JP2023104046A - Outdoor unit of air conditioner - Google Patents

Abstract

To provide an outdoor unit of an air conditioner which can inhibit corrosion of heat exchangers.SOLUTION: An outdoor unit of an air conditioner includes: heat exchangers each including header pipes 52, 54 in each of which a flat pipe 62 is connected to a side surface; a fan for blowing out air passing through the flat pipe; and a housing 10 which houses the multiple heat exchangers and the fan. The multiple heat exchangers are disposed arranged along a direction from the windward side to the leeward side of airflow generated by the fan. The header pipe 54 of the heat exchanger disposed at the leeward side is located adjacent to the flat pipe 62 of the heat exchanger disposed at the windward side. A cover member 90 is provided that covers the windward side of the header pipe 54 of the heat exchanger disposed at the leeward side.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to an outdoor unit of an air conditioner.

Patent Literature 1 discloses an outdoor unit that suppresses the occurrence of corrosion due to salt damage to a header collecting pipe in a heat exchanger. The outdoor unit includes a heat exchanger having a header collecting pipe, a housing containing the heat exchanger and having an intake port for taking in air from the outside to the heat exchanger side, an intake port and the header collecting pipe. and a shielding member having a shape that is provided between and blocks the air flow taken in from the intake port from reaching the header collecting pipe.

JP 2013-137126 A

The present disclosure provides an outdoor unit of an air conditioner that can suppress corrosion of heat exchangers.

An outdoor unit of an air conditioner according to the present disclosure includes a heat exchanger having a header pipe to which flat tubes are connected on the side surface, a fan for sending air passing through the flat tubes, a plurality of heat exchangers, and a fan. A housing and a shielding member are provided, and the plurality of heat exchangers are arranged side by side from the windward side to the leeward side of the wind sent out by the fan, and the header pipes of the heat exchangers arranged on the leeward side The shield member is arranged adjacent to the flat tubes of the heat exchanger arranged on the upper side, and the shielding member covers the windward side of the header pipe of the heat exchanger arranged on the leeward side.

According to the present disclosure, the shielding member shields the header pipe of the heat exchanger located on the leeward side of the wind sent to the fan from the wind sent to the fan. Therefore, corrosion of the heat exchanger can be suppressed.

A perspective view of an outdoor unit of an air conditioner according to Embodiment 1 of the present disclosure Plan view schematically showing the internal structure of the outdoor unit The perspective view which looked at the outdoor heat exchanger located on the lee side of the wind sent out by a fan from the lee side. The perspective view which looked at the outdoor heat exchanger located on the lee side of the wind sent out by a fan from the windward side.

(Knowledge, etc. on which this disclosure is based)
At the time when the inventors came up with the present disclosure, there was a technique for suppressing the occurrence of corrosion due to salt damage to header pipes in heat exchangers in outdoor units. This outdoor unit houses a heat exchanger having flat tubes and header pipes, a fan for sending air to the heat exchanger, the heat exchanger and the fan, and an intake port for taking in air from the outside to the heat exchanger side. a housing having a Further, the outdoor unit has a shielding member provided between the intake port and the header pipe and having a shape that blocks the air taken in from the intake port from reaching the header pipe.
Thus, the outdoor unit has a shielding member between the intake port and the header pipe in the housing, which has a shape that blocks the air taken in from the intake port from reaching the header pipe. Therefore, the shielding member blocks the air from the outside of the housing toward the header pipe through the intake port, so that the occurrence of corrosion due to salt damage in the header pipe can be suppressed.

By the way, in the outdoor unit, a plurality of rows of heat exchangers are present along the windward side to the leeward side of the air sent out by the fan, and the header pipe of the heat exchanger located on the leeward side is connected to the heat exchanger on the windward side. Some are adjacent to flattened tubes. In such a case, in the conventional configuration, the header pipes on the leeward side are directly exposed to moisture such as condensed water contained in the air that has passed through the flat tubes on the windward side, and corrosion of the header pipes may progress. The inventors have discovered such a problem and have come to constitute the subject matter of the present disclosure in order to solve the problem.

Hereinafter, embodiments will be described in detail with reference to the drawings. However, more detailed description than necessary may be omitted. For example, detailed descriptions of well-known matters or redundant descriptions of substantially the same configurations may be omitted. This is to avoid the following description from becoming more redundant than necessary and to facilitate understanding by those skilled in the art.
It should be noted that the accompanying drawings and the following description are provided to allow those skilled in the art to fully understand the present disclosure and are not intended to limit the claimed subject matter thereby.

(Embodiment 1)
Embodiment 1 will be described below with reference to FIGS. 1 to 4. FIG. The symbol FR shown in each figure indicates the front of the outdoor unit when it is installed on the installation surface and is normally used, the symbol UP indicates the upper side of the outdoor unit, and the symbol LH indicates the left side of the outdoor unit. show. In the following description, each direction is a direction along the direction of these outdoor units.

[1-1. composition]
[1-1-1. Configuration of outdoor unit]
FIG. 1 is a perspective view of an outdoor unit 1 of an air conditioner according to this embodiment.
The air conditioner of the present embodiment includes an indoor heat exchanger housed in an indoor unit, and a refrigeration circuit formed of a compressor 5, an expansion valve, and outdoor heat exchangers 50 and 80 housed in an outdoor unit 1. Prepare. An air conditioner air-conditions a space to be conditioned in which an indoor unit is provided by circulating a refrigerant in this refrigeration circuit.

As shown in FIG. 1, the outdoor unit 1 of the present embodiment draws in air through the outdoor heat exchanger 50 arranged on the side, exchanges heat with the refrigerant, and blows out the air from the other side. It is an outdoor unit called a side flow type or horizontal blowing type.

FIG. 2 is a plan view schematically showing the internal structure of the outdoor unit 1. FIG. In FIG. 2, for convenience of explanation, the edges of the bottom plate 12 forming the lower edges of the front air inlet 15 and the side air inlets 17 and predetermined portions of the rear plate 18 forming the edge of the air outlet 19 are indicated by dashed lines. show. In FIG. 2, airflow directions A1 and A2, which are directions of airflow, are indicated by chain double-dashed lines.
As shown in FIGS. 1 and 2, the outdoor unit 1 includes a box-shaped housing 10 whose longitudinal direction extends along the left-right direction. In the present embodiment, each part of housing 10 is formed of a steel plate.
The housing 10 includes a bottom plate 12 forming a bottom surface of the housing 10, a top plate 14 forming a top surface, a front plate 16 forming a front surface, a rear plate 18 forming a rear surface, and a left side surface. and a right side plate 13 forming a right side.

As shown in FIG. 1, the front panel 16 is provided with a front intake port 15 . The front intake port 15 is a rectangular opening through which air is drawn from the outside of the housing 10 to the inside. In the front panel 16 , the front intake port 15 is provided at a position closer to the left panel 11 than to the right panel 13 .
A plurality of fastening holes 20, which are through holes, are provided in the front plate 16 at positions close to the edge of the front air inlet 15 on the right side plate 13 side. These fastening holes 20 are arranged on the same straight line extending along the vertical direction of the housing 10 . In this embodiment, the front plate 16 is provided with three fastening holes 20 .

The left side plate 11 is provided with a side intake port 17 . The side air intake 17 is a rectangular opening through which air is drawn into the housing 10 , like the front air intake 15 . In the left side plate 11 , the side intake port 17 is provided at a position closer to the front plate 16 than the rear plate 18 .
On the left side plate 11, three air intakes are arranged on the same straight line extending along the vertical direction of the housing 10 at a position close to the edge of the side air intake 17 on the side of the rear plate 18, similar to the front plate 16. Two fastening holes 20 are provided.

As shown in FIG. 2, the rear plate 18 is provided with an exhaust port 19 . The exhaust port 19 is an opening through which the air sucked into the housing 10 is blown out of the housing 10 .
A filter or a grid-like protective member may be provided at the front air intake 15, the side air intake 17, and the air outlet 19 described above.

The internal space S of the housing 10 is partitioned into two spaces by a partition plate 21 . The partition plate 21 is a plate-like member that extends along the vertical direction of the housing 10 with a predetermined height dimension and extends along the front-rear direction of the housing 10 . The partition plate 21 is fixed to the housing 10 by connecting the lower end to the bottom plate 12 . The partition plate 21 has an end located on the front side of the housing 10 connected to the front plate 16 and an end located on the back side of the housing 10 connected to the rear plate 18 .
As a result, the inside of the housing 10 is divided into a machine room S1 located on the right side of the housing 10 and a fan room S2 located on the left side of the housing 10 with the partition plate 21 interposed therebetween. Two spaces are provided.

The machine room S1 accommodates the compressor 5, expansion valves, members constituting a refrigeration circuit such as refrigerant pipes, various electric parts, and the like.
A blower fan 30 and outdoor heat exchangers 50 and 80 are housed in the blower room S2.
The blower fan 30 is rotationally driven to introduce air from the outside of the housing 10 into the blower chamber S2, exchange heat with the refrigerant flowing through the outdoor heat exchanger 50, and then release the air to the outside of the housing 10 again. It is a flow fan. This blower fan 30 includes a fan motor 32 and an impeller 34 .
The fan motor 32 is a driving portion that rotates the impeller 34, and the fan motor 32 has a drive shaft 36 to which the impeller 34 is attached.
The impeller 34 is a rotating component that sends out air in the axial direction by being rotated by the fan motor 32 .

When the blower fan 30 is rotationally driven, air flows from the outside of the outdoor unit 1 into the inside of the housing 10, that is, the blower chamber S2. Specifically, the air mainly flows into the fan chamber S2 from the front air intake 15 and the side air intake 17, as shown in the airflow directions A1 and A2 in FIG.

The blower fan 30 is fixed by a fan support member 40 provided in the blower chamber S2. The fan support member 40 includes a pair of struts 42 , a motor mounting member 44 and a fixing plate 46 .
Each of the pair of support columns 42 is a columnar member that stands upright and extends upward from the upper surface of the bottom plate 12 . The pair of pillars 42 are arranged side by side with a predetermined interval from each other along the left-right direction of the housing 10 .
The motor mounting member 44 is a member that holds the fan motor 32 . The motor mounting member 44 is mounted so as to be sandwiched between the pair of struts 42 . The motor mounting member 44 is mounted on the pair of pillars 42 at a position separated from the bottom plate 12 by a predetermined height dimension.

The fixing plate 46 is a member that fixes the upper ends of the pair of supports 42 . The fixing plate 46 is a plate-like member arranged such that its plane surface faces the bottom surface of the housing 10 and its longitudinal direction extends along the front-rear direction of the housing 10 . The fixed plate 46 is fixed to the housing 10 by connecting both ends in the longitudinal direction to the front plate 16 and the rear plate 18 by, for example, screw fastening. A fixing plate 46 fixed to the housing 10 is arranged above the upper end of the outdoor heat exchanger 50 .
Note that the fixing plate 46 may be fixed by engaging the end located on the front plate 16 side with the upper end of the outdoor heat exchanger 50 .

Upper ends of the pair of pillars 42 are connected to a flat surface of the fixing plate 46 facing the bottom surface of the housing 10 . Thereby, the pair of support columns 42 are fixed to the housing 10 via the fixing plate 46 .
The fixing plate 46 of the present embodiment is made of sheet metal.

The fan support member 40 supports the blower fan 30 by attaching the fan motor 32 to the motor attachment member 44 . The blower fan 30 fixed to the fan support member 40 is arranged at a position where the impeller 34 faces the exhaust port 19 and the tip of the drive shaft 36 faces the exhaust port 19 .

[1-1-2. Configuration of outdoor heat exchanger]
The outdoor heat exchangers 50 and 80 are heat exchangers that function as evaporators that evaporate the refrigerant supplied from the indoor units, or as condensers that condense the refrigerant.
The outdoor heat exchanger 50 and the outdoor heat exchanger 80 have the same structure, but have different length dimensions in the longitudinal direction.
The outdoor heat exchanger 50 of the present embodiment is generally formed in a substantially L shape in plan view. On the other hand, the outdoor heat exchanger 80 has a length dimension in the longitudinal direction shorter than that of the outdoor heat exchanger 50, and is linearly formed in plan view.
The structure of the outdoor heat exchanger 80 will be described below, but the structure of the outdoor heat exchanger 50 is also the same, so the description thereof will be omitted.

FIG. 3 is a perspective view of the outdoor heat exchanger 80 located on the leeward side of the air blown out by the blower fan 30, viewed from the leeward side. FIG. 4 is a perspective view of the outdoor heat exchanger 80 positioned on the leeward side of the wind blown out by the blower fan 30, viewed from the windward side. 3 and 4, the outdoor heat exchanger 50 is represented by a dashed line for convenience of explanation.
As shown in FIGS. 3 and 4 , the outdoor heat exchanger 80 includes a pair of header pipes 52 and 54 , multiple flat tubes 62 , and multiple fins 64 .
In the present embodiment, these members included in the outdoor heat exchanger 80 are all made of aluminum or an aluminum alloy.

Both of the header pipes 52 and 54 are hollow columnar members extending along the vertical direction of the housing 10 . In this embodiment, the header pipes 52 and 54 are both cylindrical. These header pipes 52 and 54 are provided at both ends of the outdoor heat exchanger 80, respectively.
One header pipe 52 is connected to a plurality of refrigerant pipes that function as refrigerant inlets or outlets in the outdoor heat exchanger 80 .

The plurality of flat tubes 62 are flat elongated members in which channels through which coolant flows are provided.
The flat tubes 62 are aligned along the longitudinal direction of the header pipes 52 and 54 so that the longitudinal directions of the flat tubes 62 are parallel to each other. 54 is connected to each side 51 , 53 .
That is, one ends of the flat tubes 62 are arranged in a line at predetermined positions on the side surfaces 51 and 53 of the header pipes 52 and 54 at predetermined intervals along the longitudinal direction of the header pipes 52 . connected side by side.
Therefore, the longitudinal direction of each flat tube 62 coincides with the longitudinal direction of the outdoor heat exchanger 80 .

Each flat tube 62 is connected to each header pipe 52, 54 such that the respective width directions thereof are parallel to each other.
The flat tubes 62 included in the outdoor heat exchanger 50 are longer than the flat tubes included in the outdoor heat exchanger 80 in the longitudinal direction. In addition, the flat tubes 62 included in the outdoor heat exchanger 50 are bent into a substantially L shape in plan view.

The plurality of fins 64 is a flat plate member provided with a plurality of insertion holes in a plane through which each of the flat tubes 62 can be inserted. Each flat tube 62 is inserted into each fin 64 and connected to each header pipe 52 , 54 . That is, each fin 64 is arranged with its longitudinal direction and width direction orthogonal to the longitudinal direction of each flat tube 62 . The longitudinal direction of each fin 64 arranged in this manner coincides with the longitudinal direction of each header pipe 52 , 54 .
In this embodiment, the pair of header pipes 52, 54, the plurality of flat tubes 62, and the plurality of fins 64 are fixed together by brazing.

As shown in FIG. 2 , the outdoor heat exchanger 50 is arranged along the front plate 16 and the left side plate 11 in the longitudinal direction in the fan room S2. In this outdoor heat exchanger 50, a header pipe 52 is arranged at a position close to the edge of the front air intake 15 on the right side plate 13 side, and a header pipe 52 is arranged at a position close to the edge of the side air intake 17 on the rear plate 18 side. A pipe 54 is arranged. The outdoor heat exchanger 50 is bent so as to approach the corner 23 of the housing 10 formed by the front plate 16 and the left side plate 11 .

On the other hand, the outdoor heat exchanger 80 is arranged along the longitudinal direction of the front plate 16 and the outdoor heat exchanger 50 in the fan chamber S2. The outdoor heat exchanger 80 is arranged on the opposite side of the front plate 16 with the outdoor heat exchanger 50 interposed therebetween. The outdoor heat exchanger 80 arranged in this manner is arranged at a position closer to the blower fan 30 than the outdoor heat exchanger 50 is.

The header pipe 52 of the outdoor heat exchanger 80 is arranged adjacent to the header pipe 52 of the outdoor heat exchanger 50 . Specifically, the header pipe 52 of the outdoor heat exchanger 80 is arranged on the opposite side of the front plate 16 with the header pipe 52 of the outdoor heat exchanger 50 interposed therebetween.

As shown in FIGS. 1 and 2, the header pipe 54 of the outdoor heat exchanger 80 is arranged at a position overlapping the front intake port 15 when the housing 10 is viewed from the front. The header pipe 54 is arranged on the opposite side of the front intake port 15 with the outdoor heat exchanger 50 interposed therebetween, and is arranged adjacent to the flat tubes 62 and fins 64 of the outdoor heat exchanger 50 .

In the outdoor heat exchanger 50 arranged in this way, as shown in FIG. exposed from On the other hand, the header pipe 52 is shielded from the outside of the housing 10 by the front plate 16 , and the header pipe 54 is shielded from the outside of the housing 10 by the left side plate 11 .

On the other hand, since the outdoor heat exchanger 80 is arranged on the opposite side of the front intake port 15 with the outdoor heat exchanger 50 interposed therebetween, the outdoor heat exchanger 50 shields the entire housing 10 from the outside. be.

The outdoor unit 1 includes fixing members 70 and 370 that fix the outdoor heat exchangers 50 and 80 to the housing 10 .
Specifically, the header pipes 52 of the outdoor heat exchangers 50 and 80 are fixed to the front plate 16 by a plurality of fixing members 370 , and the header pipes 54 of the outdoor heat exchanger 50 are fixed to the front plate 16 by a plurality of fixing members 70 . fixed to In this embodiment, each of the header pipes 52 and 54 is fixed by three fixing members 70 .
Each of the header pipes 52 and 54 fixed to the housing 10 in this manner is arranged such that the longitudinal direction thereof extends along the vertical direction of the housing 10 .

[1-1-3. Configuration of Covering Member]

As shown in FIGS. 3 and 4, the outdoor unit 1 includes a covering member 90. As shown in FIGS.
The covering member 90 is a member that covers a predetermined portion of the side surface 51 of the header pipe 54 of the outdoor heat exchanger 80 .
The covering member 90 includes a covering portion 92 , an upper fixing portion 94 and a lower fixing portion 96 .

The upper fixing portion 94 is a flat plate member attached to the fixing plate 46 . The upper fixing portion 94 has a predetermined length, and one end is fixed to a portion of the fixing plate 46 above the outdoor heat exchanger 80 by, for example, screw fixing.

That is, the covering member 90 is fixed by the fixing plate 46 . Therefore, the fixing plate 46 functions as a fixing member for the covering member 90 .
Furthermore, in the outdoor unit 1 , the covering member 90 can be fixed to the housing 10 without providing a through hole or the like in the top plate 14 by fixing the upper end of the covering member 90 with the fixing plate 46 .

The upper fixing portion 94 fixed to the fixing plate 46 extends along the longitudinal direction of the outdoor heat exchanger 80, and the other end of the upper fixing portion 94 is arranged above the header pipe 54 of the outdoor heat exchanger 80. be done.
The other end of the upper fixing part 94 is arranged so that the plane provided by the end faces the upper end of the header pipe 54 of the outdoor heat exchanger 80, and the mating groove 93 is provided in the plane. The fitting groove 93 is a substantially L-shaped groove formed along the front plate 16 and the left side plate 11 in plan view. The fitting groove 93 is arranged at a position spaced apart from the header pipe 54 of the outdoor heat exchanger 80 in plan view.

The lower fixing portion 96 is a flat plate member fixed to the bottom plate 12 . The lower fixing portion 96 is fixed to the bottom plate 12 so that the plane thereof is in contact with the bottom plate 12 . The lower fixing portion 96 is arranged below the header pipe 54 of the outdoor heat exchanger 80 at a position facing the lower end of the header pipe 54 .
The lower fixing part 96 has a flat surface facing the lower end of the header pipe 54 of the outdoor heat exchanger 80, and the fitting groove 95 is provided on the flat surface. Similar to the fitting groove 93, the fitting groove 95 is a groove formed in a substantially L shape along the front plate 16 and the left side plate 11 in a plan view. Similar to the fitting groove 93, the fitting groove 95 is arranged at a position separated from the header pipe 54 of the outdoor heat exchanger 80 in plan view.
The lower fixed portion 96 may be provided with a drainage structure such as a drainage hole or an inclined portion for suppressing retention of condensed water, rainwater, or the like.

The upper fixing portion 94 and the lower fixing portion 96 described above are provided at positions separated from the header pipe 54 of the outdoor heat exchanger 80 . For this reason, the upper fixing portion 94 and the lower fixing portion 96 are made of a material that has high rigidity and a longitudinal elastic modulus and a yield point that are higher than those of the holding portion 72 regardless of the ionization tendency. Such materials include, for example, steel plates.
As a result, even if vibration or the like occurs due to the driving of the compressor 5, the upper fixing portion 94 and the lower fixing portion 96 are prevented from separating from the housing 10 and from being deformed. be done. Therefore, the covering member 90 is suppressed from deviating from the arrangement position.

The covering portion 92 is a plate-like member formed by bending a flat plate so as to have an L shape when viewed from the longitudinal direction. The covering portion 92 has a length dimension in the longitudinal direction that is substantially the same as the length dimension in the longitudinal direction of the header pipe 54 . The covering portion 92 includes a first covering plate 97 forming one bent plane and a second covering plate 99 forming the other plane. The width directions of the first cover plate 97 and the second cover plate 99 are perpendicular to each other.

The covering portion 92 is applied to aluminum forming the outdoor heat exchangers 50 and 80 including the header pipe 54 and the flat tubes 62 with a potential equal to or lower than that of a metal material having an equal or high ionization tendency, that is, aluminum. The whole is formed by a metal material. Such metal materials include, for example, zinc (Zn).
In this way, when the covering portion 92 is formed of a metal material having an electric potential equal to or lower than that of the metal material forming the outdoor heat exchanger 80, the covering portion 92 is in contact with the outdoor heat exchanger 80. However, in the outdoor heat exchanger 80, progress of corrosion due to contact between dissimilar metals promoted by stagnant moisture such as dew condensation water and rainwater can be suppressed.

One longitudinal end of the covering portion 92 is fitted into the fitting groove 93 of the upper fixing portion 94 , and the other longitudinal end of the covering portion 92 is fitted into the fitting groove 95 of the lower fixing portion 96 . Fixed at 10. Thereby, the covering portion 92 is arranged to extend along the longitudinal direction of the header pipe 54 of the outdoor heat exchanger 80 .

The covering portion 92 is fixed by an upper fixing portion 94 and a lower fixing portion 96 so as to be spaced apart from the header pipe 54 of the outdoor heat exchanger 80 by a predetermined distance.
This prevents the covering portion 92 from contacting the header pipe 54 of the outdoor heat exchanger 80 . Therefore, water such as dew condensation water and rainwater is prevented from staying between the covering portion 92 and the header pipe 54 of the outdoor heat exchanger 80 . Further, in the outdoor unit 1, corrosion of the header pipe 54 due to the moisture can be suppressed.

As shown in FIG. 4 , when the covering portion 92 is fixed by the upper fixing portion 94 and the lower fixing portion 96 , the first covering plate 97 is connected to the outdoor heat exchanger 50 and the header pipe of the outdoor heat exchanger 80 . 54. The first covering plate 97 is arranged to face the outdoor heat exchanger 50 and the front air intake port 15 . That is, the first covering plate 97 shields the outdoor heat exchanger 50 and the header pipe 54 of the outdoor heat exchanger 80 from the front air intake 15 .

Similarly, when the covering portion 92 is fixed by the upper fixing portion 94 and the lower fixing portion 96 , the second covering plate 99 is arranged to face the side intake port 17 . As shown in FIG. 2, in the fan chamber S2, the second cover plate 99 is arranged on the opposite side of the side air intake 17 with the outdoor heat exchanger 50 interposed therebetween. That is, the second cover plate 99 shields the outdoor heat exchanger 50 and the header pipe 54 of the outdoor heat exchanger 80 from the side intake port 17 .

As a result, of the side surfaces 53 of the header pipe 54 , the windward side of the air flow from the blower fan 30 is covered with the covering portion 92 . Therefore, the header pipe 54 of the outdoor heat exchanger 80 is shielded from the airflow sent out by the blower fan 30 when the blower fan 30 is driven.

[1-2. motion]
The operation of the outdoor unit 1 configured as described above will be described below.

First, the flow of refrigerant in an air conditioner will be described.
In the heating operation of the air conditioner, when the outdoor unit 1 starts operating, the compressor 5 is driven. The compressor 5 compresses the refrigerant enclosed in the refrigeration circuit and sends out gas refrigerant through each refrigerant pipe. The gas refrigerant releases heat in the indoor heat exchangers and is condensed, flows through the refrigerant pipes into the expansion valves, is decompressed by the expansion valves, and flows into the outdoor heat exchangers 50 and 80 . Refrigerant that has flowed into the outdoor heat exchangers 50 and 80 flows through the flat tubes 62 via the header pipes 52 and 54 .

Here, when the outdoor unit 1 starts operating, the blower fan 30 starts rotating prior to the compressor 5 . The rotationally driven blower fan 30 causes air to flow from the outside of the outdoor unit 1 into the inside of the housing 10, that is, the blower chamber S2, as shown in airflow directions A1 and A2 in FIG. Specifically, the air mainly flows into the fan chamber S2 from the front air intake 15 and the side air intake 17 . The air flowing into the blower chamber S2 is directed perpendicularly to the longitudinal direction of the outdoor heat exchangers 50 and 80 and the vertical direction, in other words, along the width direction of the flat tubes 62, the flat tubes 62 and the fins 64. pass between
The refrigerant flowing through the outdoor heat exchanger 50 absorbs heat and evaporates by exchanging heat with the air sent out by the blower fan 30 in the flat tubes 62 .

This facilitates heat exchange between the refrigerant flowing inside the plurality of flat tubes 62 and the air flowing between the plurality of fins 64 .
The refrigerant evaporated in the flat tube 62 returns to the compressor 5 via refrigerant piping.
The air heat-exchanged with the refrigerant is discharged to the outside of the housing 10 from the exhaust port 19 by the blower fan 30 .

By repeating the operation described above, the outdoor unit 1 absorbs heat from the outdoor air into the refrigerating circuit and sends it indoors.
When the air conditioner performs cooling operation, the direction of refrigerant circulation in the refrigerating circuit is opposite to that in heating operation, and the outdoor heat exchanger 50 functions as a condenser.

In the outdoor unit 1 that operates as described above, rainwater or moisture in the atmosphere may enter from the outside of the housing 10 along with the airflow from the blower fan 30 . In addition, in the outdoor heat exchanger 50, moisture such as dew condensation may occur on the surface of the outdoor heat exchanger 50 as the refrigerant is heat-exchanged. As described above, the header pipe 54 of the outdoor heat exchanger 80 is located on the leeward side of the outdoor heat exchanger 50 and is adjacent to the flat tubes 62 and the fins 64 of the outdoor heat exchanger 50. placed. Therefore, water such as rain water, atmospheric water, and condensed water that has entered the housing 10 travels toward the header pipe 54 of the outdoor heat exchanger 80 along with the airflow generated by the blower fan 30 .

Header pipe 54 of outdoor heat exchanger 80 according to the present embodiment is covered with covering portion 92 on the windward side of the side surface 53 of header pipe 54 in the airflow from blower fan 30 . As a result, the header pipe 54 of the outdoor heat exchanger 80 is shielded from moisture such as rainwater, moisture in the atmosphere, and condensed water that has entered the housing 10 . Therefore, in the outdoor unit 1, adhesion of the water to the header pipe 54 of the outdoor heat exchanger 80 is suppressed, and corrosion of the header pipe 54 can be suppressed.

[1-3. effects, etc.]
As described above, in the present embodiment, the outdoor unit 1 includes the outdoor heat exchangers 50 and 80 including the header pipes 52 and 54 to which the flat tubes 62 are connected to the side surfaces 51 and 53, and the flat tubes 62. A blower fan 30 for sending out air and a housing 10 for housing a plurality of outdoor heat exchangers 50 and 80 and the blower fan 30 are provided. The plurality of outdoor heat exchangers 50 and 80 are arranged side by side from the windward side to the leeward side of the airflow from the blower fan 30 . The header pipes 54 of the outdoor heat exchanger 80 arranged on the leeward side are arranged adjacent to the flat tubes 62 of the outdoor heat exchanger 50 arranged on the windward side. The outdoor unit 1 is provided with a covering member 90 that covers the windward side of the header pipe 54 of the outdoor heat exchanger 80 arranged on the leeward side.

As a result, the header pipe 54 of the outdoor heat exchanger 80 has a side surface 53 of the header pipe 54 facing the outdoor heat exchanger 50 and the front intake port 15, the outdoor heat exchanger 50, and the side intake port 15. The surface facing the mouth 17 is covered with the covering member 90 . The header pipe 54 of the outdoor heat exchanger 80 is shielded from moisture such as rainwater, moisture in the atmosphere, and condensed water that has entered the housing 10 . Therefore, in the outdoor unit 1, adhesion of the water to the header pipe 54 of the outdoor heat exchanger 80 is suppressed, and corrosion of the header pipe 54 can be suppressed.

As in the present embodiment, the housing 10 is provided with the fixing plate 46 positioned above the outdoor heat exchangers 50 and 80, and the covering member 90 is a covering portion covering the windward side of the header pipes 52 and 54. 92 and an upper fixing portion 94 provided on the upper portion of the covering portion 92 . The covering portion 92 may be fixed to the housing 10 by being attached to the fixing plate 46 via the upper fixing portion 94 .
Thereby, the covering member 90 can be fixed to the housing 10 without providing a through hole or the like in the top plate 14 . Therefore, in the outdoor unit 1, intrusion of outside air and moisture into the inside of the housing 10 is suppressed.

As in this embodiment, the covering member 90 has a lower fixing portion 96 provided below the covering portion 92 , and the covering portion 92 is attached to the bottom plate 12 of the housing 10 via the lower fixing portion 96 . can be
Thereby, the covering member 90 is arranged with a predetermined distance from the header pipe 54 of the outdoor heat exchanger 80 . Therefore, water such as condensed water and rainwater is prevented from staying between the covering portion 92 and the header pipe 54 of the outdoor heat exchanger 80 .

As in the present embodiment, the covering portion 92 may be made of a metallic material or a non-metallic material having a potential equal to or lower than that of the outdoor heat exchangers 50 and 80 .
Thereby, the covering portion 92 is made of a metal that is less base than aluminum or a metal that is as base as aluminum. Therefore, at the portion where the holding portion 72 holds the header pipe 54, it is possible to suppress the progress of corrosion due to contact between dissimilar metals promoted by stagnant water such as dew condensation water and rainwater.

As in the present embodiment, the upper fixing portion 94 and the lower fixing portion 96 may be made of a material having a greater longitudinal elastic modulus and yield point than the covering portion 92 .
As a result, even if vibration or the like occurs due to the driving of the compressor 5, separation or deformation of the upper fixing portion 94 and the lower fixing portion 96 from the housing 10 is suppressed. Therefore, the deviation of the covering member 90 from the arrangement position is suppressed.
(Other embodiments)
As described above, Embodiment 1 has been described as an example of the technology disclosed in the present application. However, the technology in the present disclosure is not limited to this, and can also be applied to embodiments with modifications, replacements, additions, omissions, and the like.
Therefore, other embodiments will be exemplified below.

The covering portion 92 is not limited to a metallic material having a potential equal to or lower than that of the material forming the header pipes 52 and 54, and may be made of a non-metallic material such as a ceramic material or a resin material.
As a result, at the portion where the covering portion 92 holds the header pipe 52, progress of corrosion due to contact between dissimilar metals accelerated by stagnant water such as dew condensation water and rainwater can be suppressed.

Further, for example, the coating portion 92 may be coated with a passivation film, plated with a metal having a potential equal to or lower than that of the material forming the header pipes 52 and 54, or resin-coated. In this case, the covering portion 92 may be made of a metal material having a potential equal to or higher than that of the material forming the header pipes 52 and 54 .
Also, these treatments may be applied to the upper fixing portion 94 and the lower fixing portion 96 .

In the embodiment described above, the upper fixing portion 94 is attached to the fixing plate 46 . However, the upper fixing portion 94 is not limited to this, and may be another member provided inside the housing 10 such as the partition plate 21, for example. Further, for example, the upper fixing portion 94 may be directly attached to the housing 10 .

In the embodiment described above, the covering member 90 includes the covering portion 92 , the upper fixing portion 94 and the lower fixing portion 96 , and the covering portion 92 is fixed by the upper fixing portion 94 and the lower fixing portion 96 . bottom. However, the covering member 90 is not limited to this, and the covering member 90 may include a holding portion that holds the header pipe 54 on the surface facing the header pipe 54 of the outdoor heat exchanger 80 in the covering portion 92 . In this case, the covering portion 92 is fixed by holding the header pipe 54 with the holding portion. Furthermore, in this case, the covering member 90 may omit the upper fixing portion 94 and the lower fixing portion 96 .

In the embodiment described above, the outdoor unit 1 is assumed to be a horizontal-blowing heat exchange unit. However, not limited to this, the outdoor unit 1 is, for example, a so-called top-blowing type heat exchange unit in which air is sucked from the side of the housing 10 and air is blown upward from the top of the housing 10. good too.

Note that the above-described embodiment is for illustrating the technology in the present disclosure, and various changes, replacements, additions, omissions, etc. can be made within the scope of the claims or equivalents thereof.

The present disclosure is applicable to outdoor units in which header pipes are arranged adjacent to flat tubes or fins of other heat exchangers. Specifically, the present disclosure is applicable to an outdoor unit or the like including a plurality of flat tube heat exchangers.

1 outdoor unit 10 housing 30 blower fan (fan)
46 fixed plate (fixed member)
50 outdoor heat exchanger (heat exchanger)
51, 53 side surface 52, 54 header pipe 62 flat tube 64 fin 70, 370 fixing member 80 outdoor heat exchanger 90 covering member 92 covering portion 93, 95 mating groove 94 upper fixing portion 96 lower fixing portion 97 first covering plate 99 Second covering plate

Claims (5)

a heat exchanger comprising a header pipe to which flat tubes are connected on the side;
a fan for sending out air passing through the flat tubes; and a housing for housing the plurality of heat exchangers and the fan inside,
The plurality of heat exchangers are arranged side by side from the windward side to the leeward side of the airflow by the fan,
The header pipe of the heat exchanger arranged on the leeward side is arranged adjacent to the flat tube of the heat exchanger arranged on the windward side,
An outdoor unit of an air conditioner, comprising a covering member that covers the windward side of the header pipe of the heat exchanger arranged on the leeward side. The housing is provided with a fixing member positioned above the heat exchanger,
The covering member includes a covering portion that covers the windward side of the header pipe;
an upper fixing part provided on the upper part of the covering part,
The outdoor unit of an air conditioner according to claim 1, wherein the covering portion is fixed to the housing by being attached to the fixing member via the upper fixing portion. The covering member includes a lower fixing portion provided below the covering portion,
The outdoor unit of an air conditioner according to claim 2, wherein the covering portion is attached to the bottom surface of the housing via the lower fixing portion. The outdoor unit of an air conditioner according to claim 3, wherein the covering portion is made of a metallic material or a non-metallic material having a potential equal to or lower than that of the heat exchanger. The outdoor unit of an air conditioner according to claim 4, wherein the upper fixing portion and the lower fixing portion are made of a material having a longitudinal elastic modulus and a yield point greater than those of the covering portion.

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