KR20100025356A - Air conditioner - Google Patents

Abstract

PURPOSE: An air conditioner is provided to keep the cooling power and heating power lasting by reducing the on/off times of a compressor. CONSTITUTION: An air conditioner comprises a compressor(2), an outdoor heat exchanger(4), an outdoor blower(6), a first heat exchanger(8), an expanding unit(11), a thermal storage tank(12), a second heat exchanger(14), and an indoor blower(16). The outdoor heat exchanger heat-exchanges the refrigerant with the outside air. The outdoor blower guides the outside air flow to the outdoor heat exchanger. The second heat exchanger heat-exchanges the refrigerant and heat storage medium. The expanding unit is installed between the outdoor heat exchanger and the first heat exchanger. The thermal storage tank is filled with the heat storage medium heat-exchanged in the first heat exchanger. The second heat exchanger heat-exchanges the heat storage medium and indoor air of the thermal storage tank. The indoor blower guides the indoor air to the second heat exchanger.

Description

Air Conditioner

 The present invention relates to an air conditioner, and more particularly, to an air conditioner in which a refrigerant is heat-exchanged with a heat storage medium, and a heat storage medium is heat-exchanged with indoor air to cool or heat the room.

 In general, an air conditioner uses a refrigeration cycle consisting of a compressor, a condenser, an expansion device, and an evaporator to cool or heat a room. And a heat pump air conditioner capable of selectively performing heating operation.

The air conditioner keeps the room temperature at or near the set temperature while frequently turning on / off the compressor when the difference between the room temperature and the set temperature is not large.

However, the air conditioner as described above has a problem in that the refrigerant flow rate is not well formed during frequent on / off of the compressor, so that the efficiency is lowered, and the user's comfort is reduced due to the frequent on / off of the compressor.

The present invention has been made to solve the above problems of the prior art, to provide an air conditioner for storing the cooling / heating force of the refrigerant in the heat storage medium and the heat storage medium to cool / heat the room.

An air conditioner according to the present invention for solving the above problems includes a compressor for compressing a refrigerant, an outdoor heat exchanger for exchanging refrigerant with outdoor air, and an outdoor blower for flowing outdoor air to the outdoor heat exchanger; A first heat exchanger configured to exchange heat between the refrigerant and the heat storage medium; An expansion mechanism provided between the outdoor heat exchanger and the first heat exchanger; A heat storage tank containing the heat storage medium heat exchanged in the first heat exchanger; A second heat exchanger in which the heat storage medium of the heat storage tank exchanges heat with indoor air; It includes an indoor blower for flowing the indoor air to the second heat exchanger.

The compressor, the outdoor heat exchanger, and the outdoor blower are installed in the outdoor unit, the first heat exchanger, the heat storage tank, the second heat exchanger, and the indoor blower are installed in the indoor unit, and the expansion mechanism is provided in at least one of the outdoor unit and the indoor unit. Is installed.

The compressor, the outdoor heat exchanger, the outdoor blower, the first heat exchanger, the expansion mechanism, and the heat storage tank are installed in the outdoor unit, and the second heat exchanger and the indoor blower are installed in the indoor unit.

The air conditioner includes a first heat storage medium circulation passage connected to the heat storage medium to circulate the first heat exchanger and the heat storage tank, a first heat storage medium pump installed in the first heat storage medium circulation passage, and the heat storage medium is connected to the heat storage tank. And a second heat storage medium circulation passage connected to the second heat exchanger to circulate, and a second heat storage medium pump disposed in the second heat storage medium circulation passage.

The first heat exchanger includes a refrigerant passage through which the refrigerant passes, and a heat storage medium passage through which the heat storage medium passes.

The second heat exchanger has a heat storage medium flow path through which the heat storage medium passes.

An indoor temperature detector installed at the indoor unit to detect an indoor temperature; A heat storage tank temperature sensing unit for sensing a temperature of the heat storage tank; An operation unit for operating the air conditioner; On / off control of the compressor and the first heat storage medium pump according to the detection result of the room temperature detection unit and the heat storage tank temperature detection unit, the on-off of the second heat storage medium pump according to the detection result of the room temperature detection unit and the operation of the operation unit. The control unit further controls the on / off.

According to the present invention configured as described above, since the cooling / heating force of the refrigerant is stored in the heat storage medium of the heat storage tank and then supplied to the room, the on / off frequency of the compressor can be reduced, thereby increasing the operating COP, and cooling / cooling of the refrigerant. When heating power is directly supplied to the room, there is an advantage that the cooling / heating power can be maintained more continuously while reducing the cooling / heating power.

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

1 is a schematic cross-sectional view of an embodiment of an air conditioner according to the present invention, FIG. 2 is a configuration diagram of an air conditioner according to an embodiment of the present invention, and FIG. 2 is a heating example of an embodiment of an air conditioner according to the present invention. City configuration diagram.

1 to 3, the air conditioner according to the present embodiment, the cooling / heating power of the refrigerant is transferred to the heat storage medium, the cooling / heating power transferred to the heat storage medium is transferred back to the indoor air to the room As cooling / heating, hereinafter, it will be described as a heat pump type air conditioner which can switch between cooling and heating, and separates the indoor unit I and the outdoor unit O separately.

Such an air conditioner includes a compressor (2), an outdoor heat exchanger (4), an outdoor blower (6), a first heat exchanger (8), an expansion mechanism (11), a heat storage tank (12), 2 includes a heat exchanger 14, an indoor blower 16, and a cooling / heating switching valve 18, which components are distributed in the outdoor unit O and the indoor unit I.

Here, in the outdoor unit O, an outdoor air inlet 22 through which outdoor air is sucked is formed in the outdoor case 21 forming the exterior, and outdoor air sucked into the outdoor case 21 is external to the outdoor case 21. The outdoor air discharge port 23 discharged to the air is formed.

In the indoor unit I, an indoor air suction port 25 through which indoor air is sucked is formed in an indoor case 24 forming an exterior, and indoor air sucked into the indoor case 24 is external to the indoor case 24. An indoor air discharge port 26 discharged to the air is formed.

The compressor 2 compresses the refrigerant and is installed inside the outdoor case 21 of the outdoor unit O.

The outdoor heat exchanger (4) heats the refrigerant and the outdoor air so that the refrigerant loses heat to the outdoor air and condenses or absorbs heat from the outdoor air to evaporate. It is installed in the outdoor case 21 of the outdoor unit (O).

The outdoor blower 6 flows outdoor air to the outdoor heat exchanger 4, and after the outdoor air is sucked into the outdoor air inlet 22 and passed through the outdoor case 21 to exchange heat with the outdoor heat exchanger 4. It is installed in the outdoor case 21 of the outdoor unit (O) so that it can be discharged to the outside through the outdoor air discharge port (23).

The first heat exchanger 8 is a refrigerant / heat storage medium heat exchanger that exchanges the refrigerant and the heat storage medium to transfer the cooling / heating force of the refrigerant to the heat storage medium. The first heat exchanger 8 includes a refrigerant passage 9 through which the refrigerant passes, and the heat storage medium passes therethrough. A heat storage medium flow path 10 is formed.

The first heat exchanger 8 acts as an evaporator during the cooling operation and as a condenser during the heating operation.

The expansion mechanism 11 is installed between the outdoor heat exchanger 4 and the first heat exchanger 8 to expand the refrigerant condensed in the outdoor heat exchanger 4 during the cooling operation to cool the refrigerant of the first heat exchanger 8. The evaporation is carried out in the flow path 30, and the refrigerant condensed in the first heat exchanger 8 is expanded during the heating operation to be evaporated in the outdoor heat exchanger 4.

The expansion mechanism 11 is made of a capillary tube or LEV, EEV, or the like installed in the refrigerant pipe between the outdoor heat exchanger 4 and the first heat exchanger 8.

The heat storage tank 12 is a heat storage medium in which the heat storage medium heat-exchanged with the refrigerant in the first heat exchanger 8 is supplied and the heat storage medium is supplied to the second heat exchanger 14, and serves as a kind of cooling / heating force storage mechanism.

Here, the heat storage medium circulates through the first heat exchanger 8, the heat storage tank 12, and the second heat exchanger 14, and stores the cooling / heating power of the refrigerant to be delivered to the indoor air. Brine or ordinary water is used.

The second heat exchanger 14 is a heat storage medium / indoor air heat exchanger that transfers the heat storage medium of the heat storage tank 12 with indoor air to transfer cooling / heating power of the heat storage medium to the indoor air, and the heat storage medium through which the heat storage medium passes. The flow path 15 is formed.

The second heat exchanger 14 is installed inside the interior case 24 of the indoor unit O, and in the cooling operation, the heat storage medium acts as a cooler that deprives the heat of the indoor air, and the heat storage medium becomes the indoor air during the heating operation. It acts as a radiator to release heat.

The indoor blower 16 flows indoor air to the second heat exchanger 14 so that the indoor air is cooled / heated by the second heat exchanger 14.

The indoor blower 16 may be discharged to the outside through the outdoor air discharge port 26 after the indoor air is sucked into the indoor air intake 25, the heat exchange with the second heat exchanger 14 while passing through the indoor case 24. It is installed inside the interior case 24 of the indoor unit (I).

The cooling / heating switching valve 18 has a low temperature refrigerant passing through the refrigerant passage 9 of the first heat exchanger 8 during the cooling operation and a high temperature into the refrigerant passage 9 of the first heat exchanger 8 during the heating operation. Allow refrigerant to pass through.

The cooling / heating switching valve 18 allows the refrigerant compressed in the compressor 2 to be supplied to the outdoor heat exchanger 4 during the cooling operation while the refrigerant evaporated in the refrigerant passage 9 of the first heat exchanger 8 is compressed. The refrigerant evaporated in the outdoor heat exchanger (4) is supplied to the compressor (2), and the refrigerant compressed in the compressor (2) during the heating operation is supplied to the refrigerant passage (9) of the first heat exchanger (8). 2) to be supplied.

That is, the air conditioner according to the present embodiment includes a compressor 2, a cooling / heating switching valve 18, an outdoor heat exchanger 4, an expansion mechanism 11, a first heat exchanger 8, The cooling / heating switching valve 18 and the cooling cycle leading to the compressor 2, or the compressor 2, the cooling / heating switching valve 18, the first heat exchanger 8, and the expansion mechanism. (11), an outdoor heat exchanger (4), a cooling / heating switching valve (18), and a heating cycle leading to the compressor (2).

Meanwhile, the air conditioner according to the present embodiment includes a first heat storage medium circulation passage 42 and a first heat storage medium circulation passage 42 connected to the heat storage medium so as to circulate the first heat exchanger 8 and the heat storage tank 12. A first heat storage medium pump 46 provided, a second heat storage medium circulation passage 48 connected to the heat storage medium circulating the heat storage tank 12 and the second heat exchanger 14, and a second heat storage medium circulation passage 46 It further comprises a second heat storage medium pump 52 installed in.

The first heat storage medium circulation passage 42 connects the heat storage medium passage 10 and the heat storage tank 12 of the first heat exchanger 8.

The first heat storage medium circulation passage 42 may include a first heat storage medium supply passage 43 through which the heat storage medium inside the heat storage tank 12 is supplied to the heat storage medium passage 10 of the first heat exchanger 8, and 1 includes a first heat storage medium recovery flow path 44 for guiding the heat storage medium of the heat storage medium flow path 10 of the heat exchanger 8 to be recovered to the heat storage tank 12, wherein the cooling / heating force of the refrigerant is a first heat exchanger (8) through the first heat storage medium circulation passage consisting of the heat storage medium flow path 10, the first heat storage medium recovery flow path 44, the heat storage tank 12, and the first heat storage medium supply flow path 43 ( 12) It is stored internally.

In the first heat storage medium pump 46, the heat medium inside the heat storage tank 12 includes a first heat storage medium supply flow path 43, a heat storage medium flow path 32 of the first heat exchanger 8, and a first heat storage medium recovery flow path. The heat storage medium is forcedly flowed through the 44 in order to be recovered to the heat storage tank 12, and is installed in at least one of the first heat storage medium supply flow path 43 and the first heat storage medium recovery flow path 44.

The first heat storage medium pump 46 considers that the heat exchange performance of the first heat exchanger 8 is high when the refrigerant flows between the refrigerant and the heat storage medium so that the refrigerant flows into the refrigerant flow path 30 of the first heat exchanger 8. It is preferable to flow the heat storage medium when it flows.

That is, the first heat storage medium pump 46 is preferably operated when the refrigerant flows into the refrigerant passage 30 of the first heat exchanger 8, that is, when the compressor 2 is driven.

The second heat storage medium circulation flow path 48 includes a second heat storage medium supply flow path 49 through which the heat storage medium in the heat storage tank 12 is supplied to the heat storage medium flow path 15 of the second heat exchanger 14, and 2 includes a second heat storage medium recovery flow path 50 for guiding the heat storage medium of the heat storage medium flow path 15 of the heat exchanger 14 to be recovered to the heat storage tank 12, and the cooling / heating force of the heat storage medium is the heat storage tank 12. ), Through a second heat storage medium circulation flow path consisting of a second heat storage medium supply flow path 49, a heat storage medium flow path 15 of the second heat exchanger 14, and a second heat storage medium recovery flow path 50. Is delivered to a second heat exchanger (14).

 In the second heat storage medium pump 52, the heat medium in the heat storage tank 12 includes a second heat storage medium supply flow path 49, a heat storage medium flow path 15 of the second heat exchanger 14, and a second heat storage medium recovery flow path. The heat storage medium is forcedly flowed through the 50 in order to be recovered to the heat storage tank 12, and is installed in at least one of the second heat storage medium supply flow path 49 and the second heat storage medium recovery flow path 50.

The second heat storage medium pump 52 has a high heat exchange performance of the second heat exchanger 14 when the indoor air flows with the heat storage medium so that the second heat storage medium pump 52 receives heat when the indoor air flows to the second heat exchanger 14. Preference is given to flowing the medium.

That is, the second heat storage medium pump 52 is preferably operated when the indoor air flows to the second heat exchanger 14, that is, while the indoor blower 16 is driven.

On the other hand, when the air conditioner according to the present embodiment determines the on / off of the compressor 2 and the first heat storage medium pump 46 according to the room temperature and the temperature of the heat storage tank 14, the temperature of the heat storage medium cools the room. The compressor 2 can be turned on only when it is too high or too low to heat the room, thereby preventing frequent on / off of the compressor 2.

In addition, when the on / off of the second heat storage medium pump 52 is determined according to the room temperature and the desired temperature, the room temperature may allow the room temperature to be maintained between the upper and lower set temperatures of the desired temperature.

The air conditioner according to the present embodiment is installed in the indoor unit (I), the room temperature sensing unit 60 for sensing the room temperature, the heat storage tank temperature sensing unit 62 for sensing the temperature of the heat storage tank 12, the user, etc. The compressor 2 and the first heat storage medium pump according to the detection result of the operation unit 64 capable of operating the air conditioner and inputting the desired temperature and the like, and the room temperature detection unit 60 and the heat storage tank temperature detection unit 62. And a controller 70 for controlling the on / off of the second heat storage medium pump 52 according to the sensing result of the indoor temperature sensing unit 60 and the manipulation of the manipulation unit 64. do.

When the air conditioner is operated in the cooling operation or the heating operation, the controller 70 uses the magnitude of the room temperature detected by the room temperature detection unit 60 and the upper / lower limit set temperatures of the desired temperature input through the operation unit 64. The second heat medium pump 52 is controlled on / off.

The control unit 70 turns on the second heat medium pump 52 such that the room temperature is positioned between the upper and lower limit set temperatures, and turns off the second heat medium pump when the room temperature is out of the upper and lower limit set temperatures. .

When the air conditioner is cooled or heated, the controller 70 compares the difference between the room temperature detected by the room temperature detector 60 and the heat storage tank temperature detected by the heat storage tank temperature detector 62 with a set value. To control the compressor 2 and the first heat medium pump 46 on / off.

If the difference between the room temperature and the heat storage tank temperature is less than the set value, the control unit 70 supplies a cooling / heating force to the heat storage medium of the heat storage tank 12 when the current temperature of the heat storage medium and the temperature of the indoor air are close to each other. 2) and the first heat medium pump 46 are turned on, and if the difference between the room temperature and the heat storage tank temperature is greater than or equal to the set value, the heat storage medium in the current heat storage tank 12 can cool / heat the air in the room for a considerable time. 2) and the first heat medium pump 46 are turned off.

The set value for determining the on / off of the compressor 2 and the first heat medium pump 46 as described above is larger than the difference between the upper and lower set temperatures so as to prevent frequent on / off of the compressor 2. Is set.

Meanwhile, in the air conditioner according to the present embodiment, as shown in FIG. 1, the compressor 2, the outdoor heat exchanger 4, the outdoor blower 6, and the cooling / heating switching valve 18 are connected to the outdoor unit O. The first heat exchanger 8, the first heat storage medium pump 46, the heat storage tank 12, the second heat storage medium pump 52, the second heat exchanger 14, and the indoor blower 16 are provided with an indoor unit ( It is installed in I), the expansion mechanism 11 is installed in at least one of the outdoor unit (O) and the indoor unit (I).

In the air conditioner according to the present embodiment, the refrigerant circulates through the compressor 2, the cooling / heating switching valve 18, the outdoor heat exchanger 4, the expansion mechanism 11, and the first heat exchanger 8. The first heat exchanger 8, the first heat storage medium pump 46, the heat storage tank 12, the second heat storage medium pump 52, and the second heat exchanger 14 are circulated. Both the first heat exchanger 8, the first heat storage medium pump 46, the heat storage tank 12, the second heat storage medium pump 52, and the second heat exchanger 14, which are configured to circulate, together with the indoor unit I When installed, the refrigerant circulates the outdoor unit (O) and the indoor unit (I), and the heat storage medium is composed of a heat storage indoor unit and an outdoor unit circulated only in the indoor unit (I).

When the heat storage indoor unit and the outdoor unit are configured as described above, if one of the indoor unit (not shown) having the indoor heat exchanger and the indoor blower through which the refrigerant passes and the heat storage indoor unit as described above are selectively connected to the outdoor unit O, The manufacturer of the conditioner will be able to use the outdoor unit O in various models.

4 is a schematic cross-sectional view of another embodiment of an air conditioner according to the present invention.

As shown in FIG. 4, the air conditioner according to the present embodiment includes a compressor 2, an outdoor heat exchanger 4, an outdoor blower 6, a first heat exchanger 8, and an outdoor unit O ′. The expansion mechanism 11, the heat storage tank 12, the first heat storage medium pump 46, and the second heat storage medium pump 52 are provided, and the second heat exchanger 14 and the indoor blower 14 are installed in the indoor unit I '. 16) is installed.

As described above, the first heat exchanger 8, the first heat storage medium pump 46, the heat storage tank 12, and the second heat storage medium pump 52 are configured to circulate as the heat storage medium. O '), and when the second heat exchanger 14 and the indoor blower 16 are installed in the indoor unit I', the refrigerant is circulated only in the outdoor unit O, and the heat storage medium is the outdoor unit O '. And the indoor unit I 'is circulated, in which case the indoor unit I' can be made compact.

1 is a schematic cross-sectional view of an embodiment of an air conditioner according to the present invention;

2 is a block diagram of the air conditioner according to the embodiment of the present invention for cooling,

3 is a configuration diagram when heating the air conditioner according to an embodiment of the present invention;

4 is a schematic cross-sectional view of another embodiment of an air conditioner according to the present invention.

 <Explanation of symbols on main parts of the drawings>

  2: compressor 4: outdoor heat exchanger

6: outdoor blower 8: first heat exchanger

9: refrigerant path 10: heat medium path

11: expansion mechanism 12: heat storage tank

14: second heat exchanger 15: heat medium flow path

16: outdoor blower 18: cooling / heating switching valve

21: Outdoor case 22: Outdoor air intake

23: outdoor air outlet 24: indoor case

25: indoor air inlet 26: indoor air outlet

42: first heat storage medium circulation passage 46: first heat storage medium pump

48: second heat storage medium circulation passage 52: second heat storage medium pump

60: room temperature detection unit 62: heat storage tank temperature detection unit

64: control panel 70: control unit

I: Indoor unit O: Outdoor unit

Claims (7)

 A compressor for compressing the refrigerant; An outdoor heat exchanger through which the refrigerant heat exchanges with the outdoor air; An outdoor blower for flowing outdoor air to the outdoor heat exchanger; A first heat exchanger configured to exchange heat between the refrigerant and the heat storage medium;  An expansion mechanism provided between the outdoor heat exchanger and the first heat exchanger; A heat storage tank containing the heat storage medium heat exchanged in the first heat exchanger; A second heat exchanger in which the heat storage medium of the heat storage tank exchanges heat with indoor air; An air conditioner including an indoor blower for flowing indoor air to the second heat exchanger. The method of claim 1, The compressor, the outdoor heat exchanger and the outdoor blower are installed in the outdoor unit, The first heat exchanger, the heat storage tank, the second heat exchanger, and the indoor blower are installed in an indoor unit, The expansion mechanism is an air conditioner installed in at least one of the outdoor unit and the indoor unit. The method of claim 1, The compressor, the outdoor heat exchanger, the outdoor blower, the first heat exchanger, the expansion mechanism, and the heat storage tank are installed in the outdoor unit, The second heat exchanger and the indoor blower are air conditioners installed in an indoor unit. The method of claim 2 or 3, The air conditioner includes: a first heat storage medium circulation passage connected to the heat storage medium to circulate the first heat exchanger and the heat storage tank; A first heat storage medium pump installed in the first heat storage medium circulation passage; A second heat storage medium circulation passage connected to the heat storage medium to circulate the heat storage tank and the second heat exchanger; And a second heat storage medium pump installed in the second heat storage medium circulation passage. The method of claim 4, wherein The first heat exchanger is an air conditioner having a refrigerant passage through which the refrigerant passes, and a heat storage medium passage through which the heat storage medium passes. The method of claim 5, wherein The second heat exchanger is an air conditioner in which a heat storage medium flow path through which the heat storage medium passes. The method of claim 4, wherein An indoor temperature detector installed at the indoor unit to detect an indoor temperature; A heat storage tank temperature sensing unit for sensing a temperature of the heat storage tank; An operation unit for operating the air conditioner; On / off control of the compressor and the first heat storage medium pump according to the detection result of the room temperature detection unit and the heat storage tank temperature detection unit, the on-off of the second heat storage medium pump according to the detection result of the room temperature detection unit and the operation of the operation unit. Air conditioner further comprises a control unit for controlling the on / off.

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