JP7019097B2 - Outdoor unit of air conditioner - Google Patents

Description

The present invention relates to an outdoor unit of an air conditioner constituting a refrigeration cycle device.

Conventionally, in the outdoor unit of an air conditioner, a drain hole for drainage is formed on the bottom plate of the outdoor unit for the purpose of draining the defrosted water flowing down from the heat exchanger or draining the rainwater that has entered the outdoor unit. Has been proposed (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2018-162953

However, in the outdoor unit of the air conditioner of Patent Document 1, a drain hole is formed by cutting up the bottom plate below the heat exchanger. By the way, in an outdoor unit of an air conditioner, the space of the housing of the outdoor unit is generally separated by a partition plate into a blower room in which a heat exchanger and a blower are housed and a machine room in which a compressor is housed. .. In the outdoor unit of the air conditioner of Patent Document 1, a drain hole is formed only in the blower room in which the heat exchanger is housed, and no drain hole is formed in the machine room. Further, the machine room of the outdoor unit contains a compressor that emits noise based on the operation, and the outdoor unit of the air conditioner of Patent Document 1 has a drain hole from the compressor when the machine room is provided with a drain hole. No measures have been proposed to prevent the generated noise from leaking from the drain holes to the outside of the housing.

The present invention is for solving the above-mentioned problems, and is generated from a compressor that can drain dew condensation water, rainwater, etc. from the machine room to the outside of the housing and is the main sound source of the machine room. It is an object of the present invention to provide an outdoor unit of an air conditioner that suppresses noise from leaking to the outside of a housing.

The outdoor unit of the air conditioner according to the present invention has a bottom plate in which a heat exchanger, a blower, and a compressor are arranged, and is provided in a housing constituting the outer shell of the outdoor unit and inside the housing. A partition plate that separates the space inside the housing from the blower room that houses the heat exchanger and the blower and the machine room that houses the compressor is provided. In the machine room, the bottom plate is the inside of the housing. A drain hole portion that communicates with the outside is formed, and the bottom plate has a cut-up piece cut up from the drain hole portion so as to cover a part above the drain hole portion. The pieces are formed so as to face the compressor.

According to the present invention, in the outdoor unit of an air conditioner, in the machine room, a drain hole portion for communicating the inside and the outside of the housing is formed on the bottom plate, so that dew condensation water, rainwater, etc. can be collected. Water can be drained from the machine room to the outside of the housing. Further, in the machine room, the bottom plate has a cut-up piece cut up from the drainage hole portion so as to cover a part above the drainage hole portion, and the cut-up piece faces the compressor. Is formed in. Therefore, even if the drainage hole is formed in the machine room, the outdoor unit covers a part above the drainage hole and reflects the sound emitted from the compressor by the cut-up piece facing the compressor. It is possible to prevent the noise generated from the compressor from leaking to the outside of the housing.

It is a refrigerant circuit diagram which shows the structure of the refrigerating cycle apparatus provided with the outdoor unit of the air conditioner which concerns on embodiment. It is a front side perspective view of the outdoor unit which concerns on embodiment. It is an exploded perspective view which disassembled a part of the outdoor unit which concerns on embodiment. It is the top view which removed the top panel of the outdoor unit which concerns on embodiment. It is a top view of the bottom plate of the machine room of the outdoor unit which concerns on embodiment. FIG. 5 is a cross-sectional view taken along the line AA of the bottom plate of FIG. It is a conceptual diagram which shows the relationship between a compressor and a cut-up piece. It is an enlarged view of the cut-up piece and the drainage hole part of FIG. A conceptual diagram of a cut-up piece of a modified example is shown.

Hereinafter, the outdoor unit 100 of the air conditioner according to the embodiment will be described with reference to the drawings and the like. In the following drawings including FIG. 1, the relative dimensional relationships and shapes of the constituent members may differ from the actual ones. Further, in the following drawings, those having the same reference numerals are the same or equivalent thereof, and this shall be common to the entire text of the specification. In addition, terms that indicate directions (for example, "top", "bottom", "right", "left", "front", "rear", etc.) are used as appropriate for ease of understanding, but these notations are used. For convenience of explanation, it is described as such, and does not limit the arrangement and orientation of the device or component.

Embodiment.
[Refrigeration cycle device 150]
FIG. 1 is a refrigerant circuit diagram showing a configuration of a refrigeration cycle device 150 provided with an outdoor unit 100 of an air conditioner according to an embodiment. First, the refrigeration cycle device 150 provided with the outdoor unit 100 of the air conditioner will be described with reference to FIG. In FIG. 1, the arrow indicated by the dotted line indicates the direction in which the refrigerant flows in the cooling operation in the refrigerant circuit 110, and the arrow indicated by the solid line indicates the direction in which the refrigerant flows during the heating operation. .. In the present embodiment, the air conditioner is exemplified as the refrigerating cycle device 150, but the refrigerating cycle device 150 includes, for example, a refrigerator or a freezer, a vending machine, an air conditioner, a refrigerating device, a water heater, and the like. Used for applications or air conditioning applications. The illustrated refrigerant circuit 110 is an example, and the configuration of circuit elements and the like is not limited to the contents described in the embodiment, and can be appropriately changed within the scope of the technique of the present invention.

The refrigerating cycle device 150 has a refrigerant circuit 110 in which a compressor 101, a flow path switching device 102, an indoor heat exchanger 103, a decompression device 104, and an outdoor heat exchanger 105 are connected in a ring shape via a refrigerant pipe. .. The refrigeration cycle device 150 includes an outdoor unit 100 and an indoor unit 200. The outdoor unit 100 includes a compressor 101, a flow path switching device 102, an outdoor heat exchanger 105 and a decompression device 104, and an outdoor blower 108 that supplies outdoor air to the outdoor heat exchanger 105. The indoor unit 200 includes an indoor heat exchanger 103 and an indoor blower 109 that supplies air to the indoor heat exchanger 103. The outdoor unit 100 and the indoor unit 200 are connected to each other via two extension pipes 111 and an extension pipe 112 which are a part of the refrigerant pipe.

The compressor 101 is a fluid machine that compresses and discharges the sucked refrigerant. The flow path switching device 102 is, for example, a four-way valve, and is a device that switches the flow path of the refrigerant between the cooling operation and the heating operation by controlling the control device (not shown).

The indoor heat exchanger 103 is a heat exchanger that exchanges heat between the refrigerant circulating inside and the indoor air supplied by the indoor blower 109. The indoor heat exchanger 103 functions as a condenser during the heating operation and as an evaporator during the cooling operation.

The pressure reducing device 104 is, for example, an expansion valve, which is a device for reducing the pressure of the refrigerant. As the pressure reducing device 104, an electronic expansion valve whose opening degree is adjusted by the control of the control device can be used.

The outdoor heat exchanger 105 is a heat exchanger that exchanges heat between the refrigerant circulating inside and the air supplied by the outdoor blower 108. The outdoor heat exchanger 105 functions as an evaporator during the heating operation and as a condenser during the cooling operation.

[Operation of refrigeration cycle device 150]
Next, the operation of the refrigeration cycle apparatus 150 will be described with reference to FIG. During the heating operation of the refrigeration cycle device 150, the high-pressure and high-temperature gas-state refrigerant discharged from the compressor 101 flows into the indoor heat exchanger 103 via the flow path switching device 102, and is supplied by the indoor blower 109. It exchanges heat with and condenses. The condensed refrigerant becomes a high-pressure liquid state, flows out from the indoor heat exchanger 103, and becomes a low-pressure gas-liquid two-phase state by the decompression device 104. The low-pressure gas-liquid two-phase state refrigerant flows into the outdoor heat exchanger 105 and evaporates by heat exchange with the air supplied by the outdoor blower 108. The evaporated refrigerant becomes a low-pressure gas state and is sucked into the compressor 101.

During the cooling operation of the refrigerating cycle device 150, the refrigerant flowing through the refrigerant circuit 110 flows in the direction opposite to that during the heating operation. That is, during the cooling operation of the refrigerating cycle device 150, the high-pressure and high-temperature gas-state refrigerant discharged from the compressor 101 flows into the outdoor heat exchanger 105 via the flow path switching device 102 and is supplied by the outdoor blower 108. It exchanges heat with the air and condenses. The condensed refrigerant becomes a high-pressure liquid state, flows out from the outdoor heat exchanger 105, and becomes a low-pressure gas-liquid two-phase state by the decompression device 104. The low-pressure gas-liquid two-phase state refrigerant flows into the indoor heat exchanger 103 and evaporates by heat exchange with the air supplied by the indoor blower 109. The evaporated refrigerant becomes a low-pressure gas state and is sucked into the compressor 101.

[Configuration of outdoor unit 100]
FIG. 2 is a front perspective view of the outdoor unit 100 according to the embodiment. FIG. 3 is an exploded perspective view of a part of the outdoor unit 100 according to the embodiment. FIG. 4 is a top view of the outdoor unit 100 according to the embodiment with the top panel 3 removed. In FIG. 4, a part of the motor support member 14 is omitted in order to clarify the internal structure of the housing 50.

The outdoor unit 100 of the air conditioner will be described with reference to FIGS. 2 to 4. The X-axis shown in the following drawings including FIG. 2 indicates the left-right direction of the outdoor unit 100, the Y-axis indicates the front-rear direction of the outdoor unit 100, and the Z-axis indicates the vertical direction of the outdoor unit 100. More specifically, when the outdoor unit 100 is viewed from the front, the X1 side is the left side, the X2 side is the right side, the Y1 side is the front side on the Y axis, the Y2 side is the rear side, the Z1 side is the upper side on the Z axis, and the Z2 side is the lower side. The outdoor unit 100 will be described as the side. The term "viewing the outdoor unit 100 from the front" means a state in which the outdoor unit 100 is viewed from the downstream side where the air is blown out from the housing 50 in the flow direction of the air flowing in the housing 50. Further, the positional relationship between the constituent members (for example, the vertical relationship, etc.) in the specification is, in principle, the one when the outdoor unit 100 is installed in a usable state.

(Outer shell of outdoor unit 100)
As shown in FIG. 2, the outdoor unit 100 has a housing 50 configured in a substantially rectangular parallelepiped shape. The housing 50 of the outdoor unit 100 is made of sheet metal and constitutes the outer shell of the outdoor unit 100. The housing 50 of the outdoor unit 100 has an outer panel 1, a side panel 2, a top panel 3, and a bottom plate 4. A flange is provided on the upper part of the outer panel 1 and the side panel 2, and the top panel 3 is attached to the flange. Similarly, the bottom plate 4 is also provided with a flange, and the outer panel 1 and the side panel 2 are fixed to the flange by bolts or the like, and the outer panel 1 and the side panel 2 are assembled on the bottom plate 4.

The outer panel 1 is a sheet metal panel. The outer panel 1 has a shape in which the front surface portion 11, the side surface portion 12, and the back surface portion 13 are integrally formed. The front surface portion 11 constitutes a side wall portion on the front side of the housing 50, the side surface portion 12 constitutes a side wall portion on the side surface side of the housing 50, and the back surface portion 13 constitutes a side wall portion on the back surface side of the housing 50. Consists of a part of. The outer panel 1 is formed by being bent by a horizontally long front portion 11 and a vertically long side surface portion 12 so as to have an L-shape when viewed from above the outdoor unit 100, that is, from the arrangement side of the top panel 3. There is. In the outer panel 1, the front surface portion 11 and the side surface portion 12 are integrally formed, but the outer shell panel 1 is not limited to the configuration, and the outer shell panel 1 has the front surface portion 11 and the side surface portion 12. It may be composed of a plurality of sheet metal panels separately from the above.

The front portion 11 constitutes a side wall of the housing 50 on the side where air is blown out. A circular outlet 8 is formed on the front surface portion 11. The air sucked into the housing 50 from the opening 7 on the back side or the opening on the side surface side by the outdoor blower 108 is blown out of the housing 50 from the air outlet 8. Further, a rectangular fan guard 6 that covers the air outlet 8 and protects the propeller fan 108a of the outdoor blower 108 is attached to the front portion 11 of the outer panel 1. The number of members constituting the front surface portion 11 may be one or a plurality. For example, as the member constituting the front portion 11, the member covering the blower room 31 and the machine room 32, which will be described later, may be separate members.

The side surface portion 12 constitutes a side wall extending in the front-rear direction (Y-axis direction) of the housing 50. When the outdoor heat exchanger 105 arranged inside the housing 50 is arranged in the radial direction of the outdoor blower 108, such as being arranged in an L shape when viewed from above, the side surface portion 12 may have a surface portion 12. An opening is formed for taking in the outdoor air inside the housing 50. The number of members constituting the side surface portion 12 may be one or a plurality.

The back surface portion 13 constitutes a part of the back surface side of the housing 50 and covers a part of the back surface side of the outdoor heat exchanger 105. The back surface portion 13 is arranged at a position facing a part of the front surface portion 11 in the front-rear direction (Y-axis direction) of the housing 50. The outer panel 1 has a shape in which the front surface portion 11, the side surface portion 12, and the back surface portion 13 are integrally formed. The outer panel 1 is formed by being bent by the side surface portion 12 and the back surface portion 13 so as to be L-shaped when viewed from above the outdoor unit 100, that is, from the arrangement side of the top panel 3. The back surface portion 13 is formed so as to extend from the side surface portion 12 to a position covering a part of the back surface side of the outdoor heat exchanger 105. The outer panel 1 is integrally formed by bending the side surface portion 12 and the back surface portion 13, but the outer shell panel 1 is not limited to the configuration, and the side surface portion 12 and the back surface portion 13 are together. May be configured as a separate body and may be composed of a plurality of sheet metal panels. Further, the number of members constituting the back surface portion 13 may be one or a plurality.

The back surface portion 13 constitutes a part of the back surface side of the housing 50 and covers a part of the outdoor heat exchanger 105, so that an opening for exposing the outdoor heat exchanger 105 is exposed on the back surface side of the housing 50. The portion 7 is formed. More specifically, the opening 7 is formed by the respective edges of the back surface portion 13, the top surface panel 3, the side surface panel 2, and the bottom plate 4. The opening 7 is an air suction port formed in the housing 50, and air flows from the outside to the inside of the housing 50 through the opening 7 by the operation of the outdoor blower 108.

The side panel 2 is a sheet metal panel that is bent so as to have an L shape when viewed from the arrangement side of the top panel 3. The side panel 2 has a vertically long second side surface portion 2a facing the side surface portion 12 and a second back surface portion 2b facing a part of the front surface portion 11. The second side surface portion 2a constitutes a side wall portion on the side surface side of the housing 50, and the second back surface portion 2b constitutes a part of the side wall portion on the back surface side of the housing 50. The second back surface portion 2b together with the back surface portion 13 constitutes a side wall portion on the back surface side of the housing 50. Although the second back surface portion 2b and the back surface portion 13 are separately configured in the housing 50, the second back surface portion 2b and the back surface portion 13 are integrally formed on the back surface side of the housing 50. A side wall portion may be configured.

In the side panel 2, the second side surface portion 2a and the second back surface portion 2b are integrally formed, but the side surface panel 2 is not limited to the configuration, and the second side surface portion 2a and the second back surface portion 2a are formed. It may be composed of two sheet metal panels separately from 2b. Further, the second side surface portion 2a and the second back surface portion 2b may each be composed of a plurality of members. For example, the second side surface portion 2a may be formed as a member divided in the front-rear direction of the housing 50, and the front member may be integrally formed with the front surface portion 11.

The top panel 3 is a sheet metal panel that constitutes the top plate of the housing 50 and covers the upper part of the outdoor unit 100. The top panel 3 is attached to the upper edges of the outer panel 1 and the side panel 2.

The bottom plate 4 faces the top panel 3 in the housing 50 and constitutes the bottom wall of the housing 50. Inside the housing 50, at least the outdoor heat exchanger 105, the outdoor blower 108, and the compressor 101 are arranged on the bottom plate 4. An outer panel 1 and a side panel 2 are attached to the bottom plate 4, and a plurality of legs 9 are provided on the lower surface of the bottom plate 4. The legs 9 serve as a base for fixing the outdoor unit 100 to the installation location. The detailed configuration of the bottom plate 4 will be described later.

(Internal configuration of outdoor unit 100)
Next, the internal configuration of the outdoor unit 100 of the air conditioner will be described with reference to FIGS. 2 to 4. The outdoor unit 100 has a partition plate 17, an outdoor heat exchanger 105, an outdoor blower 108, a motor support member 14, and a compressor 101 inside the housing 50.

The partition plate 17 is provided inside the housing 50, and is a partition wall that separates the space inside the housing 50 of the outdoor unit 100 into the blower room 31 and the machine room 32. The partition plate 17 is a plate-shaped member, and is formed by bending a sheet metal or the like, for example. The partition plate 17 is arranged on the bottom plate 4 in the housing 50, is provided so as to extend upward (Z-axis direction) from the bottom plate 4, and extends in the front-rear direction (Y-axis direction) of the bottom plate 4. It is provided in.

The blower room 31 is a space surrounded by an outer panel 1, a top panel 3, a bottom plate 4, and a partition plate 17. The blower room 31 takes in outdoor air from the outside of the outdoor unit 100 through a suction port such as an opening 7, and discharges the air inside the outdoor unit 100 to the outside of the outdoor unit 100 through the air outlet 8. It is configured. The machine room 32 is a space surrounded by the front portion 11, the side panel 2, the top panel 3, the bottom plate 4, and the partition plate 17 of the outer panel 1.

The outdoor heat exchanger 105 and the outdoor blower 108 arranged so as to face the outdoor heat exchanger 105 are housed in the space on the blower room 31 side in the housing 50, and the machine inside the housing 50. The compressor 101 and the refrigerant pipe 16 are housed in the space on the chamber 32 side. The refrigerant pipe 16 is connected to the compressor 101 and constitutes a part of the refrigerant circuit 110.

The outdoor heat exchanger 105 exchanges heat between the refrigerant flowing inside and the outside air, and functions as an evaporator during the heating operation and as a condenser during the cooling operation. The outdoor heat exchanger 105 can be configured as, for example, a fin-and-tube heat exchanger. The outdoor heat exchanger 105 is formed in an L shape when viewed in the direction perpendicular to the bottom plate 4.

The outdoor heat exchanger 105 is arranged between the housing 50 and the outdoor blower 108. Further, a part of the outdoor heat exchanger 105 is arranged inside the outdoor unit 100 so as to face the opening 7, and is exposed to the outside through the opening 7. Although the case where the outdoor heat exchanger 105 is formed in an L shape is illustrated, the outdoor heat exchanger 105 is formed in another shape when viewed in the direction perpendicular to the bottom plate 4. It may be a thing, for example, a thing formed in an I shape, or a thing formed in a U shape.

The outdoor blower 108 creates an air circulation for efficient heat exchange in the outdoor heat exchanger 105. The outdoor blower 108 creates a negative pressure between the outdoor heat exchanger 105 and the propeller fan 108a, introduces outside air into the housing 50 from the back surface side or the side surface side of the housing 50, and introduces outside air into the housing 50 inside the outdoor unit 100. The introduced outside air is discharged from the front side of the outdoor unit 100 toward the outside of the housing 50.

The outdoor unit 100 is an outdoor unit of a two-fan type air conditioner equipped with two outdoor blowers 108 and an outdoor heat exchanger 105 so as to surround the outdoor blower 108 behind the two outdoor blowers 108. The outdoor unit 100 includes two outdoor blowers 108, but the structure of the outdoor unit 100 is not limited to the configuration. For example, one outdoor blower 108 may be provided. You may prepare for the above.

The motor support member 14 is a columnar member provided inside the housing 50 so as to extend in the vertical direction between the bottom plate 4 and the top panel 3. The outdoor blower 108 is fixed and supported by the motor support member 14. The motor support member 14 is fixed to the bottom plate 4 by fastening screws or the like.

The compressor 101 is a device that sucks in a refrigerant in a low temperature and low pressure state, compresses the sucked refrigerant into a refrigerant in a high temperature and high pressure state, and discharges the refrigerant. The compressor 101 is, for example, a rotary type, a scroll type, a vane type, or the like. The compressor 101 may be, for example, a compressor provided with an inverter capable of controlling the capacity. The compressor 101 is located in the machine room 32 separated by the partition plate 17 and the blower room 31 provided with the above-mentioned outdoor blower 108 and the outdoor heat exchanger 105, and the high-temperature refrigerant is passed through the refrigerant pipe 16 also in the machine room 32. It plays a role of discharging.

(Details of bottom plate 4)
FIG. 5 is a top view of the bottom plate 4 of the machine room 32 of the outdoor unit 100 according to the embodiment. FIG. 6 is a sectional view taken along line AA of the bottom plate 4 of FIG. The circle shown by the dotted line in FIG. 5 represents the installation position of the compressor 101. A detailed configuration of the bottom plate 4 will be described with reference to FIGS. 5 and 6.

As shown in FIGS. 5 and 6, the bottom plate 4 on the machine room 32 side has a bottom plate lower portion 4b and a bottom plate upper portion 4a constituting bottom plates having different heights in the vertical direction. The bottom plate upper portion 4a and the bottom plate lower portion 4b have a step, and the bottom plate upper portion 4a is located above the bottom plate lower portion 4b. The bottom plate lower portion 4b is located below the bottom plate upper portion 4a and is a portion formed in a concave shape with respect to the bottom plate upper portion 4a. The bottom plate 4 has an inclined portion 4c that forms an inclined surface between the bottom plate upper portion 4a and the bottom plate lower portion 4b. The inclined portion 4c forms an inclined surface inclined with respect to the vertical direction. The inclined portion 4c is formed along the edge portion of the bottom plate upper portion 4a and the edge portion of the bottom plate lower portion 4b. Since the bottom plate 4 has the inclined portion 4c, the liquid that has fallen on the bottom plate upper portion 4a is guided to the bottom plate lower portion 4b along the inclined portion 4c.

As shown in FIG. 5, in the machine room 32, the compressor 101 is arranged above the bottom plate upper portion 4a of the bottom plate 4. As shown in FIGS. 5 and 6, in the machine room 32, the bottom plate lower portion 4b of the bottom plate 4 has a drainage hole portion 40. The drainage hole portion 40 forms a through hole in the bottom plate lower portion 4b to communicate the outside and the inside of the housing 50. The drainage hole portion 40 is formed in the lower portion 4b of the bottom plate, and is formed below the refrigerant pipe 16. An outdoor unit that does not have a drain hole formed in the bottom plate of the machine room may discharge water from the machine room when water leaks into the machine room due to dew condensation water from the refrigerant piping or rainwater. Can not. Then, these liquids cause corrosion of the bottom plate or the refrigerant pipe above the bottom plate. On the other hand, in the outdoor unit 100 of the air conditioner, the machine room 32 is formed by forming a drain hole portion 40 in the housing 50 so as to communicate the outside and the inside of the housing 50 with the bottom plate 4 of the machine room 32. Liquids such as dew condensation water can be discharged from the water.

The drainage hole portion 40 is formed by cutting up the wall of the bottom plate lower portion 4b. The wall cut up from the bottom plate lower portion 4b covers a part of the upper part of the drainage hole portion 40 as a cut up piece 41. That is, the bottom plate 4 has a cut-up piece 41 cut up from the drainage hole portion 40 so as to cover a part above the drainage hole portion 40. A part of the edge portion of the cut-up piece 41 is connected to the bottom plate lower portion 4b, and the edge portion other than the portion connected to the bottom plate lower portion 4b is separated from the bottom plate lower portion 4b. The cut-up piece 41 is formed in a rectangular plate shape, one of the four sides is connected to the bottom plate lower portion 4b, and the other three sides are separated from the bottom plate lower portion 4b. The shape of the cut-up piece 41 is not limited to a rectangle. The shape of the cut-up piece 41 may be another shape such as an oval shape or another polygonal shape. The shape of the drainage hole portion 40 is formed in a rectangular shape corresponding to the shape of the cut-up piece 41. However, the shape of the drainage hole portion 40 can be formed into various shapes corresponding to the shape of the cut-up piece 41.

FIG. 7 is a conceptual diagram showing the relationship between the compressor 101 and the cut-up piece 41. FIG. 8 is an enlarged view of the cut-up piece 41 and the drainage hole portion 40 of FIG. 7. The solid arrow SD shown in FIG. 7 indicates the direction in which the sound emitted from the compressor 101 is directed, and the dotted arrow FL indicates the flow of the liquid drained from the bottom plate 4 to the outside of the housing 50. It was done.

As shown in FIGS. 7 and 8, the cut-up piece 41 is formed in a state of rising from the edge portion of the drainage hole portion 40. The cut-up piece 41 is inclined with respect to the plate surface of the bottom plate 4. The cut-up piece 41 is formed so as to face the compressor 101. More specifically, the upper surface portion 41a side of the cut-up piece 41 is cut up so as to face the compressor 101. Before the cut-up piece 41 is cut up from the bottom plate 4, the upper surface portion 41a is the surface of the bottom plate 4 on the machine room 32 side, and the lower surface portion 41b, which is the opposite surface of the upper surface portion 41a, is the casing of the bottom plate 4. The outer surface of the body 50.

Generally, a compressor is arranged in the machine room, and if a hole is made in the bottom plate for drainage, the noise of the compressor may leak to the outside through the hole for drainage. On the other hand, in the outdoor unit 100 of the air conditioner, the cut-up piece 41 is formed so as to face the compressor 101. The cut-up piece 41 is arranged between the compressor 101 and the drain hole portion 40. That is, the outdoor unit 100 is provided with a cut-up piece 41 covering the drain hole portion 40 in the bottom plate lower portion 4b of the bottom plate 4 in a direction of blocking the sound emitted from the compressor 101 which is a noise source. The cut-up piece 41 reflects the sound emitted from the compressor 101, as shown by the solid arrow SD in FIG. Therefore, the outdoor unit 100 of the air conditioner suppresses the sound emitted from the compressor 101 from leaking directly from the inside of the housing 50 to the outside through the drain hole portion 40 by the cut-up piece 41.

Further, in the outdoor unit 100 of the air conditioner, the sound absorbing material 45 is arranged on the upper surface portion 41a of the cut-up piece 41 facing the compressor 101. The sound absorbing material 45 is attached to the upper surface portion 41a of the cut-up piece 41. The sound absorbing material 45 is formed of, for example, a porous material. However, the sound absorbing material 45 is not limited to the porous material, and a well-known material used for sound absorbing can be used. As shown in FIGS. 7 and 8, the outdoor unit 100 of the air conditioner is provided with a flat plate-shaped cut-up piece 41 inclined with respect to the bottom plate 4, and a sound absorbing material 45 is attached to the upper surface portion 41a thereof.

FIG. 9 shows a conceptual diagram of the cut-up piece 41 of the modified example. The cut-up piece 41 of the modified example is bent at the side wall portion 42a in a state of rising from the edge portion of the drainage hole portion 40 and the tip of the side wall portion 42a, and is an upper wall covering the drainage hole portion 40 above the drainage hole portion 40. It has a portion 42b. The side wall portion 42a is formed so as to stand up from the bottom plate 4. The upper wall portion 42b is integrally formed with the side wall portion 42a and is arranged above the drainage hole portion 40. In the cut-up piece 41, the sound absorbing material 45 is arranged on the surface of the side wall portion 42a and the upper wall portion 42b on the machine room 32 side. That is, as shown in FIG. 9, the cut-up piece 41 of the modified example has the side wall portion 42a and the upper wall portion 42b, so that a part of the drainage hole portion 40 is projected from the inside of the housing 50. A sound absorbing material 45 is attached on the cover. The cut-up piece 41 of the modified example is more difficult to process than being formed into a flat plate shape, but the cut-up piece 41 can cover the upper part of the drainage hole portion 40 more than the cut-up piece 41 is formed into a flat plate shape, and the cut-up piece 41 can be covered. Sound insulation can be improved as compared with the case where 41 is formed in a flat plate shape.

[Operation of outdoor unit 100]
In the driving state of the outdoor unit 100, the outdoor blower 108 is driven in order to improve the efficiency of heat exchange between the refrigerant flowing in the outdoor heat exchanger 105 and the outdoor air. The outdoor blower 108 creates a negative pressure between the outdoor heat exchanger 105 and the propeller fan 108a, and introduces outside air into the housing 50 from the back surface side or the side surface side of the housing 50. Then, the outdoor blower 108 uses the air introduced inside the housing 50 for heat exchange as blown air from the outlet 8 formed on the front side (Y1 side) of the housing 50 to the outside of the housing 50. Discharge toward. At this time, the air flowing into the housing 50 exchanges heat with the refrigerant flowing inside the outdoor heat exchanger 105.

[Action and effect of outdoor unit 100]
The outdoor unit 100 of the air conditioner is a machine room 32 in which a drain hole portion 40 for communicating the inside and the outside of the housing 50 is formed in the bottom plate 4, so that dew condensation water, rainwater, or the like is machined. Water can be drained from the room 32 to the outside of the housing 50. Further, in the machine room 32, the bottom plate 4 has a cut-up piece 41 cut up from the drainage hole portion 40 so as to cover a part above the drainage hole portion 40, and the cut-up piece 41 is a cut-up piece 41. It is formed so as to face the compressor 101. The outdoor unit 100 can cover a part of the upper part of the drain hole portion 40 and reflect the sound emitted from the compressor 101 by the cut-up piece 41 facing the compressor 101. Therefore, even if the drain hole portion 40 is formed in the machine room 32, the outdoor unit 100 can suppress the noise generated from the compressor 101 from leaking to the outside of the housing 50 through the drain hole portion 40. ..

Further, in the outdoor unit 100 of the air conditioner, in the machine room 32, the bottom plate 4 is formed with a drain hole portion 40 for communicating the inside and the outside of the housing 50, so that dew condensation water, rainwater, etc. Can be drained from the machine room 32 to the outside of the housing 50. Generally, if water collects in the machine room, the bottom plate or piping may be corroded. The outdoor unit 100 of the air conditioner can drain dew condensation water, rainwater, or the like from the machine room 32 to the outside of the housing 50 by forming the drain hole portion 40. Therefore, the outdoor unit 100 of the air conditioner can suppress the corrosion of the bottom plate 4, the refrigerant pipe 16, and the like.

Further, the drainage hole portion 40 is formed in the bottom plate lower portion 4b located below the bottom plate upper portion 4a. Therefore, the outdoor unit 100 can easily drain the liquid collected under the housing 50. Further, the step formed by the bottom plate upper portion 4a and the bottom plate lower portion 4b prevents the sound emitted from the compressor 101 from directly heading toward the drain hole portion 40. Therefore, the outdoor unit 100 can suppress the noise generated from the compressor 101 from leaking to the outside of the housing 50 through the drain hole portion 40.

Further, the bottom plate 4 has an inclined portion 4c inclined with respect to the vertical direction between the bottom plate lower portion 4b and the bottom plate upper portion 4a. Therefore, the outdoor unit 100 can easily collect the liquid in the machine room 32 in the bottom plate lower portion 4b where the drain hole portion 40 is formed by utilizing the slope of the inclined portion 4c.

Further, the cut-up piece 41 is inclined with respect to the plate surface of the bottom plate 4. Therefore, the outdoor unit 100 can drain the liquid from the lower surface portion 41b side of the cut-up piece 41 through the drain hole portion 40, and the sound emitted by the compressor 101 is reflected on the upper surface portion 41a side of the cut-up piece 41. can do.

Further, the cut-up piece 41 has a side wall portion 42a in a state of rising from the bottom plate 4, and an upper wall portion 42b formed integrally with the side wall portion 42a and arranged above the drainage hole portion 40. The outdoor unit 100 having this configuration can cover the upper part of the drainage hole portion 40 rather than the cut-up piece 41 being formed in a flat plate shape, and has better sound insulation than the cut-up piece 41 formed in a flat plate shape. Can be improved.

Further, in the cut-up piece 41, the sound absorbing material 45 is arranged on the surface facing the compressor 101. In the outdoor unit 100 of the air conditioner, since the sound absorbing material 45 is arranged on the surface of the cut-up piece 41 on the sound source side, the machine room 32 to the housing 50 are more efficient than the case where the sound absorbing material 45 is not used. Sound leaking to the outside can be suppressed.

Further, in the cut-up piece 41, the sound absorbing material 45 is arranged on the surface of the side wall portion 42a and the upper wall portion 42b on the machine room 32 side. The outdoor unit 100 having this configuration can cover the upper part of the drainage hole portion 40 rather than the cut-up piece 41 being formed in a flat plate shape, and has better sound insulation than the cut-up piece 41 formed in a flat plate shape. Can be improved. Further, in the outdoor unit 100 of the air conditioner, since the sound absorbing material 45 is arranged on the surface of the cut-up piece 41 on the sound source side, the housing from the machine room 32 is more efficient than the case where the sound absorbing material 45 is not used. It is possible to suppress the sound leaking to the outside of the 50.

Further, the drain hole portion 40 is formed below the refrigerant pipe 16 connected to the compressor 101. Therefore, the outdoor unit 100 can easily drain the dew condensation water generated from the refrigerant pipe 16.

[Action and effect of refrigeration cycle device 150]
The refrigeration cycle device 150 described above includes the outdoor unit 100 of the air conditioner according to the embodiment. Therefore, in the refrigerating cycle device 150, the same effect as that of the outdoor unit 100 of the air conditioner according to the embodiment can be obtained.

The configuration shown in the above embodiments is an example, and can be combined with another known technique, and a part of the configuration is omitted or modified without departing from the gist of the present invention. It is also possible to do. For example, in the outdoor unit 100 of the air conditioner according to the embodiment, one drain hole portion 40 is formed in the bottom plate 4, but a plurality of drain hole portions 40 may be formed in the bottom plate 4. Similarly, in the outdoor unit 100 of the air conditioner according to the embodiment, one cut-up piece 41 is formed on the bottom plate 4, but a plurality of cut-up pieces 41 may be formed on the bottom plate 4.

1 Outer panel, 2 Side panel, 2a 2nd side surface, 2b 2nd back, 3 Top panel, 4 Bottom plate, 4a Bottom plate top, 4b Bottom plate bottom, 4c Inclined part, 6 Fan guard, 7 Opening, 8 blow Outlet, 9 legs, 11 front, 12 side, 13 back, 14 motor support, 16 refrigerant piping, 17 divider, 31 blower room, 32 machine room, 40 drain hole, 41 cut-up piece, 41a Top surface, 41b bottom surface, 42a side wall, 42b upper wall, 45 sound absorbing material, 50 housing, 100 outdoor unit, 101 compressor, 102 flow path switching device, 103 indoor heat exchanger, 104 decompression device, 105 outdoor Heat exchanger, 108 outdoor blower, 108a propeller fan, 109 indoor blower, 110 refrigerant circuit, 111 extension piping, 112 extension piping, 150 refrigeration cycle device, 200 indoor unit.

Claims (8)

A housing that has a bottom plate on which a heat exchanger, a blower, and a compressor are arranged, and constitutes an outer shell of the outdoor unit.
A partition plate provided inside the housing and separating the space inside the housing into a blower room for accommodating the heat exchanger and the blower and a machine room for accommodating the compressor.
Equipped with
In the machine room, the bottom plate is formed with a drainage hole portion for communicating the inside and the outside of the housing, and the bottom plate covers a part above the drainage hole portion. It has a cut-up piece cut up from the drainage hole,
The cut-up piece is
An outdoor unit of an air conditioner formed so as to face the compressor. The bottom plate is
It has a bottom plate lower portion and a bottom plate upper portion that form bottom surfaces having different heights in the vertical direction.
The drainage hole is
The outdoor unit of the air conditioner according to claim 1, which is formed in the lower part of the bottom plate located below the upper part of the bottom plate. The bottom plate is
The outdoor unit of the air conditioner according to claim 2, which has an inclined portion inclined with respect to the vertical direction between the lower portion of the bottom plate and the upper portion of the bottom plate. The cut-up piece is
The outdoor unit of the air conditioner according to any one of claims 1 to 3, which is inclined with respect to the plate surface of the bottom plate. The cut-up piece is
The side wall portion that stands up from the bottom plate and
An upper wall portion that is integrally formed with the side wall portion and is arranged above the drainage hole portion,
The outdoor unit of the air conditioner according to any one of claims 1 to 4. The cut-up piece is
The outdoor unit of an air conditioner according to any one of claims 1 to 5, wherein a sound absorbing material is arranged on a surface facing the compressor. The cut-up piece is
The outdoor unit of the air conditioner according to claim 5, wherein the sound absorbing material is arranged on the side wall portion and the surface of the upper wall portion on the machine room side. The drainage hole is
The outdoor unit of the air conditioner according to any one of claims 1 to 7, which is formed below the refrigerant pipe connected to the compressor.

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