JP3719118B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner capable of adjusting humidity of indoor air by transporting humidified air to the indoor unit side by a humidifying unit provided in the outdoor unit.
[0002]
[Prior art]
In the separate type air conditioner, an outdoor heat exchanger arranged in the outdoor unit and an indoor heat exchanger arranged in the indoor unit are connected by a refrigerant pipe, and each heat exchanger is a refrigerant condenser and an evaporator. The cooling operation or the heating operation is performed by controlling so as to act as
[0003]
An outdoor fan for generating an air flow is disposed in the outdoor unit, and outside air is introduced by the outdoor fan, and heat is exchanged between the refrigerant passing through the inside of the outdoor heat exchanger and the air.
Similarly, the indoor unit is also provided with an indoor fan that generates an air flow inside the indoor unit casing. The indoor fan sucks the indoor air between the refrigerant and the air passing through the interior of the indoor heat exchanger. Perform heat exchange at.
[0004]
In general, in the heating operation of an air conditioner, only the room temperature rises without supplying moisture, so that the indoor relative humidity may be significantly reduced. For this reason, providing a humidification unit in an air conditioner and supplying humidified air indoors is proposed. The humidification unit, for example, forms a disk-shaped rotor with a porous moisture-absorbing material such as zeolite that adsorbs moisture in the air and releases the adsorbed moisture by heating, and rotatably supports this. To do. In order to adsorb moisture in the air to the rotor, outside air is introduced to generate a flow of air passing through a part of the rotor, and humidified air containing moisture separated from the rotor is conveyed to the indoor unit side And a humidifying fan for generating an air flow for the purpose. The air flow generated by the moisture absorption fan and the air flow generated by the humidification fan are configured to pass through the rotor at different positions in the rotation direction of the rotor. Is placed.
[0005]
Moisture contained in the air flow by the moisture absorbing fan is adsorbed by the moisture absorbing material of the rotor. The rotor is rotationally driven by a motor, and the adsorbed moisture is released at the heating position by the heater, and moisture can be given to the air flow by the humidifying fan.
[0006]
[Problems to be solved by the invention]
The humidification unit as described above is installed over the outdoor unit or in the vicinity of the outdoor unit, adsorbs moisture in the air taken in from the outdoor by a moisture absorption fan to the rotor, and separates the adsorbed water again. Then, it is transported to the indoor unit side as humidified air.
On the indoor unit side, an indoor fan is driven to suck in indoor air and exchange heat with the indoor heat exchanger, and then generate an air flow for blowing air into the room. A humidified air outlet for humidified air supplied from the humidifying unit is usually provided in the vicinity of the air outlet into the room by the indoor fan.
[0007]
In this case, the humidification amount is determined by the humidification fan provided in the humidification unit, and even when a small amount of humidification is desired, it is necessary to operate the humidification fan, which increases power consumption and noise. The problem of occurring is also included.
An object of the present invention is to save energy during operation and reduce noise in an air conditioner including a humidifying unit.
[0008]
[Means for Solving the Problems]
An air conditioner according to the present invention includes an outdoor refrigerant circuit including a compressor and an outdoor heat exchanger, and an outdoor fan that generates an air flow that performs heat exchange between the refrigerant passing through the interior of the outdoor heat exchanger. An outdoor air conditioning unit, an indoor heat exchanger connected to an outdoor refrigerant circuit via a refrigerant pipe, and an indoor fan that generates an air flow for exchanging heat between the refrigerant passing through the interior of the indoor heat exchanger; An indoor air-conditioning unit, and a humidifying unit that takes in outdoor air to generate humidified air and supplies the humidified air to the indoor air-conditioning unit, and the humidified air outlet of the humidified air supplied from the humidifying unit is It arrange | positions at the negative pressure part formed with an indoor fan.
[0009]
In this case, since the humidified air outlet in the indoor air conditioning unit of the humidified air supplied from the humidifying unit is arranged at the negative pressure part formed by the indoor fan, the humidified air can be reliably supplied indoors, Even when the fan on the side is stopped, it is possible to supply humidified air, reduce power consumption, and reduce noise generation as much as possible.
[0010]
Here, the humidified air outlet can be configured to be disposed in the air flow between the indoor fan and the indoor heat exchanger.
In this case, since the humidified air supplied from the humidifying unit is sent directly to the negative pressure region by the indoor fan, the humidification amount can be adjusted in detail, and the humidification amount can be finely adjusted according to the indoor humidity. In addition, the indoor air conditioning unit includes an air filter between an air inlet for introducing indoor air and the indoor heat exchanger, and the humidified air outlet is disposed between the indoor heat exchanger and the air filter. It can be configured.
[0011]
In this case, the air that has been sucked in from the air inlet and passed through the air filter is mixed with the humidified air supplied from the humidifying unit and blown into the room, and the moisture contained in the humidified air is transferred to the air filter. No adhesion occurs, and the variation in the humidification amount caused by the adhesion to the air filter can be eliminated.
Further, the indoor air conditioning unit includes an air filter between the air inlet for introducing the room air and the indoor heat exchanger, and the humidified air outlet is disposed between the air inlet and the air filter. It can be.
[0012]
In this case, even if dust or the like is contained in the humidified air supplied from the humidification unit, it is removed by the air filter, so that impurities can be prevented from entering the room.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
[Appearance of air conditioner]
FIG. 1 shows the appearance of an air conditioner in which one embodiment of the present invention is employed.
The air conditioner 1 includes an indoor unit 2 attached to an indoor wall surface and the like, and an outdoor unit 3 installed outside the room. The outdoor unit 3 includes an outdoor air conditioning unit 5 that stores an outdoor heat exchanger, an outdoor fan, and the like, and a humidification unit 4 that conveys humidified air to the indoor unit 2.
An indoor heat exchanger is housed in the indoor unit 2, and an outdoor heat exchanger is housed in the outdoor unit 3, and each heat exchanger is connected by a refrigerant pipe 6 to form a refrigerant circuit. Yes. Moreover, between the humidification unit 4 and the indoor unit 2, the humidified air piping 7 for supplying the humid air from the humidification unit 4 to the indoor unit 2 side is provided.
[0014]
[Schematic configuration of refrigerant circuit]
An example of the refrigerant circuit used in the air conditioner 1 is shown in FIG.
[0015]
An indoor heat exchanger 11 is provided in the indoor unit 2. The indoor heat exchanger 11 includes a heat transfer tube that is bent back and forth at both ends in the length direction and a plurality of fins through which the heat transfer tube is inserted, and performs heat exchange between the air that contacts the heat transfer tube.
The indoor unit 2 is provided with a cross flow fan 12 for sucking indoor air and exchanging air after exchanging heat with the indoor heat exchanger 11. The cross flow fan 12 is configured in a cylindrical shape, and is provided with blades in the direction of the rotation axis on the peripheral surface, and generates an air flow in a direction intersecting with the rotation axis. The cross flow fan 12 is rotationally driven by a fan motor 13 provided in the indoor unit 2.
[0016]
The outdoor air conditioning unit 5 is connected to a compressor 21, a four-way switching valve 22 connected to the discharge side of the compressor 21, an accumulator 23 connected to the suction side of the compressor 21, and a four-way switching valve 22. The outdoor heat exchanger 24 and the decompressor 25 which is an electric expansion valve connected to the outdoor heat exchanger 24 are provided. The decompressor 25 is connected to the local piping 31 via the filter 26 and the liquid closing valve 27, and is connected to one end of the indoor heat exchanger 11 via the local piping 31. The four-way switching valve 22 is connected to the local pipe 32 via the gas closing valve 28, and is connected to the other end of the indoor heat exchanger 11 via the local pipe 32. The on-site pipes 31 and 32 correspond to the refrigerant pipe 6 in FIG.
[0017]
In the outdoor air conditioning unit 5, a propeller fan 29 for discharging the air after heat exchange in the outdoor heat exchanger 24 to the outside is provided. The propeller fan 29 is rotationally driven by a fan motor 30.
[Humidification unit]
The structure of the humidification unit 4 is demonstrated based on the exploded perspective view of FIG.
[0018]
The humidifying unit 4 includes a humidifying unit casing 48 positioned at the upper part of the outdoor unit 3. A humidification rotor 58 is disposed in the humidification unit casing 48. As described above, the humidifying rotor 58 is a disk-shaped porous zeolite or the like having a property of adsorbing moisture in the contacting air and releasing the adsorbed moisture when heated. A support shaft 59 provided on the casing 48 side is rotatably supported via a rotor guide 60. A gear is formed on the peripheral surface of the humidifying rotor 58 and meshes with the rotor drive gear 62 attached to the drive shaft of the rotor drive motor 61.
[0019]
A heater assembly 64 is disposed so as to cover approximately half of the upper surface of the humidification rotor 58. The heater assembly 64 includes a heater body 66, an upper cover 65 that covers the heater body 66, a suction port 67 for sucking air, and a lower cover that discharges air heated by the heater body 66. 69 and is attached above the humidifying rotor 58 via the heater fixing plate 63.
[0020]
A humidifying fan 70 is disposed at a position below the humidifying rotor 58 and corresponding to the heater assembly 64. The humidifying fan 70 is a centrifugal fan disposed in a casing connected to the humidifying side communication duct 72, and is provided integrally with the humidifying fan suction port 71 attached below the humidifying rotor 58. The humidification fan 70 exhausts the air that has passed through the humidification rotor 58 to the humidification side communication duct 72 side, and sends the humidified air to the indoor unit 2 side via the humidification hose 73 and the humidification air pipe 7.
[0021]
An adsorption side communication duct 74 is provided so as to cover a portion of the upper surface of the humidifying rotor 58 where the heater assembly 64 is not located. The suction side communication duct 74 forms an air flow path that passes from the lower portion of the humidification rotor 58 through the humidification rotor 58 to the suction fan storage portion 75 adjacent to the storage portion of the humidification rotor 58.
Above the suction fan housing portion 75, a suction side bell mouth 84 having an opening 85 connected to the air flow path formed by the suction side communication duct 74 is provided. A suction fan 81 is rotatably housed in the suction fan storage portion 75. The suction fan 81 is a centrifugal fan configured to suck air from the suction side bell mouth 84 disposed in the upper portion and exhaust the air toward the rear of the suction fan storage portion 75.
[0022]
The suction fan 81 is rotationally driven by a suction fan motor 83. The suction fan motor 83 is fixed in the humidification unit casing 48 by a motor fixing base 82.
In the humidification unit 4 configured as described above, the suction fan 81 is rotationally driven to take in air from the outside, pass through a part of the humidification rotor 58, and outward via the suction side communication duct and the suction fan 81. Generates an exhausted air stream. When the air taken in from the outside passes through the humidification rotor 58, the humidification rotor 58 adsorbs moisture contained in the air.
[0023]
Further, by rotating the humidifying fan 70, air is taken in from the outside, passes through the humidifying rotor 58 from the lower side to the upper side, is introduced from the suction port 67 of the lower cover 69 into the upper cover 65, and is discharged. Then, the air flow passes through the humidification rotor 58 again from the upper side to the lower side, and the air flow exhausted to the humidification side communication duct 72 side through the humidification fan 70 is generated. At this time, the air flow introduced from the outside contacts the heater body 66 located in the upper cover 65 of the heater assembly 64 and is heated. Therefore, the moisture adsorbed by the humidification rotor 58 can be released by the air flow generated by the humidification fan 70 and supplied to the indoor unit 2 as humidified air.
[0024]
[Indoor air conditioning unit]
An exploded perspective view of the indoor unit 2 is shown in FIG.
In FIG. 4, the indoor unit 2 includes a front grill assembly 101 and a front panel 102 attached to the front of the front grill assembly 101. The front grille assembly 101 includes an upper suction port 103 that forms a number of slit-like openings on the upper surface thereof. Further, the front panel 102 is formed with a front suction port 104 that opens upward and laterally.
[0025]
An air purifying air filter 105 is inserted inside the upper suction port 103 of the front grill assembly 101 and the front suction port 104 of the front panel 102.
The front grille assembly 101 is attached to the bottom frame assembly 106 located at the rear, and constitutes a casing in which internal components are housed. The casing constituted by the front grill assembly 102 and the bottom frame assembly 106 is locked to a mounting plate 107 fixed to the wall surface of the room and attached to the room.
[0026]
The bottom frame assembly 106 is provided with a fan housing portion 109 that houses the cross flow fan 12. A cross flow fan 12 is rotatably attached to the fan housing portion 109 via a bearing member 110, and an indoor fan motor 13 is provided on a side surface facing the bearing member 110. A side plate 111 is attached to the outside of the indoor fan motor 13.
[0027]
The indoor heat exchanger 11 is attached so as to surround the front, upper and rear upper portions of the cross flow fan 12. The indoor heat exchanger 11 has a large number of radiating fins attached to a heat transfer tube bent back and forth at both left and right ends, and is sucked from the upper suction port 103 and the front suction port 104 by driving the cross flow fan 12. The air thus passed is passed to the cross flow fan 12 side to exchange heat with the refrigerant passing through the heat transfer tube. The indoor heat exchanger 11 is connected to a refrigerant pipe from the outdoor unit 3 through a refrigerant pipe 108 extending from the outdoor heat exchanger 11.
[0028]
Below the indoor heat exchanger 11, a drain pan 112 for receiving condensed water generated during heat exchange is provided. A drain hose 113 for discharging the received condensed water to the outside is attached to the drain pan 112. During the cooling operation, the indoor heat exchanger 11 acts as an evaporator, so that moisture contained in the air in contact with the indoor heat exchanger 11 is condensed and dripped. Such condensed water is received by a drain pan 112 and drained by a drain hose 113.
[0029]
An electrical component box 114 that houses a printed circuit board on which a control circuit and the like are mounted, and an electrical component lid 115 that covers the front surface of the electrical component box 114 are provided at the lower front of the front grill assembly 101. Further, an air outlet for the air flow generated by the cross flow fan 12 is provided below the electrical component box 114. At the outlet, horizontal blades 116 and 116 and a plurality of vertical blades 117 and 117 connected by a vertical blade connecting rod 118 are swingably provided. The horizontal blades 116 and 116 are rotationally driven by a horizontal blade operation motor 119, and the vertical blades 117 and 117 are rotationally driven by a vertical blade operation motor 120.
[0030]
A duct assembly 121 is attached to one side surface of the bottom frame assembly 106. The duct assembly 121 includes a humidifying hose connection part 122 positioned below, a flow path forming part 123 positioned in the middle, and a humidified air outlet 124 positioned above. A humidifying air pipe 7 (see FIG. 1) is connected to the humidifying hose connecting portion 122 of the duct assembly 121 to introduce humidified air supplied from the humidifying unit 4. The flow path forming part 123 located in the intermediate part constitutes a hollow part for allowing the humidified air to pass through, conveys the humidified air introduced from the humidified hose connecting part 122 in the distal direction, and supplies the humidified air outlet 124. To the air flow generated by the cross flow fan 12.
[0031]
[Humidified air outlet]
The humidified air outlet 124 is preferably arranged on the negative pressure side of the cross flow fan 12, and its mounting position will be described with reference to FIG.
(A) It is conceivable to arrange the humidified air outlet 124 at the first attachment position 131 upstream of the air filter 105.
[0032]
In this case, the humidified air outlet 124 is disposed between the upper suction port 103 of the front grill assembly 101 and the front suction port 104 of the front panel 102 and the air filter 105.
Therefore, the humidified air from the humidification unit 4 can be mixed in the air sucked from the upper suction port 103 and the front suction port 104 and supplied to the room.
[0033]
During the operation of the air conditioning unit, air in which humidified air is mixed with the air sucked from the upper suction port 103 and the front suction port 104 comes into contact with the indoor heat exchanger 11 to perform heat exchange. Then, since the humidification operation is often performed at the time of drying in the winter, and the heating operation is usually performed, it is considered that the moisture in the air is hardly condensed by the heat exchange with the indoor heat exchanger 11.
[0034]
Further, even if dust or the like is contained in the humidified air supplied from the humidifying unit 4, it is removed by the air filter 105, so that impurities can be prevented from entering the room.
(B) It is conceivable to arrange the humidified air outlet 124 at the second attachment position 132 located between the air filter 105 and the indoor exchanger 11.
[0035]
In this case, the humidified air supplied from the humidifying unit 4 is mixed with the air that has been sucked in from the upper suction port 103 of the front grille assembly 101 and the front suction port 104 of the front panel 102 and passed through the air filter 105. It will blow into the room.
Therefore, moisture contained in the humidified air does not adhere to the air filter 105, and variation in the amount of humidification caused by the attachment to the air filter 105 can be eliminated.
(C) It is conceivable to arrange the humidified air outlet 124 at a third attachment position 133 located between the upstream side of the cross flow fan 12 and the indoor heat exchanger 11.
[0036]
In this case, since the humidified air supplied from the humidifying unit 4 is directly sent to the negative pressure region by the cross flow fan 12, the humidification amount can be adjusted in detail, and the humidification amount is finely adjusted according to the indoor humidity. can do.
(D) As described above, by setting the arrangement of the humidified air outlet 124 in the negative pressure region of the crossflow fan 12, the humidified air is reliably mixed in the airflow generated by the crossflow fan 12, The humidity of the room air can be adjusted.
[0037]
Further, since the humidified air from the humidifying unit 4 side can be sucked in by the negative pressure of the cross flow fan 12, when the amount of humidification is small, the humidifying air is kept in a state where the humidifying fan 70 in the humidifying unit 4 is stopped. Obtainable. In this case, the amount of humidification in the room can be controlled by adjusting the air volume by the cross flow fan 12. In addition, power consumption can be reduced by stopping the humidifying fan 70, and sound generated in the outdoor unit 3 can be reduced.
[0038]
FIG. 6 shows the relationship between the air volume by the cross flow fan 12 and the humidification amount in the room. Here, the case where the arrangement | positioning of the humidification air blower outlet 124 is made into the 1st attachment position 131-the 3rd attachment position 133 is each shown as AC.
As can be seen from the figure, the humidification amount increases in the order of the third attachment position 133, the second attachment position 132, and the first attachment position 131. It can also be seen that the humidification amount increases with the airflow of the cross flow fan 12.
[0039]
【The invention's effect】
In the air conditioner according to claim 1 of the present invention, the humidified air outlet of the humidified air supplied from the humidifying unit in the indoor air conditioning unit is disposed in the negative pressure portion formed by the indoor fan. Can be reliably supplied indoors, and even when the fan on the humidifying unit side is stopped, it is possible to supply humidified air, reducing power consumption and generating noise as much as possible.
[0040]
In the air conditioner according to claim 2, since the humidified air supplied from the humidifying unit is directly sent to the negative pressure region by the indoor fan, it is possible to adjust the humidification amount in detail, and humidify according to the indoor humidity. In the air conditioner according to claim 3, the air that has been sucked in from the air introduction port and passed through the air filter is mixed with the humidified air supplied from the humidifying unit and blown into the room. In other words, the moisture contained in the humidified air does not adhere to the air filter, and variations in the amount of humidification caused by the attachment to the air filter can be eliminated.
[0041]
In the air conditioner according to the fourth aspect, even when dust or the like is contained in the humidified air supplied from the humidifying unit, impurities are infiltrated into the room because it is removed by the air filter. Can be prevented.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external configuration of an air conditioner in which one embodiment of the present invention is employed.
FIG. 2 is an explanatory diagram of a refrigerant circuit.
FIG. 3 is an exploded perspective view of a humidifying unit.
FIG. 4 is an exploded perspective view of the indoor unit.
FIG. 5 is a cross-sectional view of the indoor unit.
FIG. 6 is a characteristic diagram showing the relationship between the indoor unit air volume and the humidification amount.
[Explanation of symbols]
3 Outdoor unit 4 Humidification unit 5 Outdoor air conditioning unit 11 Indoor heat exchanger 12 Cross flow fan 105 Air filter 121 Duct assembly 124 Humidified air outlet

Claims (4)

An outdoor fan that generates an air flow for exchanging heat between an outdoor refrigerant circuit including a compressor (21) and an outdoor heat exchanger (24) and a refrigerant passing through the interior of the outdoor heat exchanger (24). 29) an outdoor air conditioning unit (5),
An air flow for exchanging heat between the indoor heat exchanger (11) connected to the outdoor refrigerant circuit via the refrigerant pipe (6) and the refrigerant passing through the interior of the indoor heat exchanger (11). An indoor air conditioning unit (2) having an indoor fan (12) to generate,
A humidifying unit (4) that takes in outdoor air, generates humidified air, and supplies the humidified air to the indoor air conditioning unit (2) side;
And a humidified air outlet (124) of the humidified air supplied from the humidifying unit (4) in the indoor air conditioning unit (2) is formed by a negative pressure part (131, 132) formed by the indoor fan (12). 133), and is capable of performing humidification by sucking the humidified air generated by the humidification unit (4) using only negative pressure.   The air conditioner according to claim 1, wherein the humidified air outlet (124) is disposed in an air flow between the indoor fan (12) and the indoor heat exchanger (11).   The indoor air conditioning unit (2) includes an air filter (105) between an air inlet (103, 104) for introducing indoor air and the indoor heat exchanger (11), and the humidified air outlet ( 124) The air conditioner according to claim 1, wherein 124) is arranged between the indoor heat exchanger (11) and the air filter (105).   The indoor air conditioning unit (2) includes an air filter (105) between an air inlet (103, 104) for introducing indoor air and the indoor heat exchanger (11), and the humidified air outlet ( 124) The air conditioner according to claim 1, wherein 124) is arranged between the air inlet (103, 104) and the air filter (105).

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