JP2004053198A - Outdoor unit of air conditioner, and air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an outdoor machine of an air conditioner improving the accuracy in detecting an outdoor temperature, and to provide the air conditioner. <P>SOLUTION: This outdoor machine 3 of the air conditioner comprises a thermistor, a humidity absorbing rotor, and a humidifying unit blowout port 47b. The thermistor detects a temperature of the outdoor temperature. The humidity absorbing rotor absorbs the moisture in the air. The humidifying unit blowout port 47b blows out the dry air after absorbing the moisture by the humidity absorbing rotor. The humidifying unit blowout port 47b is mounted in such manner that the dry air is not blown to the neighborhood of the thermistor. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an outdoor unit of an air conditioner and an air conditioner.
[0002]
[Prior art]
2. Description of the Related Art Recently, an air conditioner such as an air conditioner having a humidifying unit that takes in moisture from outdoor air and conveys moisture into the room has been provided in the outdoor unit.
As an outdoor unit of such an air conditioner, a moisture absorbing rotor made of zeolite or the like is used as an outdoor unit of an air conditioner disclosed in Japanese Patent Application Laid-Open No. 2002-89903, in which air sent into a room by a blower is used. Some are humidified. The outdoor unit of the air conditioner draws in outdoor air, adsorbs moisture in the air to the moisture absorbing rotor, and exhausts the dried air after the moisture has been adsorbed toward the rear of the outdoor unit. At the same time, this outdoor unit dehumidifies moisture from the moisture absorbing rotor using a heater and adds the desorbed moisture to air sent indoors, thereby humidifying the air sent indoors.
[0003]
[Problems to be solved by the invention]
By the way, some outdoor units of an air conditioner are provided with an outdoor temperature detecting unit for detecting an outdoor temperature for controlling an air conditioning operation or the like. However, in the outdoor unit including the above humidification unit, the outdoor temperature detection unit may not be able to accurately detect the outdoor temperature due to the influence of the temperature of the dry air. For example, the outdoor temperature detection unit is often provided on the back side of the outdoor unit for reasons such as the structure of the outdoor unit. In this case, when the dry air is exhausted toward the rear of the outdoor unit, The air is more likely to flow near the outdoor temperature detector. If the temperature of the dry air is different from the outdoor temperature, the outdoor temperature detector is affected by the temperature of the dry air, making it difficult to accurately detect the outdoor temperature.
[0004]
An object of the present invention is to provide an outdoor unit of an air conditioner and an air conditioner that can improve the accuracy of outdoor temperature detection.
[0005]
[Means for Solving the Problems]
The outdoor unit of the air conditioner according to the first aspect includes an outdoor temperature detection unit, a moisture absorbent, and an outlet. The outdoor temperature detector detects the temperature of outdoor air. The absorbent absorbs moisture in the air. The outlet blows out the dry air after moisture is taken in by the hygroscopic material. The outlet is arranged so that dry air is not blown into the vicinity of the outdoor temperature detecting unit.
In the outdoor unit of the air conditioner, the outlet is arranged so that the dry air after the moisture is taken in by the moisture absorbent is not blown into the vicinity of the outdoor temperature detecting unit. Therefore, in the outdoor unit of the air conditioner, there is little possibility that the dry air is blown into the vicinity of the outdoor temperature detecting unit. For this reason, according to the outdoor unit of the air conditioner, when the temperature of the dry air is different from the outdoor temperature, the influence of the temperature of the dry air on the outdoor temperature detection unit can be reduced. Thereby, in the outdoor unit of the air conditioner, the accuracy of detecting the outdoor temperature can be improved.
[0006]
The outdoor unit of the air conditioner according to claim 2 is the outdoor unit of the air conditioner according to claim 1, and further includes a heat exchanger that exchanges heat with air. The outdoor temperature detector is provided on the upstream side of the air flow of the heat exchanger, and the outlet is provided on the downstream side of the air flow of the heat exchanger.
In an outdoor unit of an air conditioner, an outdoor temperature detection unit is often provided on the upstream side of an air flow of a heat exchanger in order to accurately detect an outdoor temperature. This is because the air temperature is changing due to heat exchange downstream of the heat exchanger's air flow, while air is still passing through the heat exchanger upstream of the heat exchanger's air flow. This is because the temperature of the air has not changed so much.
[0007]
In the outdoor unit of the air conditioner, the outdoor temperature detection unit is provided on the upstream side of the air flow of the heat exchanger, and the outlet is provided on the downstream side of the air flow of the heat exchanger. For this reason, the outdoor temperature detection unit can detect the temperature of the air before the heat exchange and is less affected by the temperature of the dry air blown out from the outlet. Thereby, in the outdoor unit of the air conditioner, the accuracy of the temperature detection by the outdoor temperature detecting unit can be improved.
The outdoor unit of the air conditioner according to claim 3 is the outdoor unit of the air conditioner according to claim 1, wherein the outdoor unit casing includes a front panel positioned in a direction in which air is blown through the heat exchanger. Is further provided. The outlet is provided on the front panel.
[0008]
In the outdoor unit of the air conditioner, an outlet from which dry air is blown is provided on a front panel. Since the front panel is located in the direction in which the air passes through the heat exchanger, the dry air blows in the direction in which the air passes through the heat exchanger. The outlet is arranged such that the dry air after the moisture is taken in by the hygroscopic material is not blown into the vicinity of the outdoor temperature detector. Therefore, in the outdoor unit of the air conditioner, there is little possibility that the dry air blows into the outdoor temperature detecting unit. For this reason, according to the outdoor unit of the air conditioner, when the temperature of the dry air is different from the outdoor temperature, the influence of the temperature of the dry air on the outdoor temperature detection unit can be reduced. Thereby, in the outdoor unit of the air conditioner, the accuracy of the temperature detection of the outdoor temperature detection can be improved.
[0009]
An outdoor unit of an air conditioner according to a fourth aspect is the outdoor unit of the air conditioner according to the first aspect, further comprising a fan, an electrical component unit, and an outdoor unit casing. The fan is for taking in and blowing out outdoor air. The electrical component unit is connected to the outdoor temperature detector and controls an air-conditioning operation. The outdoor unit casing includes two side panels that are substantially parallel to a direction in which air is blown by the fan. The outlet is provided on a side panel farther from the electrical component unit. The outdoor temperature detector is connected to the electrical component unit to transmit the detected temperature information to the electrical component unit that controls the air conditioning operation. In this case, the outdoor temperature detector is often provided near the electrical component unit in order to make the wiring connecting the electrical component unit and the outdoor temperature detector as short as possible.
[0010]
In the outdoor unit of the air conditioner, the outlet is provided on a side panel farther from the electrical component unit. For this reason, in the outdoor unit of the air conditioner, there is little possibility that the dry air flows near the outdoor temperature detecting unit provided near the electrical component unit. Thereby, in the outdoor unit of the air conditioner, when the outdoor temperature detecting section is provided near the electrical component unit, the accuracy of the temperature detection of the outdoor temperature detecting section can be improved.
An outdoor unit of an air conditioner according to a fifth aspect is the outdoor unit of the air conditioner according to any one of the first to fourth aspects, further comprising a heater for discharging moisture taken in by the hygroscopic material. Prepare.
[0011]
In this air conditioner, the temperature of the dry air is higher than the temperature of the outdoor air due to the influence of the heat of the heater, but the outlet is arranged so that the dry air is not blown into the vicinity of the outdoor temperature detection unit. It is possible to reduce the risk that the outdoor temperature detection unit detects a temperature higher than the actual outdoor temperature under the influence of the temperature of the dry air. Thus, according to the outdoor unit of the air conditioner, it is possible to improve the accuracy of the temperature detection of the outdoor temperature detection unit.
An air conditioner according to a sixth aspect includes the outdoor unit according to any one of the first to fifth aspects.
[0012]
In this air conditioner, the outlet is arranged in the outdoor unit so that the dry air after the moisture is taken in by the hygroscopic material is not blown into the vicinity of the outdoor temperature detecting unit. Therefore, there is little possibility that the dry air blows into the outdoor temperature detecting unit. For this reason, according to this air conditioner, when the temperature of the dry air is different from the outdoor temperature, the influence of the temperature of the dry air on the outdoor temperature detection unit can be reduced. Thereby, in this air conditioner, the accuracy of the temperature detection of the outdoor temperature detection unit can be improved.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
<Schematic configuration of air conditioner>
FIG. 1 shows the appearance of an air conditioner according to an embodiment of the present invention.
The air conditioner 1 includes an indoor unit 2 attached to an indoor wall or the like, and an outdoor unit 3 installed outdoors. The outdoor unit 3 includes an outdoor air-conditioning unit 5 and a humidifying unit 4 that house an outdoor heat exchanger, an outdoor fan, and the like. An indoor heat exchanger is housed in the indoor unit 2, and an outdoor heat exchanger is housed in the outdoor unit 3. Each heat exchanger and the refrigerant pipe 6 connecting these heat exchangers constitute a refrigerant circuit. Further, between the humidifying unit 4 and the indoor unit 2, an air supply pipe 7 used when supplying dehumidified air or humidified air from the humidifying unit 4 to the indoor unit 2 is provided.
[0014]
<Configuration of refrigerant circuit>
FIG. 2 is a diagram in which the outline of the flow of air is added to the system diagram of the refrigerant circuit used in the air conditioner 1.
The indoor unit 2 is provided with an indoor heat exchanger 11. The indoor heat exchanger 11 is composed of a heat transfer tube that is bent a plurality of times 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 and the contacting air.
In the indoor unit 2, a cross flow fan 12 and an indoor fan motor 13 for driving the cross flow fan 12 to rotate are provided. The cross flow fan 12 is formed in a cylindrical shape, and has a large number of blades provided on a peripheral surface thereof, and generates an air flow in a direction intersecting with a rotation axis. The cross-flow fan 12 draws indoor air into the indoor unit 2 and blows air after performing heat exchange with the indoor heat exchanger 11 into the room.
[0015]
The outdoor air conditioning unit 5 includes 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 connection to the four-way switching valve 22. And a motor-operated valve 25 connected to the outdoor heat exchanger 24. The motor-operated valve 25 is connected to a pipe 32 via a filter 26 and a liquid shutoff valve 27, and is connected to one end of the indoor heat exchanger 11 via the pipe 32. Further, the four-way switching valve 22 is connected to a pipe 31 via a gas closing valve 28, and is connected to the other end of the indoor heat exchanger 11 via the pipe 31. These pipes 31 and 32 correspond to the refrigerant pipe 6 in FIG.
[0016]
Further, a propeller fan 29 for discharging the air after the heat exchange in the outdoor heat exchanger 24 to the outside is provided in the outdoor air conditioning unit 5. The propeller fan 29 is driven to rotate by an outdoor fan motor 30.
<Configuration of outdoor unit>
As shown in FIG. 3, the outdoor unit 3 is configured integrally with a lower outdoor air conditioning unit 5 and an upper humidification unit 4, and includes an outdoor unit casing 40. The outdoor unit casing 40 includes a bottom plate 41, a front panel 42, side panels 43 and 44, a top plate 45, and a protective wire mesh 46. The outdoor unit casing 40 is divided into a lower outdoor air conditioning unit casing 40a and an upper humidifying unit casing 40b.
[0017]
The bottom plate 41 is a plate-shaped member that covers the bottom of the outdoor unit 3 (see FIG. 4).
The front panel 42 is a member that covers the front surface of the outdoor unit 3, and includes a front portion of a humidifying unit casing 40b described later and a front plate 42a of the outdoor air conditioning unit casing 40a (see FIG. 3). The front plate 42a is a member that covers the front surface of the outdoor air-conditioning unit 5, and is disposed downstream of the air that has passed through the heat exchanger 24 with respect to a heat exchanger 24 described later. The front plate 42a is provided with an outdoor air-conditioning unit outlet 47a composed of a plurality of slit-shaped openings, and the air that has passed through the heat exchanger 24 is discharged from inside the outdoor air-conditioning unit 5 to the outdoor air-conditioning unit outlet 47a. And blow out to the outside.
[0018]
The side panels 43 and 44 are members that cover the side surfaces of the outdoor unit 3, and include a right side panel 43 and a left side panel 44. Each of the side panels 43 and 44 is provided substantially in parallel to the direction in which the air blows from the outdoor air-conditioning unit outlet 47a through the heat exchanger 24. The right side panel 43 includes a right side plate 43a and a right side surface portion of the humidifying unit casing 40b. The left side panel 44 includes a left side plate 44a (see FIG. 4) and a left side portion of the humidifying unit casing 40b. The right side plate 43a and the left side plate 44a are plate-like members that cover the side of the outdoor air conditioning unit 5, and in a front view, the right side plate 43a is provided on the right side and the left side plate 44a is provided on the left side. A closing valve cover 52 for protecting the liquid closing valve 27 and the gas closing valve 28 is attached to the right side plate 43a.
[0019]
The top plate 45 is a plate-shaped member that covers the upper part of the outdoor unit 3.
The protection wire mesh 46 covers the back surface of the outdoor air-conditioning unit 5 and is arranged behind the heat exchanger 24 (see FIG. 4).
The humidifying unit casing 40b covers the front, rear, and both sides of the humidifying unit 4 and is disposed above the outdoor air conditioning unit 5. A humidifying unit outlet 47b composed of a plurality of slit-shaped openings is provided on the front surface of the humidifying unit casing 40b, and dry air described later blows out of the outdoor unit 3 through the humidifying unit outlet 47b. .
[0020]
As described above, the front panel 42 composed of the front plate 42a and the front part of the humidifying unit casing 40b is provided with the humidifying unit outlet 47b at the upper part and the outdoor air conditioning unit outlet 47a at the lower part.
[Configuration related to outdoor air conditioning unit]
Next, the internal configuration of the outdoor air conditioning unit 5 will be described with reference to an exploded perspective view shown in FIG.
A fan outlet 48 and a partition plate 49 are mounted behind the front plate 42a. The outdoor heat exchanger 24, which is substantially L-shaped in plan view, is attached to the front surface of the protective wire mesh 46.
[0021]
On the front surface of the outdoor heat exchanger 24, a fan motor base 50 for fixing the outdoor fan motor 30 is attached. The outdoor fan motor 30 is provided for rotating the propeller fan 29. The propeller fan 29 plays a role of bringing the introduced air into contact with the outdoor heat exchanger 24 and exhausting the air from the outdoor air conditioning unit outlet 47a to the front of the front plate 42a (see white arrows A1 and A2 in FIG. 5).
Between the partition plate 49 and the right side plate 43a, refrigerant circuit components such as the accumulator 23, the compressor 21, the four-way switching valve 22, the electric valve 25, the liquid shutoff valve 27, and the gas shutoff valve 28, and the temperature of the outdoor air And a plurality of temperature detection sensors including a thermistor 51 for detecting the temperature.
[0022]
An electrical component unit 53 is mounted above the propeller fan 29. The electrical component unit 53 includes an electrical component box 53a and a printed circuit board 54 on which circuit components for controlling each component are mounted. Radiation fins 55 for radiating heat generated by predetermined circuit components are attached to the printed circuit board 54. Further, a thermistor 51 is connected to the printed board 54 via a harness, and information on the outdoor temperature detected by the thermistor 51 is sent to circuit components of the printed board 54.
[0023]
FIG. 5 shows the arrangement of the accumulator 23, the compressor 21, the heat exchanger 24, the electrical component unit 53, and the thermistor 51. Here, FIG. 5 is a top view of the inside of the outdoor air-conditioning unit 5 as viewed from above the outdoor unit 3.
The heat exchanger 24 is disposed in front of and adjacent to the protective wire mesh 46 located on the rear surface of the outdoor unit casing 40. The compressor 21 is arranged between the heat exchanger 24 and the front plate 42a. The accumulator 23 is located on the back side of the outdoor unit casing 40 with respect to the compressor 21, and is arranged in front of the heat exchanger 24. The electrical component unit 53 is provided between the heat exchanger 24 and the front plate 42a in the front-rear direction, and between the vicinity of the center of the outdoor unit casing 40 and the right plate 43a in the left-right direction. The thermistor 51 is provided between the heat exchanger 24 and the protective wire mesh 46, and is provided adjacent to the heat exchanger 24 on the upstream side of the air passing through the heat exchanger 24. Therefore, the thermistor 51 can detect the temperature of the air before passing through the heat exchanger 24. The thermistor 51 is provided on the right side plate 43a side of the center of the outdoor unit casing 40 in the left-right direction so as to be closer to the electrical component unit 53. Therefore, the distance between the thermistor 51 and the printed circuit board 54 in the electrical component unit 53 is shortened, and the harness connecting the thermistor 51 and the printed circuit board 54 can be shortened. In addition, the outline arrow A1 in the figure represents the flow of air sucked into the outdoor unit 3 from behind the outdoor unit 3, and the outline arrow A2 blows out from inside the outdoor unit 3 to the front of the indoor unit 3. Represents the flow of air.
[0024]
[Configuration related to humidification unit]
Next, the internal configuration of the humidifying unit 4 will be described with reference to FIG.
The humidification unit 4 includes a humidification unit casing 40b located above the outdoor unit 3. In the humidification unit casing 40b, the right side is a space for housing the moisture absorption rotor 58 and the like, and the left side is a suction fan storage space 75 for housing the suction fan 81 and the like. In the humidification unit casing 40b, a moisture absorption rotor 58, a heater assembly 64, a humidification fan 70, a cover member 74, a suction fan 81 and the like are arranged.
[0025]
The moisture absorption rotor 58 is a ceramic rotor having a honeycomb structure having a substantially disk shape, and has a structure through which air can easily pass. Specifically, as shown in FIG. 4, the rotor has a circular shape in a plan view, and has a fine honeycomb (honeycomb) shape in a cross section cut along a horizontal plane. Then, air passes through a large number of cylindrical portions of the moisture absorbing rotor 58 having a polygonal cross section.
The main part of the moisture absorption rotor 58 is fired from an adsorbent such as zeolite, silica gel, or alumina. This adsorbent such as zeolite has the property of adsorbing moisture in the air that comes into contact with it and desorbing the adsorbed moisture when heated.
[0026]
The moisture absorption rotor 58 is rotatably supported via a rotor guide 60 on a support shaft 59 provided on the humidification unit casing 40b side. A gear is formed on the peripheral surface of the moisture absorption rotor 58 and meshes with a rotor drive gear 62 attached to a drive shaft of the rotor drive motor 61.
The heater assembly 64 is disposed so as to cover substantially half (the right half) of the upper surface of the moisture absorption rotor 58. The heater assembly 64 includes a heater body 66, an upper cover 65 that covers the heater body 66, and a lower cover 69. The lower cover 69 has a suction port 67 for sucking in air and a discharge port 68 for discharging the air heated by the heater body 66 to the moisture absorbing rotor 58 side. The heater assembly 64 is mounted above the moisture absorbing rotor 58 via a heater fixing plate 63.
[0027]
The humidifying fan 70 is disposed below the moisture absorbing rotor 58 at a position corresponding to the heater assembly 64. The humidifying fan 70 is a centrifugal fan arranged in a space connected to the humidifying hose 73 (space below the outlet 68 of the lower cover 69 of the heater assembly 64). The humidifying fan 70 passes through the moisture absorbing rotor 58 and descends from the near-side portion (the portion located below the outlet 68 of the lower cover 69 of the heater assembly 64) in the approximately half portion on the right side of the moisture absorbing rotor 58. The incoming air is sent out to the humidification hose 73. The humidification hose 73 supplies the air sent from the humidification fan 70 to the indoor unit 2.
[0028]
The cover member 74 covers a portion of the upper surface of the moisture absorbing rotor 58 where the heater assembly 64 is not located (a substantially half portion on the left side). The cover member 74 forms, together with a suction bell mouth 84 described later, an air flow passage communicating from the upper surface of the left half portion of the moisture absorption rotor 58 to an upper portion of the suction fan storage space 75 described below.
The suction fan 81 accommodated in the suction fan storage space 75 is a centrifugal fan that is rotated by a suction fan motor 83, and supplies air through an opening 85 of a suction-side bell mouth 84 disposed at the top. The sensed air is passed through the moisture absorption rotor 58. The suction fan 81 exhausts the dry air, to which moisture has been absorbed when passing through the moisture absorption rotor 58, to the outside of the suction fan storage space 75 (outside the humidification unit casing 40b). The dry air exhausted at this time blows out from the humidifying unit outlet 47b provided on the front surface of the humidifying unit casing 40b to the outside. The suction-side bell mouth 84 is provided above the suction fan storage space 75, and plays a role of guiding the air passing through the air flow path formed by the cover member 74 to the suction fan 81. The suction fan motor 83 is fixed in the humidification unit casing 40b by the motor fixing base 82.
[0029]
Further, a power supply board 79, an electrical component casing, and the like are arranged in the humidifying unit casing 40b. The electrical component casing includes an electrical component box 76 for housing a printed circuit board 78 therein and a lid 77.
[Operation of the humidifying unit 4]
Hereinafter, the operation of the humidification unit 4 when performing the humidification operation will be described.
The humidification unit 4 takes in air from the outside into the humidification unit casing 40b by rotating the suction fan 81. The air that has entered the humidification unit casing 40b passes through a substantially half portion on the left side of the moisture absorption rotor 58, and passes through the air passage formed by the cover member 74 and the suction side bell mouth 84 and the suction fan 81. The air is discharged from the suction fan storage space 75 to the front of the outdoor unit 3 through the humidification unit outlet 47b. When the air taken in from the outside into the humidification unit casing 40b passes through a substantially half portion on the left side of the moisture absorption rotor 58, the moisture absorption rotor 58 adsorbs moisture contained in the air.
[0030]
A substantially half portion on the left side of the moisture absorption rotor 58 that has absorbed moisture in the adsorption step becomes a substantially half portion on the right side of the moisture absorption rotor 58 as the moisture absorption rotor 58 rotates. That is, the adsorbed moisture moves to the portion of the moisture absorbing rotor 58 located below the heater assembly 64 as the moisture absorbing rotor 58 rotates. Then, the water that has moved here is released into the airflow generated by the humidifying fan 70 due to the heat from the heater main body 66 of the heater assembly 64.
When the humidifying fan 70 is driven to rotate, air is taken into the humidifying unit casing 40b from the outside, and the air passes upward from the lower part of the left half of the substantially half part of the humidifying rotor 58 to the lower part. The cover 69 is introduced into the upper cover 65 through an inlet 67. The air that has entered the upper cover 65 is exhausted from the exhaust port 68, passes through the front half of the substantially half portion on the left side of the moisture absorbing rotor 58 from above to below, and reaches the humidifying fan 70. Such an air flow is generated by the humidifying fan 70. The humidifying fan 70 sends out the air passing through the moisture absorbing rotor 58 to the indoor unit 2 via the humidifying hose 73 and the supply / exhaust pipe 7 as described above. The air delivered to the indoor unit 2 contains the moisture adsorbed by the moisture absorption rotor 58.
[0031]
The air supplied from the humidifying unit 4 to the indoor unit 2 in this manner is blown into the room through the indoor heat exchanger 11.
<Features>
(1) Conventionally, in the air conditioner, the thermistor 51 for detecting the outdoor temperature is often provided behind the heat exchanger 24. When the thermistor 51 is disposed in this manner, the thermistor 51 is located on the upstream side of the air passing through the heat exchanger 24 (see the white arrow A1 in FIG. 5), and is subjected to heat exchange to change the temperature. The temperature of the air before it can be detected. Thereby, the thermistor 51 can accurately detect the temperature of the outdoor air. On the other hand, the temperature of the dry air after the moisture has been adsorbed by the moisture absorption rotor 58 may rise due to the influence of the heater body 66. For this reason, when this dry air flows near the thermistor 51, it becomes difficult for the thermistor 51 to accurately detect the outdoor temperature under the influence of the temperature of the dry air. However, in this air conditioner 1, the dry air blows out from the humidifying unit outlet 47b provided on the front surface of the humidifying unit casing 40b. Therefore, the dry air blows out from the inside of the humidifying unit casing 40b to the front of the outdoor unit 3, and hardly flows near the thermistor 51 provided on the rear side of the outdoor unit 3. Therefore, in the air conditioner 1, the thermistor 51 is less affected by the temperature of the dry air, and the accuracy of detecting the outdoor temperature is improved.
[0032]
(2) Conventionally, in the air conditioner, the sound of the compressor 21 may be transmitted to the heat exchanger 24 through the accumulator 23, and the noise on the rear side of the outdoor unit 3 may increase. In this case, when the blowout direction of the dry air is on the back side of the outdoor unit 3, the noise on the flow of the dry air may further increase the noise on the back side. However, in this air conditioner 1, the dry air blows out from the humidifying unit outlet 47b provided on the front surface of the humidifying unit casing 40b. Therefore, according to the air conditioner 1, noise can be prevented from easily flowing to the rear side along with the flow of dry air, and an increase in noise generated from the outdoor unit 3 can be minimized. it can.
[0033]
<Other embodiments>
(1) In the air conditioner 1, the humidification unit outlet 47b is provided on the front surface of the humidification unit casing 40b, but the left side surface of the humidification unit casing 40b, that is, the side surface farther from the thermistor 51 and the accumulator 23. May be provided with a humidification unit outlet 47b on the side panel 44 located at the side of the humidifying unit.
(2) In the air conditioner 1 described above, the humidifying unit outlet 47b is provided in the humidifying unit casing 40b. However, the position where the humidifying unit outlet 47b is provided is not limited to this. It may be provided on the front plate 42a or the left plate 44a. Further, by blowing out the dry air in front of the heat exchanger 24 of the outdoor air-conditioning unit 5, the dry air may be discharged to the outside together with the heat-exchanged air blown out from the outdoor air-conditioning unit outlet 47a of the front plate 42a.
[0034]
【The invention's effect】
In the outdoor unit of the air conditioner according to the first aspect, the outlet is disposed so that the dry air after the moisture is taken in by the moisture absorbent does not blow into the vicinity of the outdoor temperature detecting unit. Therefore, in the outdoor unit of the air conditioner, there is little possibility that the dry air is blown into the vicinity of the outdoor temperature detecting unit. For this reason, according to the outdoor unit of the air conditioner, when the temperature of the dry air is different from the outdoor temperature, the influence of the temperature of the dry air on the outdoor temperature detection unit can be reduced. Thereby, in the outdoor unit of the air conditioner, the accuracy of detecting the outdoor temperature can be improved.
[0035]
In the outdoor unit of the air conditioner according to claim 2, the outdoor temperature detection unit is provided on the upstream side of the air flow of the heat exchanger, and the outlet is provided on the downstream side of the air flow of the heat exchanger. Have been. For this reason, the outdoor temperature detection unit can detect the temperature of the air before the heat exchange and is less affected by the temperature of the dry air blown out from the outlet. Thereby, in the outdoor unit of the air conditioner, the accuracy of the temperature detection by the outdoor temperature detecting unit can be improved.
In the outdoor unit of the air conditioner according to the third aspect, an outlet through which dry air is blown is provided on the front panel. Since the front panel is located in the direction in which the air passes through the heat exchanger, the dry air blows in the direction in which the air passes through the heat exchanger. The outlet is arranged such that the dry air after the moisture is taken in by the hygroscopic material is not blown into the vicinity of the outdoor temperature detector. Therefore, in the outdoor unit of the air conditioner, there is little possibility that the dry air blows into the outdoor temperature detecting unit. For this reason, according to the outdoor unit of the air conditioner, when the temperature of the dry air is different from the outdoor temperature, the influence of the temperature of the dry air on the outdoor temperature detection unit can be reduced. Thereby, in the outdoor unit of the air conditioner, the accuracy of the temperature detection of the outdoor temperature detection can be improved.
[0036]
In the outdoor unit of the air conditioner according to the fourth aspect, the outlet is provided on a side panel farther from the electrical component unit. For this reason, in the outdoor unit of the air conditioner, there is little possibility that the dry air flows near the outdoor temperature detecting unit provided near the electrical component unit. Thereby, in the outdoor unit of the air conditioner, when the outdoor temperature detecting section is provided near the electrical component unit, the accuracy of the temperature detection of the outdoor temperature detecting section can be improved.
In the outdoor unit of the air conditioner according to the fifth aspect, although the temperature of the dry air is higher than the temperature of the outdoor air due to the influence of the heat of the heater, the outlet is blown into the vicinity of the outdoor temperature detection unit. Since it is arranged so as not to be affected, it is possible to reduce the possibility that the outdoor temperature detection unit detects the temperature higher than the actual outdoor temperature under the influence of the temperature of the dry air. Thus, according to the outdoor unit of the air conditioner, it is possible to improve the accuracy of the temperature detection of the outdoor temperature detection unit.
[0037]
In the air conditioner according to the sixth aspect, the outlet is disposed in the outdoor unit so that the dry air after the moisture is taken in by the moisture absorbent is not blown into the vicinity of the outdoor temperature detecting unit. Therefore, there is little possibility that the dry air blows into the outdoor temperature detecting unit. For this reason, according to this air conditioner, when the temperature of the dry air is different from the outdoor temperature, the influence of the temperature of the dry air on the outdoor temperature detection unit can be reduced. Thereby, in this air conditioner, the accuracy of the temperature detection of the outdoor temperature detection unit can be improved.
[Brief description of the drawings]
FIG. 1 is an external view of an air conditioner.
FIG. 2 is an external view of an outdoor unit.
FIG. 3 is a configuration diagram of a refrigerant circuit.
FIG. 4 is an exploded perspective view of the outdoor unit.
FIG. 5 is a diagram showing an arrangement of an accumulator, a compressor, a heat exchanger, an electrical component unit, and a thermistor.
[Explanation of symbols]
1 air conditioner
3 outdoor units
24 heat exchanger
29 Propeller fan (fan)
40 Outdoor unit casing
42 Front Panel
44 Left side panel (side panel)
47b Humidifier unit outlet (outlet)
51 Thermistor (outdoor temperature detector)
53 Electrical component unit
58 Hygroscopic rotor (hygroscopic material)
66 heater body (heater)

Claims (6)

An outdoor temperature detector (51) for detecting the temperature of outdoor air;
A moisture absorbing material (58) that takes in moisture in the air;
An outlet (47b) from which the dry air after the moisture is taken in by the hygroscopic material (58) blows out;
With
The outlet (47b) is arranged so that the dry air is not blown into the vicinity of the outdoor temperature detector (51).
The outdoor unit (3) of the air conditioner (1). A heat exchanger (24) for exchanging heat with air;
The outdoor temperature detector (51) is provided on the upstream side of the air flow of the heat exchanger (24),
The outlet (47b) is provided on the downstream side of the airflow of the heat exchanger (24).
The outdoor unit (3) of the air conditioner (1) according to claim 1. An outdoor unit casing (40) including a front panel (42) positioned in a direction in which air is blown through the heat exchanger (24);
The outlet (47b) is provided in the front panel (42).
The outdoor unit (3) of the air conditioner (1) according to claim 1. A fan (29) for taking in and blowing out outdoor air,
An electrical component unit (53) connected to the outdoor temperature detector (51) and controlling an air-conditioning operation;
An outdoor unit casing (40) including two side panels (43, 44) substantially parallel to a direction (A2) of blowing air by the fan (29);
Further comprising
The outlet (47b) is provided on the side panel (44) remote from the electrical component unit (53).
The outdoor unit (3) of the air conditioner (1) according to claim 1. A heater (66) for releasing moisture taken in by the hygroscopic material (58);
The outdoor unit (3) of the air conditioner (1) according to any one of claims 1 to 4. An air conditioner (1) comprising the outdoor unit (3) according to any one of claims 1 to 5.

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