includes a compressor 100 for compressing a refrigerant, a four-sided side 150 for adjusting the inflow direction of the refrigerant, an outdoor heat exchanger 300 for condensing the refrigerant, Indoor heat exchangers 200a and 200b for evaporating refrigerant, an indoor fan 400a for blowing air heat-exchanged indoors, an outdoor fan 400b for blowing air heat-exchanged outdoors, and the indoor fan 400a And a refrigerant valve (a, b, c, d) for controlling the flow of the refrigerant and the motor 500 for driving the outdoor fan (400b).

When the refrigerant valve (a) is open, the refrigerant can be supplied from the compressor (100) to the outdoor heat exchanger (300), and when closed, the refrigerant can be supplied from the compressor (100) to the indoor heat exchanger (600b) in charge of the condenser. .

When the refrigerant valve (b) is opened, the refrigerant can be supplied from the outdoor heat exchanger (300) to the indoor heat exchangers (600a, 600b), and when the refrigerant valve (b) is closed, the supply is cut off.

In addition, when the refrigerant valve (c) is open. Refrigerant can be supplied from the outdoor heat exchanger 300 to the indoor heat exchanger 600b, and when the refrigerant valve c is closed, the refrigerant is supplied to the indoor heat exchanger 600b which functions as a condenser through the compressor 100. It is possible.

When the refrigerant valve (d) is opened, the refrigerant can be supplied to the four sides 150 from the indoor heat exchanger (600b), the refrigerant valve (d) is closed, the indoor heat exchanger (600a) to perform the function of the evaporator From this, the refrigerant can be supplied to the four sides 150.

In the circulation cycle of the air conditioner according to the present invention, the indoor heat exchanger is composed of a heating cycle when the function of the condenser, and the indoor heat exchanger constitutes a cooling cycle when the function of the evaporator.

As shown in the figure, the indoor heat exchangers 200a and 200b installed in the air conditioner of the present invention are composed of two rows. Accordingly, the evaporator and the condenser operate according to the cooling operation and the heating operation. And when the air conditioner according to the present invention performs the dehumidification operation, one of the two rows of indoor heat exchanger performs the function of the evaporator, the other condenser.

In the cooling operation by the cooling cycle illustrated in FIG. 2A, first, the refrigerant is compressed by driving the compressor 100. The compressed refrigerant is delivered to the outdoor heat exchanger 300 by the opening operation of the first refrigerant valve a. The outdoor heat exchanger 300 condenses the delivered refrigerant and delivers the condensed refrigerant to the second refrigerant valve b through an expansion valve cap.

The second refrigerant valve (b) passes through the refrigerant in an opening operation, and the refrigerant flows into the first indoor heat exchanger (200a), respectively. In addition, the refrigerant delivered by the opening operation of the second cold distribution valve b is transferred to the second indoor heat exchanger 200b by the opening operation of the third refrigerant valve c.

Therefore, as the first indoor heat exchanger 200a and the second indoor heat exchanger 200b are driven, the refrigerant exchanges heat with the indoor air, and cold wind is discharged to the indoor side. At this time, the indoor fan 400a is driven so that the heat exchanged air from the indoor heat exchangers 200a and 200b flows into the room.

In addition, the refrigerant passing through the first indoor heat exchanger 200a flows into the four sides 150, and the refrigerant passing through the second indoor heat exchanger 200b passes through the four sides of the fourth refrigerant valve d. 150). Then, the refrigerant introduced into the four sides 150 is input to the compressor 100.

On the other hand, in the heating operation by the heating cycle shown in FIG. 2C, the refrigerant is first compressed by the drive of the compressor 100. The compressed refrigerant is delivered to the first indoor heat exchanger 200a through the four sides 150. The compressed refrigerant is supplied to the second indoor heat exchanger 200b by the opening operation of the fourth refrigerant valve d through the four sides 150.

Therefore, as the first indoor heat exchanger 200a and the second indoor heat exchanger 200b are driven, the refrigerant exchanges heat with the indoor air, and warm wind is discharged to the indoor side. At this time, the indoor fan 400a is driven such that the air heat-exchanged from the indoor heat exchangers 200a and 200b is introduced into the room.

The refrigerant supplied to the first indoor heat exchanger 200a is transferred to the outdoor heat exchanger 300 through the first expansion valve cap by the opening operation of the second refrigerant valve b. In addition, the refrigerant supplied to the second indoor heat exchanger 200b is transferred to the second refrigerant valve b by the opening operation of the third refrigerant valve c. The refrigerant is delivered to the outdoor heat exchanger 300 through the first expansion valve cap by the opening operation of the second refrigerant valve b. Thereafter, the refrigerant delivered to the outdoor heat exchanger side 300 flows into the compressor 100.

On the other hand, in the process of performing the cooling operation, due to the temperature difference between the hot temperature of the room and the cold temperature of the indoor heat exchanger, dew condensation or the like occurs on the surface of the indoor heat exchanger. Therefore, to prevent this, the dehumidification operation is performed.

Figure 2b is a cycle diagram for performing the dehumidification operation of the air conditioner according to the present invention.

When the dehumidification operation is performed in the present invention, the outdoor heat exchanger 700 configured as the outdoor unit is not driven, and the indoor heat exchangers 600a and 600b having the indoor unit perform the functions of the evaporator and the condenser, respectively.

Therefore, as shown in the drawing, the dehumidification operation first drives the compressor 500 to compress the refrigerant. The compressed refrigerant is transferred to the second indoor heat exchanger 600b which functions as a condenser. At this time, since the first refrigerant valve (a) is closed, the refrigerant is prevented from entering the outdoor heat exchanger 700 configured in the outdoor unit. Accordingly, the refrigerant flows into the second indoor heat exchanger 600b, and the introduced refrigerant is transferred to the second expansion valve cap2 due to the closed state of the fourth valve refrigerant d.

Then, the refrigerant passing through the second expansion valve cap2 is input to the first indoor heat exchanger 600a which functions as an evaporator. In addition, the first indoor heat exchanger 600a exchanges heat with external air, and cool air flows into the interior. At this time, the indoor fan (800a) is driven so that cool wind flows into the room. In addition, the refrigerant input to the first indoor heat exchanger (600a) is input to the four sides (550), and is delivered to the compressor (500).

During the cooling cycle and the defrost cycle, the closing / opening operation of the refrigerant valve controlling the introduction of the refrigerant is performed by a microcontroller (not shown).

As described above, the present invention constitutes a two-row indoor heat exchanger which performs a function of a condenser and an evaporator in an indoor heat exchanger in order to use both a heating and cooling function and a dehumidification function. Therefore, by using two rows of indoor heat exchangers used for cooling as condensers and evaporators, it becomes possible to perform the cooling / heating function and the dehumidification function in one air conditioner.

Therefore, the present invention, by performing the functions of the condenser and the evaporator together in the indoor heat exchanger, it is possible to operate in the same function as the dehumidifier, the dehumidification effect is very large.

As described above, the present invention comprises a first indoor heat exchanger and a second indoor heat exchanger having two rows in an indoor unit, the first indoor heat exchanger performs an evaporator function and a second indoor heat exchanger performs a condenser function at the same time in a dehumidification operation. It is a basic technical idea to discharge air of low humidity into a room.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

Therefore, due to the air conditioner combined dehumidifier according to the present invention can be expected the following effects. With the air conditioner according to the invention it is possible to carry out the same dehumidification operation as the dehumidifier. In addition, by supplying low-humid warm air (which supplies low-humidity low-temperature air into the room in contrast to the dehumidifier) indoors, it is effective in drying laundry while removing humidity in the room during humid rainy seasons. Can be used.

Claims (4)

An indoor heat exchanger comprising at least two; An outdoor heat exchanger; A compressor for compressing the refrigerant; A refrigerant supply path is configured to circulate the indoor heat exchanger, outdoor heat exchanger, and compressor. The refrigerant supply path, the dehumidifier combined air conditioner, characterized in that for controlling the circulation of the refrigerant to operate at least one indoor heat exchanger as a condenser during the dehumidification operation. The method of claim 1, To control the circulation of the refrigerant through the refrigerant supply path, A first refrigerant valve installed at a refrigerant output end of the compressor to control a refrigerant to be selectively supplied from the outdoor heat exchanger and at least one indoor heat exchanger; A second refrigerant valve configured between the outdoor heat exchanger and the indoor heat exchanger; A third refrigerant valve configured between the second refrigerant valve and at least one indoor heat exchanger; A dehumidifier combined air conditioner is installed in the indoor heat exchanger in charge of the condensation function and comprises a fourth valve for controlling the refrigerant to be selectively supplied from the compressor and the other indoor heat exchanger. According to claim 1, The dehumidifier combined air conditioner further includes a second expansion valve configured to control the refrigerant output from the indoor heat exchanger performing the condensation function to enter the indoor heat exchanger performing the evaporation operation during the dehumidification operation. The method of claim 1, Four sides are configured between the compressor and the outdoor heat exchanger, and the four sides control the refrigerant compressed through the compressor to flow into the outdoor heat exchanger first. A first expansion valve is configured between the outdoor heat exchanger and the indoor heat exchanger, wherein the first expansion valve controls the refrigerant to be transferred from the outdoor heat exchanger side to the indoor heat exchanger side.

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