KR101404554B1 - an air conditioner with air-cooled heat exchange - Google Patents

Abstract

The present invention relates to an outdoor unit type heat exchanger for exchanging heat between a compressor and air through a first heat exchanger for performing a role of a compressor and a condenser, a second heat exchanger for performing a role of an auxiliary condenser, and a capillary unit for maintaining the refrigerant at a low- A third heat exchanger, an expansion valve, and a first heat exchanger acting as an evaporator, so as to perform a cooling operation and a heating operation.

Description

An air conditioner with an air-cooled heat exchange structure,

The present invention is installed to perform a heating operation through a first heat exchanger performing a function of a compressor, a condenser, a second heat exchanger performing a role of an auxiliary condenser or an auxiliary evaporator, and a capillary unit changing a refrigerant to a low temperature and a low pressure An outdoor unit type third heat exchanger that is heat-exchanged with the compressor by an air-cooling type, and a first heat exchanger that performs a function of the expansion and evaporator, and performs a cooling operation. , And a heating device.

The heat pump circulates the refrigerant flow in the forward and reverse directions in the cooling cycle of the air conditioner, so it can be used as a cooling device and a heating device. Especially, it can be used regardless of the season The use area thereof is gradually expanding.

In order to overcome the limitation that the general heat pump can not be cooled to room temperature or lower, which is the heat exchange temperature range of the air-cooled outdoor heat exchanger, the heat exchanging method of the outdoor heat exchanger is made water- 1, the heat pump includes a compressor 1, a four-way valve 4, an indoor heat exchanger 3, a cooling expansion tube 10, a heat exchanger (not shown) A cooling water separator 20, a heating expansion pipe 30, an outdoor heat exchanger 40, a double pipe 50 and a heat exchange pipe 60.

At this time, the compressor 1, the four-way valve 4 and the indoor heat exchanger 3 are connected by a first refrigerant pipe 11, and the indoor heat exchanger 3 and the heat exchanging liquid separator 20 are connected to each other 2 refrigerant pipe 12 and the heat exchanging liquid separator 20 and the heat expansion pipe 30 are connected to the third refrigerant pipe 13.

The heating expansion pipe 30 and the outdoor heat exchanger 40 are connected by a fourth refrigerant pipe 14 and are connected to the outdoor heat exchanger 40, the double pipe 50, the four- The separator 20 is connected to the fifth refrigerant pipe 15 and the liquid separator 20 for heat exchange and the compressor 1 are connected to the sixth refrigerant pipe 16, And a check valve (80) is provided at a branch point branched from the refrigerant pipe (12).

The four-way valve (4) is formed at the outlet side of the compressor (1), and the refrigerant is supplied to the indoor heat exchanger (3), the indoor heat exchanger (3) functions as a condenser for condensing the refrigerant during the heating operation, serves as an evaporator for evaporating the refrigerant during the cooling operation, Or by absorption.

The cooling expansion tube 10 is connected to the discharge side of the indoor heat exchanger 3 at the time of heating and wound around the first refrigerant tube 11 for guiding the refrigerant in a high temperature and high pressure state, And the heat exchanging liquid separator (20) is configured to heat the refrigerant flowing through the second refrigerant pipe (12) during heating to compensate for the temperature of the refrigerant whose temperature has been lowered as the heat is released, And is guided to the heating expansion pipe (30) through the third refrigerant pipe (13), and at the same time, the refrigerant in the low temperature and low pressure state in the two phases passing through the outdoor heat exchanger (40) (15) to exchange heat between the refrigerants.

However, in the above-mentioned heat pump, since the separate outdoor heat exchanger 40 is located outside, it is difficult to smoothly circulate the refrigerant due to the temperature difference with the outside air when used for heating the winter season.

Also, there is a disadvantage in that the outdoor heat exchanger 40 is used at the time of heating and the performance of the compressor is deteriorated by undercooling.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to enable operation without using an outdoor unit at the time of heating, thereby solving the problem caused by defective flow of refrigerant or refrigerant, The present invention also provides a cooling and heating device having an air-cooled heat exchange structure that allows the state of the refrigerant to be optimally adjusted and enables the flow of the refrigerant to be smoothly adjusted according to the usage state.

In order to achieve the above-mentioned object, the present invention provides a refrigerating machine comprising a compressor, a first heat exchanger acting as a condenser, a second heat exchanger acting as an auxiliary condenser or an auxiliary evaporator, The refrigerant circulates through the first heat exchanger to perform the heating operation while circulating the refrigerant sequentially through the capillary unit that performs the function of the outdoor unit type third heat exchanger and the expansion unit and the evaporator which is heat- The cooling / heating device has an air-cooled heat exchange structure configured to perform an operation.

The third heat exchanger of the present invention includes a cooling and heating device having an air cooling type heat exchange structure provided with an auxiliary coil at a discharge side of air to be heat-exchanged to transfer heat to the front of the receiver, Lt; / RTI >

In addition, the present invention is configured such that the first heat exchanger and the second heat exchanger are continuously installed, and the second heat exchanger has a structure in which the blowing fan is positioned on one side of the vertical width drawn by the heat exchange block including the refrigerant pipe and the cooling fin A cooling and heating device having an air-cooled heat exchange structure is provided.

The capillary unit of the present invention provides a cooling and heating device having an air-cooled heat exchange structure formed by a combination of a sensing unit, auxiliary four sides connected to the sensing unit, and capillaries having different areas.

As described above, according to the present invention, it is possible to solve the problem of the flow fault or the flow fault of the refrigerant due to the external temperature condition by closing the outdoor unit at the time of heating, adjusting the state of the refrigerant supplied to the compressor according to the operating condition, The efficiency of the compressor can be optimized and the flow of the refrigerant can be smoothly controlled according to the use state.

1 is a circuit diagram showing a conventional heat pump.
2 is a circuit diagram of a cooling / heating apparatus according to the present invention.
3 and 4 are side views respectively showing a second heat exchanger of a cold and a heater according to the present invention.
FIG. 5 is a circuit diagram of a cooler / heater according to another embodiment of the present invention.

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

3 and 4 are side views illustrating a second heat exchanger of a cooling and heating device according to the present invention, and FIG. 5 is a cross-sectional view of a cooling and heating device according to another embodiment of the present invention. , The circuit diagram of the radiator.

The cooling and heating device 100 of the present invention includes a compressor 110, a first heat exchanger 150 that performs a role of a condenser, a second heat exchanger 130 that performs a secondary condenser or a secondary evaporator, The capillary unit 170 performing the heating operation through the configuration in which the refrigerant circulates through the capillary unit 170 performing the function.

At this time, the second heat exchanger 130 may be installed at a rear end of the capillary unit 170.

In addition, the cooling and heating device 100 of the present invention includes a compressor 110 and an outdoor type third heat exchanger 270, an expansion valve 160, and an evaporator, which are heat exchanged by an air cooling type while performing a role of a condenser The first heat exchanger 150 is installed to perform the cooling operation through the structure in which the refrigerant circulates.

At this time, a four-way valve 200 is installed on one side of the compressor 110 to allow the refrigerant to flow selectively to the first exchanger 150 and the third heat exchanger 270, A receiver (250) is provided to minimize the liquid refrigerant in the refrigerant.

The third heat exchanger (270) is configured such that the heat radiating fins are attached to the refrigerant pipe so that heat transfer by outside air can be performed while being located outdoors.

At this time, an auxiliary coil 210 is provided on one side of the third heat exchanger 270 on the discharge side of the air generated in the operation of the third blowing fan 271 to transfer the heat quantity to the front of the receiver 250 Respectively.

In addition, the second heat exchanger 130 is installed so that air flows vertically or horizontally of the heat exchange block 135 formed of the refrigerant pipe 135b and the cooling fin 135a.

In addition, the second blowing fan 131 installed to allow the air flow of the heat exchange block 135 to flow is configured to cause the refrigerant pipes stacked in the vertical direction to flow in the horizontal direction and the refrigerant pipes in the upper portion to flow upward, The pipe is installed to supply steel.

In addition, the second blowing fan 131 installed to allow the air flow of the heat exchange block 135 to flow is arranged so that when the refrigerant pipe, which is installed vertically, passes through the vertical direction, the supply blowing fan 131a And the discharge blowing fan 131b is disposed at the lower portion thereof.

At this time, the heat exchange block 135 is provided with a shielding block 133 to prevent air flow to the side.

Meanwhile, the heat exchange block is divided into a second heat exchange block 135 having a large width and a first heat exchange block 136 having a small width, and a second blowing fan 131 is disposed at one side of the first heat exchange block do.

The capillary unit 170 includes a sensing unit 171 for measuring temperature and pressure, auxiliary four sides 173 connected to the sensing unit 171, and a capillary 170 separately installed to have different areas.

Also, the first and second blowing fans 151 and 131 are positioned on one side of the first and second heat exchangers 150 and 130, respectively.

Subsequently, a closure unit 230 is provided at one side of the supply line for supplying the refrigerant to the third heat exchanger 270 to close the refrigerant line.

In the meantime, the capillary unit 170 having a plurality of unit capillary connection structures is connected to the first heat exchanger and the second heat exchanger to perform the function of the expansion valve, and the capillary unit 170 connected to the four sides 200 And a third heat exchanger 270 connected to the third heat exchanger 270 and the capillary unit 170 to perform an evaporator or a condenser, (130) are connected to form a closed circuit.

The capillary unit 170 has a connection structure of a plurality of unit capillaries 175 and a plurality of variable capillaries 178. The variable capillary tube 178 is provided with a check valve C, The capillary tube 178 is provided with a check valve C for one variable capillary and an electron valve S for the other variable capillary.

The second heat exchanger 130 includes a first connection pipe 133 having a check valve C and a first circulation pipe 142 having a check valve C and an electromagnetic valve S at both ends thereof, The third heat exchanger 270 is connected to the second connection pipe 273 having the check valve C and the check valve C at both ends thereof, 2 circulation pipe 275. The third heat exchanger 270 is configured such that a radiating fin is attached to the refrigerant pipe so as to allow heat transfer by the outside air while being located outdoors, The auxiliary coil 210 is installed on one side of the second fan 270 to discharge the air generated in the operation of the third blowing fan 271 to transmit the amount of heat to the front of the receiver 250.

The operation of the present invention constructed as described above will be described.

2 to 5, when the refrigerant compressed at a high temperature and a high pressure by the operation of the compressor 110 during heating is supplied to the first heat exchanger 150, the refrigerant / 1, the air in the room supplied by the air blowing fan 151 is heat-exchanged and condensed.

When the air is supplied to the second heat exchanger 130 which is condensed while passing through the first heat exchanger 150, the air is condensed again by the operation of the second air blowing fan 131

At this time, when the high temperature and high pressure refrigerant supplied from the compressor 110 is changed to the middle-temperature middle pressure while passing through the first heat exchanger 150, the refrigerant is changed to the medium low temperature low pressure when passing through the second heat exchanger 130.

That is, the temperature difference between the air discharged from the first heat exchanger 150 and the second heat exchanger 130 when the heat exchanging operation is performed using indoor air from the front and rear sides of the air conditioner is minimized.

In addition, the refrigerant that failed to completely transfer the heat while passing through the second heat exchanger 130 passes through the capillary unit 170 acting as the expansion valve, changes to the low temperature and low pressure the same as the normal cooling cycle, .

The capillary unit 170 includes a sensing unit 171 for measuring temperature and pressure, an auxiliary quadrangle 173 connected to the sensing unit 171, and a capillary 170 separately installed to have different areas. The auxiliary quadrangular side 173 is opened according to the temperature and the pressure of the refrigerant flowing through the optimal capillary 170 so that the constant temperature and pressure can be maintained at all times.

The refrigerant supplied to the outdoor type third heat exchanger 270, which operates only during the cooling operation, functions as an outdoor unit. The refrigerant supplied to the outdoor third heat exchanger 270 closes the closing unit 230 formed in the supply line, .

When the cooling and heating apparatus 100 of the present invention is used for cooling, the operations of the second heat exchanger 130 and the capillary unit 170 are stopped and the closing unit 230 is opened and supplied from the compressor 110 When the high-temperature and high-pressure refrigerant passes through the third heat exchanger 270 of the outdoor unit type, the refrigerant is heat-exchanged with the outside air, and is condensed to a middle-temperature intermediate pressure.

The refrigerant condensed in the third heat exchanger 270 is expanded while passing through the expansion valve 160 to be transformed into a middle-temperature intermediate pressure refrigerant. When the refrigerant circulates through the first heat exchanger 150 that performs the role of the evaporator It is converted to low temperature and low pressure and then supplied to the compressor.

At this time, a four-way valve 200 is installed on one side of the compressor 110 to allow the refrigerant to flow selectively to the first exchanger 150 and the third heat exchanger 270, The receiver (250) is provided in the line to minimize the liquid refrigerant in the refrigerant.

The third heat exchanger 270 is provided at one side with an auxiliary coil 210 on the discharge side of the air generated during the operation of the third blowing fan 271 to transmit heat quantity to the front of the receiver 250 So that the refrigerant is easily vaporized.

In addition, the second heat exchanger 130 may have a width in the vertical direction drawn by the heat exchange block when the air flows in the vertical direction or the horizontal direction of the heat exchange block 135 including the refrigerant pipe 135b and the cooling fin 135a. The air blowing fan 131a is installed on at least one side of the inside of the heat exchanging block, and the structure in which the air blowing fan is located on the side of the heat exchanging block is eliminated.

Meanwhile, the heat exchange block is divided into a second heat exchange block 135 having a large width and a first heat exchange block 136 having a small width, and a second blowing fan 131 is disposed on one side of the first heat exchange block The air can be rapidly flowed, and the blowing fan can be positioned on the side of the heat exchange block with a small thickness, so that a compact structure can be realized.

5, the capillary unit having a configuration in which the check valves and the second and third heat exchangers and the plurality of unit capillaries are connected to each other and the electronic valves or the check valves are connected to each other, This is possible.

That is, when the flow direction of the refrigerant is controlled through the check valve or the electromagnetic valve provided in each of the second and third heat exchangers and the capillary unit, heat exchange or expansion is performed by an air-cooling type structure or a plurality of volume expansion, And a cooling and heating circuit can be implemented with a simple structure.

100 ... cold, radiator 110 ... compressor
160 ... expansion unit 170 ... capillary unit
200 ... Four-way valve 230 ... Closed unit
250 ... Receiver

Claims (7)

delete delete delete delete delete delete Compressors 110,
A quadrilateral 200 connected to the compressor 110 to supply the refrigerant to the condenser or the evaporator,
A one-heat exchanger 150 connected to the four sides 200 to perform a function of a condenser or an evaporator,
A capillary unit 170 which is connected between the first heat exchanger and the second heat exchanger and has a plurality of unit capillary connection structures for performing the function of expansion,
A third heat exchanger 270 connected to the four sides 200 and acting as an evaporator or a condenser,
And a second heat exchanger 130 connected between the third heat exchanger 270 and the capillary unit 170 and acting as an evaporator or a condenser is connected to form a closed circuit,
The capillary unit 170 has a connection structure of a plurality of unit capillaries 175 and a plurality of variable capillaries 178,
The variable capillary tube 178 is provided with a check valve C,
The variable capillary tube 178 is provided with a check valve C for one variable capillary tube and an electron S for the other variable capillary tube tube,
The second heat exchanger 130 includes a first connection pipe 133 having a check valve C and a first circulation pipe 135 having a check valve C and an electromagnetic valve S at both ends thereof, As the connection structure, a blowing fan 131 is formed,
The third heat exchanger 270 is connected to a second connection pipe 273 having a check valve C and a second circulation pipe 275 when a check valve C is provided at both ends,
The third heat exchanger (270) has a configuration in which a radiating fin is attached to a refrigerant pipe so that heat can be transferred by outside air while being located outdoors,
An auxiliary coil 210 is installed on one side of the third heat exchanger 270 on the discharge side of the air generated in operation of the third blowing fan 271 so as to transfer the amount of heat to the front of the receiver 250 Cooling and heating system with air - cooled heat exchange structure.

Images