JP2023103872A - Outdoor unit of refrigeration cycle device - Google Patents

Abstract

To provide an outdoor unit of a refrigeration cycle device that promotes drainage of rainwater, etc. entering the outdoor unit.SOLUTION: An outdoor unit of a refrigeration cycle device comprises a case comprising a bottom plate part comprising four corner parts, a partition plate part erected on the bottom plate part, a machine chamber and a heat exchange chamber formed in such a manner that the inside of the case is partitioned by the partition plate part, a compressor 101 placed and fixed on the bottom plate part in the machine chamber, and a heat exchanger placed and fixed on the bottom plate part in the heat exchanger chamber. The bottom plate part is provided with a flange part 200 extending upward along a peripheral edge of the bottom plate part. The flange part 200 in the corner parts comprises a notch part 210 in at least one place. A lowermost part 210A of the notch part is formed so as to be lower than a lowermost part 101A of the compressor.SELECTED DRAWING: Figure 5

Description

An embodiment of the present invention relates to an outdoor unit of a refrigeration cycle apparatus, and more particularly to a drainage structure of a bottom plate of the outdoor unit.

An outdoor unit that constitutes an air conditioner, which is a refrigeration cycle device, has a compressor, an outdoor heat exchanger, an outdoor fan, and the like placed and fixed on a bottom plate that constitutes a unit body that is a housing. When operating this air conditioner, drain water may be generated from the outdoor heat exchanger provided in the outdoor unit. In addition, the front panel of the housing of the outdoor unit is provided with a blowout grill provided with a large number of blowout openings, and rainwater may enter through the blowout grill portion.
Therefore, the bottom plate is provided with a drain port to drain the water remaining in the outdoor unit.

Patent No. 5591218

In conventional outdoor units, if the drain port is clogged for some reason or if the outdoor unit is installed at an angle, water may accumulate inside the outdoor unit. In addition, there is a risk that the soundproofing material wrapped around the compressor will be submerged in water, causing the compressor to rust.

The problem to be solved by the present invention is to provide an outdoor unit of a refrigeration cycle apparatus that can prevent water from accumulating in the indoor unit and prevent the occurrence of rust in the compressor by promoting the drainage of water in the outdoor unit. It is intended to provide

An outdoor unit of a refrigeration cycle apparatus according to the present invention comprises a housing including a bottom plate portion having four corners, a partition plate portion erected on the bottom plate portion, and the inside of the housing being partitioned by the partition plate portion. a machine room and a heat exchange room, a compressor placed and fixed on the bottom plate of the machine room, and an outdoor heat exchanger placed and fixed on the bottom plate of the heat exchange room.
The bottom plate portion is provided with a flange portion extending upward along the periphery of the bottom plate portion. formed to be lower than

BRIEF DESCRIPTION OF THE DRAWINGS It is the schematic of the refrigerating cycle which concerns on an air conditioner which shows this embodiment. 1 is an external perspective view of an outdoor unit of an air conditioner, showing the embodiment. FIG. It is a schematic diagram concerning the inside of the outdoor unit of an air conditioner which shows this embodiment. It is the schematic which concerns on a baseplate part and a compressor which shows this embodiment. It is the schematic which shows this embodiment and concerns on the installation height of the notch part of a baseplate part, and a compressor. It is the schematic which concerns on a baseplate part and a housing|casing which shows this embodiment.

Embodiments for carrying out the invention will be described below.

(embodiment)
(air conditioner)
FIG. 1 shows a schematic diagram of a refrigeration cycle diagram of an air conditioner of this embodiment.
As shown in FIG. 1, an air conditioner 1, which is a refrigeration cycle device, is an outdoor unit composed of a compressor 101, a four-way valve 102, an outdoor heat exchanger 103, and an outdoor blower fan 104 surrounded by a dotted line frame. 2, an indoor unit 3 consisting of an expansion valve 105, an indoor heat exchanger 106, and an indoor blower fan 107 surrounded by a solid line frame, a connecting pipe 4 connecting the outdoor unit 2 and the indoor unit 3, consists of
The outdoor unit 2 and the indoor unit 3 are connected by a connection pipe 4 to form a refrigeration cycle 100 .

(refrigerating cycle)
A refrigerating cycle 100 comprises a compressor 101, a four-way valve 102, an outdoor heat exchanger 103, an expansion valve 105, an indoor heat exchanger 106, and a refrigerant pipe p connecting these elements.
Refrigerant during cooling operation forms flow paths as indicated by solid line arrows in FIG. First, gas refrigerant discharged from the compressor 101 flows through the four-way valve 102 into the outdoor heat exchanger 103 . This gas refrigerant is condensed in the outdoor heat exchanger 103 and changed to liquid refrigerant. The condensed liquid refrigerant passes through expansion valve 105 and flows into indoor heat exchanger 106 . This liquid refrigerant evaporates in the indoor heat exchanger 106 and changes to gas refrigerant. This gas refrigerant then flows through the four-way valve 102 into the compressor 101 again.
On the other hand, in the heating operation, the flow path is formed as indicated by the dashed arrows in FIG. 1, and the refrigerant circulates.
By switching the refrigerant circulation direction between the cooling operation and the heating operation in this manner, the indoor heat exchanger 106 functions as an evaporator during the cooling operation and as a condenser during the heating operation.

(Case)
FIG. 2 is an external perspective view of the outdoor unit 2. FIG.
As shown in FIG. 2, the outdoor unit 2 includes a housing 10. As shown in FIG. Also, in the following description, as shown in FIG. 2, a first direction X, a second direction Y, and a third direction Z are defined respectively. These directions X, Y, Z are directions perpendicular to each other. For example, the direction along the first direction X is the width direction, the direction along the second direction Y is the depth direction, and the direction along the third direction Z is the height direction. However, these directions do not have to match the directions in which the outdoor unit 2 is actually installed.

The housing 10 has a bottom plate portion 10a, a front plate portion 10b, a left front plate portion 10c, a left rear plate portion 10d, a top plate portion 10e, and a right pillar portion 10f, and has an open rear surface. The bottom plate portion 10a, the front plate portion 10b, the left front plate portion 10c, the left rear plate portion 10d, the top plate portion 10e, and the right pillar portion are all formed of metal plates, and the housing 10 is formed in a rectangular box shape. be done. The left front plate portion 10c and the left rear plate portion 10d are each formed to have a substantially L-shape, and a machine room A1 of the housing 10, which will be described later, is formed by the left front plate portion 10c and the left rear plate portion 10d. It is covered with the machine room cover part 10L.

The housing 10 has rounded corners. For example, the corners of the front plate portion 10b are the corners 10i. The corner is assumed to be 10h. As for the corners on the rear surface, the corners of the right column portion 10f are called corners 10j, and the corners of the left rear plate portion 10d are called corners 10k.
A bell mouth (not shown) serving as an air vent for the outdoor blower fan 107 is provided on the front plate portion 10b. A blow-out grill 11 is attached so as to cover the bell mouth. In this case, the blowout grille 11 is made of synthetic resin and has a large number of blowout openings.
Further, the bottom plate portion 10a is provided with a fixing leg 12, and the fixing leg 12 is attached and fixed to a frame or the like at the installation location of the outdoor unit 2 using an attachment fixture (fixing bolt). be.

(Must have A1 and A2)
FIG. 3 is an exploded perspective view of the outdoor unit.
As shown in FIG. 3, on the bottom plate portion 10a of the housing 10, a Y portion is provided at a position about 1/3 in the X direction and depth direction from the left side (the right side when viewed from the front) of the bottom plate portion 10a. - A partition plate portion 20 is erected along the Z plane. The interior of the outdoor unit 2 is partitioned left and right by the partition plate portion 20 . A spatial space formed from the left side surface to the partition plate portion 20 is called a machine chamber A1, and a spatial space formed from the partition plate portion 20 to the right side surface is called a heat exchange chamber A2.

(Machine room A1)
FIG. 4 : is the schematic which concerns on a baseplate part and a compressor which shows the same embodiment.
As shown in FIGS. 3 and 4, the machine room A1 accommodates a compressor 101, a four-way valve 102 connected to the compressor 101 via a pipe, and a group of pipes 120 connecting them. be done.
The compressor 101 is installed in the vicinity of the left front plate portion 10c of the machine room A1. The compressor 101 includes a compressor main body 101a that houses an electric motor section and a compression mechanism section, support legs 101b that are provided at the lower end of the compressor main body 101a, and an accumulator 101c that is connected to a suction section of the compressor main body 101a. have Also, the compressor 101 is covered with a soundproof material 110 .

(Heat exchange chamber)
In the heat exchange chamber A2, the outdoor heat exchanger 103 is mounted on the bottom plate portion 10a.
The outdoor heat exchanger 103 includes a plurality of spaced fins 103a and heat exchange pipes 103b passing through the plurality of fins 103a in the stacking direction. This outdoor heat exchanger 103 covers the open right side surface and the rear surface of the housing 10, and along the inner side of the outer edge of the bottom plate portion 10a, from a place near the front plate portion 10b in the XY plane. It is installed so as to be substantially L-shaped in plan view. This outdoor heat exchanger 103 is exposed from the right side surface and the rear surface of the housing 1 .

The outdoor blower fan 104 has a propeller fan, a motor, and a motor rotation axis. prepared to be. In addition, the propeller fan is installed in the heat exchange chamber A2 so that the front plate portion 10b side and the motor are installed in the outdoor heat exchanger 103 side, which is the rear surface of the housing 10. As shown in FIG.
That is, by operating the outdoor blower fan 104, outside air is sucked from the side of the outdoor heat exchanger 103 that is the rear surface of the housing 1, heat is exchanged by the outdoor heat exchanger 103, and the outside air after the heat exchange is applied to the decorative cover 11. is blown out of the housing 1 through the .

When the outdoor unit 2 of the air conditioner is installed at a predetermined position, the end of the connection pipe 4 extending from the indoor unit 3 (not shown) is connected to the connection valve. , the refrigerant sealed on the outdoor unit 2 side is guided to the indoor unit 3 side to form a refrigeration cycle circuit.

(bottom plate)
As shown in FIG. 4, the bottom plate portion 10a has a rectangular shape whose width direction is longer than its depth direction. be. Painted steel sheets, which are hot-dip galvanized steel sheets, and hot-dip aluminum-zinc alloy-plated steel sheets are used as materials, and these are characterized by their excellent workability and durability.

The bottom plate portion 10a is provided with a flange portion 200 extending upward along the periphery of the bottom plate portion.
A front plate portion 10b, a left front plate portion 10c, a left rear plate portion 10d, and a right pillar portion 10f are arranged so as to cover the outside of the flange portion 200. As shown in FIG. The outdoor heat exchanger 103 is installed along the inside of the flange portion 200 to form the housing 10 .
Further, the bottom plate portion 10a is provided with a drain port 13 through which drain water or the like is discharged.

A part of this flange portion 200 has a notch portion 210 .
The notch portion 210 is provided in the flange portion 200 of the corner portion 201 of the bottom plate 10a near the compressor 101 placed in the machine room A1, and is notched in a substantially U shape as shown in FIG. .
The notch 210 may be provided not only at one corner 201 but also at the other corner 202 on the machine room A1 side. Furthermore, corner portions 203 or 204 of the heat exchange chamber A2 can be provided as necessary.

FIG. 5 is a schematic diagram showing the installation height of the notch of the bottom plate and the compressor, showing the same embodiment.
As shown in FIG. 5, the lowermost notch portion 210A of the notch portion 210 is formed to be lower than the lowermost portion 101A of the compressor 101. As shown in FIG. In this way, as long as the lowest notch portion 210A of the notch portion 210 is lower than the lowest portion 101A of the compressor 101, the notch portion 210 does not have to be substantially rectangular as shown in the first embodiment.
For example, the notch 210 may be formed in a substantially inverted triangular shape. Also, the notch 210 may be formed in a substantially semicircular shape.
Thus, the shape of the notch 210 may be any shape as long as the drainage effect is not significantly lost.

Since this notch portion 210 is provided at the corner of the bottom plate portion 10a of the machine room A1, the drain port 13 provided in the bottom plate portion 10a may be clogged with dust or the ground surface of the outdoor unit 2 may be inclined. Even if the drainage from the drainage port 13 is not performed well because the drainage from the drainage port 13 cannot catch up with the drainage, the drainage to the outside of the machine room A1 can be promoted.
In addition, the cutout portion 210 is provided so that the bottom portion 210A of the cutout portion is lower than the bottom portion 101A of the compressor 101 and is provided at the corner portion 201, so that the drainage from the drain port 13 can be performed well as described above. Drainage can be promoted even in cases such as when it is not performed. Therefore, the compressor 101 is not continuously submerged in water, and the occurrence of rust in the compressor 101 can be prevented.
Furthermore, by providing the notch 210 at the corner of the housing 10, the strength of the housing 10 is not lost more than necessary, and the drainage capacity can be improved.
Since the notch 210 is housed inside the housing 10 and the housing 10 forms the outer shell of the outdoor unit 2, it is less likely to be affected by rainwater blowing in from the outside of the outdoor unit 2. Drainage capacity can be improved.

Further, as shown in FIG. 4 , the bottom plate portion 10 a of the corner portion 201 provided with the notch portion 210 has the water collecting portion 14 . The water collecting portion 14 is formed in the bottom plate portion 10a near the corner where the notch portion 210 is provided.
The water collecting portion 14 is formed to be lower in height than the adjacent surface 15 and is the lowest among the surfaces formed on the bottom plate portion 10a. Therefore, the water that enters the outdoor unit 2 can be collected in the water collecting portion 14, and the drainage from the notch portion 210 can be further promoted.

FIG. 6 is a schematic diagram of a bottom plate portion and a housing, showing the same embodiment.
As shown in FIG. 6, in the present embodiment, the corner portion 201 of the bottom plate portion 10a provided with the notch portion 210 has a bend r greater than the bend R of a corner portion 10h of the machine room cover portion 10L that covers the outer shell of the bottom plate portion 10a. is formed to be larger.
A region of a gap t formed between the machine room cover portion 10L and the bottom plate portion 10a due to the difference between the bending R of the machine room cover portion 10L and the bending r of the corner portion 201 of the bottom plate portion 10a is hatched. indicated by .

The portion where the gap t formed by the difference between the bending r and the bending R may be provided not only at the corner 201 but also at all four corners. Further, as long as a gap is formed between the housing 10 and the bottom plate portion 10a, the gap is not limited to being formed by the difference between the bending R and the bending r.
For example, the corner portion 201 of the bottom plate portion 10a may have a shape in which the corner portion 201 is cut straight without bending. That is, the overall shape of the bottom plate portion 10a may be substantially pentagonal instead of substantially rectangular. The shape of the corner without bending may be applied not only to the corner 201 but also to other corners as required.
As described above, the gap t may have any shape as long as the gap t is such that foreign matter does not enter from the outside.

By providing this gap t, it becomes easier to drain water from the cutout portion 210 , and it is possible to prevent the compressor 101 from rusting due to accumulation of water in the outdoor unit 2 .

Although one embodiment of the present invention has been described above, this embodiment is presented as an example and is not intended to limit the scope of the invention. This novel embodiment can be embodied in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention.

For example, the shape, size, position and number of the cutouts 12 can be changed as appropriate. Further, in the present embodiment, the refrigeration cycle device is presented as an air conditioner, but the present invention is not limited to this, and can be applied to a heat source unit of a heat pump type water heater.

This embodiment and its modifications are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

Air conditioner 1, outdoor unit 2, housing 10, bottom plate portion 10a, partition plate portion 20, compressor 101, lowermost portion 101A, outdoor heat exchanger 103, flange portion 200, corner portions 201 to 204, notch portion 210, Lowermost part 210A, machine room A1, heat exchange room A2

Claims (4)

a housing comprising a bottom plate portion having four corners;
a partition plate portion erected on the bottom plate portion;
a machine chamber and a heat exchange chamber formed by partitioning the inside of the housing by the partition plate;
a compressor mounted and fixed on the bottom plate of the machine room;
An outdoor unit of a refrigeration cycle apparatus comprising a heat exchanger mounted and fixed on the bottom plate of the heat exchange chamber,
The bottom plate portion is provided with a flange portion extending upward along the periphery of the bottom plate portion,
The flange portion of the corner has at least one notch,
the bottom of the notch is lower than the bottom of the compressor;
Outdoor unit of refrigeration cycle equipment. The notch is formed in the flange of the corner near the compressor of the machine room,
The outdoor unit of the refrigeration cycle apparatus according to claim 1. The housing has a machine room cover covering the machine room,
the corner portion of the bottom plate portion on the machine room side;
A gap is formed between the corner portion of the machine room cover portion corresponding to the corner portion,
The outdoor unit of the refrigeration cycle apparatus according to claim 1 or 2. The bend r of the corner portion of the bottom plate portion provided with the notch portion is
formed to be larger than the bend R of the corner of the machine room cover portion;
The outdoor unit of the refrigeration cycle apparatus according to claim 3.

Images