JP7301132B2 - outdoor unit of air conditioner - Google Patents

Description

The present invention relates to an outdoor unit for an air conditioner.

2. Description of the Related Art Conventionally, an outdoor unit of an air conditioner has a housing that forms an outer shell of the outdoor unit and a heat exchanger that is arranged inside the housing. In the outdoor unit of a conventional air conditioner, when assembled, the housing and the heat exchanger are arranged at approximately the same height, and the upper side of the heat exchanger is covered with a top panel or the like. (See Patent Document 1, for example).

Japanese Patent Application Laid-Open No. 2001-065926

In a conventional air conditioner outdoor unit, the height of the heat exchanger and the height of the housing are in a correlative relationship. For example, in a conventional outdoor unit of an air conditioner, when there is a surplus of heat exchange capacity with respect to the required heat exchange capacity, the height of the heat exchanger is lowered and the heat exchanger is The outdoor unit has a low housing that matches the height of the outdoor unit. Conversely, in the outdoor unit of a conventional air conditioner, if the amount of heat that can be exchanged is insufficient for the required amount of heat exchange, the height of the heat exchanger is increased and the heat An outdoor unit with a high housing that matches the height of the exchanger is used.

However, even if there is a surplus heat exchange amount with respect to the required heat exchange amount, the conventional outdoor unit of the air conditioner can be It may not be possible to keep the height of the body low. In such a case, the outdoor unit of a conventional air conditioner is a heat exchanger capable of exchanging the required amount of heat even though there is a surplus of the amount of heat exchanged relative to the required amount of heat exchanged. A tall heat exchanger with a surplus of heat exchange is used according to the height of the housing. Therefore, the height of the heat exchanger is restricted according to the height of the housing, and the outdoor unit of the air conditioner equipped with such a heat exchanger has a required heat exchange amount and heat exchangeable heat. A difference occurs between the exchange amount and the efficiency becomes poor.

The present invention solves the above problems, and the amount of heat exchange required even in an outdoor unit of an air conditioner whose housing height is restricted due to the component configuration of the machine room, etc. , and an outdoor unit of an air conditioner in which the difference between the amount of heat that can be exchanged and the amount of heat that can be exchanged is suppressed.

An outdoor unit of an air conditioner of the present invention has a housing in which an air inlet for inflow of air is formed, a plurality of fins arranged at intervals from each other, and a heat exchanger arranged inside the air inlet. The heat exchanger is arranged inside the suction port in the housing and between the heat exchanger and the top panel of the housing, and constitutes a wall between the heat exchanger and the top panel. a blocking member for preventing passage of air into the housing, wherein the blocking member is placed on the heat exchanger and is in contact with the top panel , and the blocking member is in contact with the top panel. It has a top wall portion facing each other, and the top wall portion abuts on the top panel and has a top panel receiving portion that protrudes from the top wall portion and receives a load from the top panel side.

The outdoor unit of the air conditioner of the present invention is arranged inside the suction port in the housing, and is arranged between the heat exchanger and the top panel of the housing. It has a blocking member that constitutes a wall between the panel and prevents passage of air into the housing, and the blocking member is placed on the heat exchanger and is in contact with the top panel. . Since the outdoor unit has a covering member arranged between the heat exchanger and the top panel of the housing, the height of the heat exchanger is set higher than the height of the housing according to the amount of heat exchange required. can be lowered. As a result, even if the height of the housing of the outdoor unit is restricted by the component configuration of the machine room, etc., there is no need to increase the height of the heat exchanger to match the height of the housing. It is possible to suppress the difference between the heat exchange amount that can be exchanged and the heat exchange amount that can be exchanged.

1 is a front side perspective view of an outdoor unit according to Embodiment 1. FIG. Fig. 2 is a rear side perspective view of the outdoor unit according to Embodiment 1; Fig. 2 is a rear view of the outdoor unit according to Embodiment 1; Fig. 2 is an exploded perspective view of a part of the outdoor unit according to Embodiment 1; 2 is a perspective view of the interior of the outdoor unit according to Embodiment 1. FIG. Fig. 2 is a top view of the outdoor unit according to Embodiment 1 with the top panel removed; FIG. 4 is an exploded perspective view of the covering member of the outdoor unit according to Embodiment 1; FIG. 8 is an enlarged view of the A portion of the back covering member shown in FIG. 7; FIG. 4 is a perspective view of the covering member according to Embodiment 1 as seen from the rear side; FIG. 10 is an exploded perspective view of a back covering member and a side covering member that constitute the covering member shown in FIG. 9; 4 is a perspective view of a side surface blocking member on the side facing the partition plate in the housing of the outdoor unit according to Embodiment 1. FIG. FIG. 10 is a cross-sectional view showing a connection state between a back covering member and a side covering member at a portion C shown in FIG. 9; FIG. 10 is a cross-sectional view showing a connection state between the back covering member and the side covering member at D section shown in FIG. 9 ; FIG. 11 is an enlarged perspective view of the upper part of the front side of the back blocking member; FIG. 11 is an enlarged perspective view of the upper part of the back surface side of the back covering member; FIG. 4 is an enlarged perspective view of the upper part of the front side of the side blocking member; FIG. 11 is an enlarged perspective view of the upper part of the back side of the side blocking member; FIG. 11 is an enlarged perspective view of the upper portion of the front side of the blocking member; FIG. 11 is an enlarged perspective view of the upper portion of the back side of the blocking member; FIG. 8 is a perspective view of the back covering member shown in FIG. 7 as seen from below; 21 is an enlarged perspective view of the holding portion shown in FIG. 20; FIG. FIG. 4 is a schematic cross-sectional view of the back covering member taken along the line EE shown in FIG. 3; FIG. 4 is a schematic cross-sectional view of the back covering member taken along line FF shown in FIG. 3; FIG. 21 is a bottom view of the lower back wall portion constituting the back covering member viewed from the direction of the white arrow G shown in FIG. 20; Fig. 3 is a perspective view of the covering member of the outdoor unit according to Embodiment 1 as seen from the lower front side; Fig. 3 is a perspective view of the covering member of the outdoor unit according to Embodiment 1 as seen from the front side; FIG. 4 is an enlarged view showing a mounting state of an outside air temperature sensor arranged on the heat exchanger of the outdoor unit according to Embodiment 1; FIG. 4 is a perspective view of a lead wire guide provided in the covering member of the outdoor unit according to Embodiment 1; 29 is a side view of the lead wire guide shown in FIG. 28; FIG. FIG. 4 is a schematic cross-sectional view of the outdoor unit taken along line FF shown in FIG. 3; 31 is an enlarged view showing the relationship between the rear side closing member and the top panel in the H portion shown in FIG. 30; FIG. FIG. 4 is an enlarged view of the outdoor unit according to Embodiment 1, showing how the back covering member is attached to the heat exchanger. 4 is an enlarged view showing a mounting state of a covering member and a heat exchanger in the outdoor unit according to Embodiment 1. FIG. FIG. 11 is a perspective view of an assembled state of the covering member of the outdoor unit according to Embodiment 2; FIG. 11 is a perspective view of the covering member of the outdoor unit according to Embodiment 2 in an unfolded state;

Hereinafter, the outdoor unit 100 of the air conditioner according to each embodiment will be described in detail with reference to the drawings. In the drawings below, the size relationship of each component may differ from the actual size. Moreover, in the following drawings, the same reference numerals denote the same or corresponding parts, and this applies throughout the specification. Furthermore, the forms of the components shown in the entire specification are merely examples, and are not limited to these descriptions. Also, terms representing directions or positions (for example, "up", "down", "right", "left", "front", "back", etc.) are used as appropriate to facilitate understanding. However, these notations are only described as such for convenience of explanation, and do not limit the arrangement and orientation of the device or parts.

Embodiment 1.
[Configuration of outdoor unit 100]
FIG. 1 is a front perspective view of an outdoor unit 100 according to Embodiment 1. FIG. FIG. 2 is a rear perspective view of the outdoor unit 100 according to Embodiment 1. FIG. 3 is a rear view of the outdoor unit 100 according to Embodiment 1. FIG. An outdoor unit 100 of an air conditioner will be described with reference to FIGS. 1 to 3. FIG. In the following drawings including FIG. 1, the X-axis indicates the horizontal 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, and the Z1 side is the upper side and the Z2 side is the lower side on the Z axis. The outdoor unit 100 will be described as the side. In addition, when the outdoor unit 100 is viewed from the front, it means the state when 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 inside the housing 50 . Further, in principle, the positional relationship (for example, vertical relationship, etc.) between constituent members in the specification is for when the outdoor unit 100 is installed in a usable state.

[Outer shell of outdoor unit 100]
The outdoor unit 100 has a housing 50 configured in a substantially rectangular parallelepiped shape, as shown in FIG. 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 is formed with a rear opening 7 and a side opening 1a serving as a suction port 51 into which air flows. A housing 50 of the outdoor unit 100 has an outer panel 1 , a side panel 2 , a top panel 3 and a base 4 . Flanges are provided on the upper parts of the outer panel 1 and the side panels 2, and the top panel 3 is attached to the flanges. Similarly, the base 4 is also provided with a flange, and the outer panel 1 and the side panel 2 are fixed to this flange with bolts or the like, and the outer panel 1 and the side panel 2 are assembled on the base 4 .

The outer panel 1 is a sheet metal panel. The outer panel 1 has a front portion 11, a side portion 12, and a rear portion 13 integrally formed. The front portion 11 constitutes a side wall portion on the front side of the housing 50, the side portion 12 constitutes a side wall portion on the side side of the housing 50, and the rear portion 13 constitutes a side wall portion on the rear side of the housing 50. form part of The outer panel 1 is formed by bending a horizontally long front portion 11 and a vertically long side portion 12 into an L shape when viewed from above the outdoor unit 100, that is, from the side where the top panel 3 is arranged. there is Although the outer panel 1 has a front portion 11 and a side portion 12 integrally formed, the outer panel 1 is not limited to this configuration. may be configured with a plurality of sheet metal panels as separate bodies.

The front part 11 constitutes a side wall of the housing 50 on the side from which air is blown. A circular outlet 8 is formed in the front portion 11 . The air sucked into the housing 50 by the blower 5 through the rear opening 7 and the side opening 1 a described later is blown out of the housing 50 through the air outlet 8 . A fan guard 6 is attached to the front portion 11 of the outer panel 1 to cover the outlet 8 and protect a propeller fan 5b of the blower 5, which will be described later.

The side portion 12 constitutes a side wall extending in the front-rear direction (Y-axis direction) of the housing 50 . As shown in FIG. 2, the side surface portion 12 is formed with a side opening portion 1a. The side opening 1 a is an air suction port 51 for taking outdoor air into the interior of the outdoor unit 100 . A plurality of side openings 1a are formed in the side surface portion 12 in the vertical direction. In addition, the number of the side openings 1a formed in the side surface portion 12 may be one or plural. The side opening 1 a is an air suction port 51 formed in the housing 50 , and air flows into the housing 50 from the outside by the operation of the blower 5 . The side portion 12 is arranged at a position facing a partition plate 17 to be described later with the heat exchanger 10 therebetween, and constitutes a side wall portion of the blower chamber 31 located on the opposite side of the partition plate 17. there is

The back portion 13 constitutes part of the back side of the housing 50 and covers part of the back side of the heat exchanger 10 . The rear portion 13 is arranged at a position facing a portion of the front portion 11 in the front-rear direction (Y-axis direction) of the housing 50 . As described above, the outer panel 1 has the front portion 11, the side portions 12, and the rear portion 13 integrally formed. The outer panel 1 is formed by bending the side portion 12 and the rear portion 13 so as to form an L shape when viewed from above the outdoor unit 100, that is, from the side where the top panel 3 is arranged. Back portion 13 is formed to extend from side portion 12 to a position covering a portion of the back side of heat exchanger 10 . Although the outer panel 1 is integrally formed by bending the side surface portion 12 and the rear surface portion 13, the outer surface panel 1 is not limited to this configuration, and the side surface portion 12 and the rear surface portion 13 are formed. may be made up of a plurality of sheet metal panels separately.

The rear part 13 constitutes a part of the rear side of the housing 50 and covers a part of the heat exchanger 10, so that a rear opening for exposing the heat exchanger 10 is formed on the rear side of the housing 50. 7 is formed. More specifically, the rear opening 7 is formed by respective edges of the rear portion 13 , top panel 3 , side panel 2 and base 4 . The rear opening 7 is an air suction port 51 formed in the housing 50 , and air flows into the housing 50 from the outside through the rear opening 7 by the operation of the blower 5 .

The side panel 2 is a sheet metal panel that is bent into an L shape when viewed from the side where the top panel 3 is arranged. The side panel 2 has a vertically long second side portion 2 a facing the side portion 12 and a second rear portion 2 b facing a portion of the front portion 11 . The second side surface portion 2 a constitutes a side wall portion of the housing 50 , and the second rear surface portion 2 b constitutes a part of the rear side wall portion of the housing 50 . The second rear surface portion 2 b constitutes a side wall portion on the rear surface side of the housing 50 together with the rear surface portion 13 . The housing 50 has the second rear surface portion 2b and the rear surface portion 13, which are formed separately. A sidewall may be configured.

The second side surface 2a is formed with a plurality of openings (not shown) through which a plug connected to an external power source and refrigerant pipes are led. In addition, although the side panel 2 has the second side portion 2a and the second rear portion 2b integrally formed, the side panel 2 is not limited to this configuration, and the second side portion 2a and the second rear portion 2b are integrally formed. A plurality of sheet metal panels may be provided separately from the back surface portion 2b.

The top panel 3 constitutes the top plate of the housing 50 and is a sheet metal panel that 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 base 4 faces the top panel 3 in the housing 50 and constitutes the bottom plate of the housing 50 . An outer panel 1 and side panels 2 are attached to the base 4, and a plurality of legs 4a are provided on the lower surface of the base 4. As shown in FIG. The leg portion 4a serves as a base for fixing the outdoor unit 100 to the installation location.

[Internal configuration of the outdoor unit 100]
FIG. 4 is a partially exploded perspective view of the outdoor unit 100 according to Embodiment 1. FIG. FIG. 5 is a perspective view of the inside of the outdoor unit 100 according to Embodiment 1. FIG. FIG. 6 is a top view of the outdoor unit 100 according to Embodiment 1 with the top panel 3 removed. 4 and 6, some components such as the blower 5 or the compressor 15 are omitted in order to clarify the configuration of the blocking member 9. As shown in FIG. Next, the internal configuration of the outdoor unit 100 of the air conditioner will be described with reference to FIGS. 4 to 6. FIG. The outdoor unit 100 has a partition plate 17, a heat exchanger 10, a blower 5, a motor support member 14, a compressor 15, an outside air temperature sensor 20, and a closing member 9 inside a housing 50. .

(Partition plate 17)
The partition plate 17 is a partition wall that is provided inside the housing 50 and separates the space inside the housing 50 of the outdoor unit 100 into the fan room 31 and the machine room 32 . The partition plate 17 is a plate-shaped member, and is formed, for example, by bending a sheet metal or the like. The partition plate 17 is arranged on the base 4 in the housing 50 and is provided so as to extend upward from the base 4 (the Z-axis direction) and to extend in the front-rear direction of the base 4 (the Y-axis direction). is provided in An electric component box (not shown) is attached to the partition plate 17 .

The blower room 31 is a space surrounded by the outer panel 1 , the top panel 3 , the base 4 and the partition plate 17 . The blower room 31 takes in outdoor air from the outside of the outdoor unit 100 through the suction ports 51 such as the rear opening 7 and the side opening 1a, and the air inside the outdoor unit 100 is supplied to the outdoor unit 100 through the blowout port 8. It is configured so that it can be discharged to the outside of the The machine room 32 is a space surrounded by the front portion 11 of the outer panel 1, the side panel 2, the top panel 3, the base 4, and the partition plate 17, and prevents dust or water from entering from the outside of the outdoor unit 100. It has a structure that can be avoided. The heat exchanger 10 and the blower 5 arranged to face the heat exchanger 10 are housed in the space on the blower room 31 side in the housing 50 , and the space on the machine room 32 side in the housing 50 is accommodated. A compressor 15 and a refrigerant pipe 16 are accommodated in the space of . The heat exchanger 10 and compressor 15 are installed on the base 4 . Also, the refrigerant pipe 16 connects the constituent elements that constitute the refrigeration cycle circuit.

(Heat exchanger 10)
The heat exchanger 10 exchanges heat between the refrigerant flowing inside and the outside air, and functions as an evaporator during heating operation and as a condenser during cooling operation. The heat exchanger 10 has a side area 10e, a back area 10f, and a curved area 10g. formed into a shape.

The heat exchanger 10 is arranged between the housing 50 and the blower 5 . In addition, as shown in FIG. 2, the heat exchanger 10 is disposed inside the outdoor unit 100 so that the rear region 10f faces the rear opening 7, and the rear region 10f faces the outside through the rear opening 7. exposed to Further, as shown in FIG. 2, the heat exchanger 10 is arranged inside the outdoor unit 100 so that the side area 10e faces the side opening 1a, and the side area 10e is exposed to the outside through the side opening 1a. exposed to That is, the heat exchanger 10 is arranged inside the suction port 51 and is arranged inside the housing 50 in a state of being exposed to the outside through the suction port 51 . 1 to 6 illustrate the case where the heat exchanger 10 is formed in an L shape. It may be formed in a U-shape having a curved surface region 10g and a side surface region 10e. Alternatively, the heat exchanger 10 is composed only of the rear region 10f, and is I-shaped so as to extend in the longitudinal direction (X-axis direction) of the housing 50 when viewed in the direction perpendicular to the base 4. It may be formed in

The heat exchanger 10 can be configured, for example, as a fin-and-tube heat exchanger, and as shown in FIG. and a plurality of fins 10a for enlarging the thermal area. The heat exchanger 10 has a plurality of spaced-apart strip-shaped fins 10a arranged in parallel in the horizontal direction at right angles to the rear opening 7 and the side opening 1a. The heat transfer tube 10c penetrates the plurality of fins 10a. The refrigerant passes through the heat transfer tubes 10c, and the refrigerant passing through the heat transfer tubes 10c radiates heat, or the refrigerant passing through the heat transfer tubes 10c absorbs heat, whereby the cooling operation or heating operation of the air conditioner is performed.

(Blower 5)
The blower 5 is arranged inside the housing 50 and forms an air flow passing through the housing 50 through the side opening 1 a and the rear opening 7 . The blower 5, as shown in FIG. 5, is an air blowing means having a motor 5a and a propeller fan 5b, and generates air circulation for efficiently performing heat exchange in the heat exchanger 10. FIG. As shown in FIG. 5 , the blower 5 is arranged in the housing 50 in front of the back surface area 10 f (Y1 side) that constitutes the heat exchanger 10 . Further, as shown in FIG. 5 , the blower 5 is arranged in the housing 50 on the side (X2 side) of the side surface region 10 e that constitutes the heat exchanger 10 . The blower 5 is fixed to the motor support member 14 by attaching the motor 5 a to the motor support member 14 . The air blower 5 creates a negative pressure between the heat exchanger 10 and the propeller fan 5b, introduces outside air into the interior of the housing 50 from the back side (Y2 side) of the housing 50, and introduces it into the outdoor unit 100. The outside air is discharged from the front side (Y1 side) of the outdoor unit 100 toward the outside of the housing 50 . In addition, the air blower 5 creates a negative pressure between the heat exchanger 10 and the propeller fan 5b, introduces the outside air into the housing 50 from the side surface side (X1 side) of the housing 50, and the inside of the outdoor unit 100 The outside air introduced into is discharged from the front side (Y1 side) of the outdoor unit 100 toward the outside of the housing 50 .

(Motor support member 14)
The motor support member 14 is a columnar member provided to extend in the vertical direction (Z-axis direction) between the base 4 and the top panel 3 inside the housing 50 . The motor support member 14 is fixed to the base 4 by screw fastening or the like. The motor support member 14 supports and is fixed to the motor 5a of the blower 5 in a substantially central portion in the vertical direction (Z-axis direction).

(compressor 15)
The compressor 15 is a device that draws in low-temperature, low-pressure refrigerant, compresses the drawn-in refrigerant, and discharges it as high-temperature, high-pressure refrigerant. The compressor 15 is, for example, a rotary compressor, a scroll compressor, or a vane compressor. Compressor 15 may be, for example, a compressor with an inverter whose capacity can be controlled.

(Outside air temperature sensor 20)
The outdoor temperature sensor 20 is a device that detects the outdoor ambient temperature. The outside air temperature sensor 20 may be composed of, for example, a thermistor. The outside air temperature sensor 20 is mounted on the heat exchanger 10 and arranged above the curved surface region 10g. The curved surface region 10g is a portion of the heat exchanger 10 that is bent in an L shape. Note that the outside air temperature sensor 20 is not necessarily a necessary component. The outdoor unit 100 desirably has the outside air temperature sensor 20, but does not have to have the outside air temperature sensor 20. FIG.

(Blocking member 9)
The closing member 9 is a member that fills the space between the heat exchanger 10 and the top panel 3 of the housing 50 . The blocking member 9 is arranged inside the suction port 51 in the housing 50 . In the housing 50, the blocking member 9 is exposed to the outside through the rear opening 7 and the side opening 1a, which are the suction ports 51, between the heat exchanger 10 and the top panel 3 of the housing 50. , and constitutes a wall between the heat exchanger 10 and the top panel 3 to prevent passage of air into the housing 50 . The closing member 9 constitutes a side wall between the heat exchanger 10 and the top panel 3 in the housing 50 . The blocking member 9 constitutes a side wall extending in the left-right direction (X-axis direction) of the housing 50 and in the front-rear direction (Y-axis direction) of the housing 50 . The side wall formed by the closing member 9 is arranged on the rear side of the outdoor unit 100 and the side side opposite to the machine room 32 . The blocking member 9 is arranged above the heat exchanger 10, as shown in FIGS. More specifically, the blocking member 9 is placed on the heat exchanger 10 . The blocking member 9 is arranged on the heat exchanger 10 and fixed so as to be pressed by the motor support member 14 . The heat exchanger 10 and the top panel 3 of the outdoor unit 100 are connected via the closing member 9 . The closing member 9 is mounted on the heat exchanger 10 and arranged in contact with the top panel 3 .

As shown in FIG. 2, the blocking member 9 is exposed to the outside through the rear opening 7 when viewed from the rear side of the outdoor unit 100, and is arranged so as to partially block the rear opening 7. there is That is, the blocking member 9 is arranged inside the rear opening 7 which is the suction port 51 in the housing 50 . Similarly, when viewed from the side of the outdoor unit 100, the blocking member 9 is exposed to the outside through some of the plurality of side openings 1a. It is arranged so as to close the opening 1a. That is, when the term "side opening 1a" is used as a generic term for the plurality of side openings 1a, the blocking member 9 is exposed to the outside through the side opening 1a, It is arranged so as to block a part of it. The blocking member 9 is arranged inside the side opening 1 a that is the suction port 51 in the housing 50 .

The main material of the blocking member 9 is resin. Examples of resins include PP (polypropylene) and ABS (acrylonitrile, butadiene, styrene), but are not limited to these resins. Further, the main material of the blocking member 9 is not limited to resin. The closing member 9 may be made of other material such as metal.

As shown in FIGS. 3 to 6, the closing member 9 is L-shaped when viewed in the direction perpendicular to the base 4. As shown in FIGS. The closing member 9 is a member that fills the space between the heat exchanger 10 and the top panel 3 of the housing 50 as described above. Therefore, the shape of the closing member 9 seen from the arrangement side of the top panel 3 is formed along the shape of the heat exchanger 10 seen from the arrangement side of the top panel 3 . Therefore, for example, if the shape of the heat exchanger 10 seen from the arrangement side of the top panel 3 is an I-shape extending in the longitudinal direction (X-axis direction), the blocking member 9 seen from the arrangement side of the top panel 3 is also an I-shape extending in the longitudinal direction (X-axis direction). Alternatively, if the shape of the heat exchanger 10 seen from the arrangement side of the top panel 3 is U-shaped, the shape of the closing member 9 seen from the arrangement side of the top panel 3 is also U-shaped. The closing member 9 is formed in the same shape as the heat exchanger 10 when viewed in a direction perpendicular to the base 4 of the housing 50 in which the heat exchanger 10 is arranged. It is arranged so as to cover the upper surface.

The size of the blocking member 9 in the longitudinal direction (X-axis direction) and the lateral direction (Y-axis direction) of the outdoor unit 100 is It is approximately the same size as the heat exchanger 10 . The size of the covering member 9 in the vertical direction (Z-axis direction) is formed to fill the space between the heat exchanger 10 and the top panel 3 of the housing 50 . Therefore, the size of the covering member 9 in the vertical direction (Z-axis direction) is specified by the distance between the heat exchanger 10 and the top panel 3 of the housing 50 .

7 is an exploded perspective view of the blocking member 9 of the outdoor unit 100 according to Embodiment 1. FIG. The blocking member 9 has a back blocking member 18 and a side blocking member 19 . The closing member 9 also has a screw fixing member 21 . The back covering member 18 is placed on the back region 10f and the curved surface region 10g that constitute the heat exchanger 10. As shown in FIG. The side blocking member 19 is placed on the side area 10e and the curved surface area 10g that constitute the heat exchanger 10. As shown in FIG. The screw fixing member 21 is attached to the back covering member 18 .
(Rear blocking member 18)

The back covering member 18 is a member that fills the space between the back area 10 f and the curved surface area 10 g of the heat exchanger 10 and the top panel 3 of the housing 50 . The back covering member 18 constitutes a side wall between the top panel 3 and the back area 10 f and curved area 10 g in the housing 50 . The back covering member 18 constitutes a side wall extending in the left-right direction (X-axis direction) of the housing 50 . A side wall formed by the rear blocking member 18 is arranged on the rear side of the outdoor unit 100 . The rear blocking member 18 is arranged on the rear region 10 f of the heat exchanger 10 and fixed so as to be pressed by the motor support member 14 . In the outdoor unit 100, the heat exchanger 10 and the top panel 3 are connected via the back covering member 18. As shown in FIG. The back covering member 18 is arranged in contact with the upper end portion of the heat exchanger 10 and the lower surface portion of the top panel 3 .

When viewed from the rear side of the outdoor unit 100, the rear blocking member 18 is arranged in a state of being exposed to the outside through the rear opening 7, which is the suction port 51, so as to partially block the rear opening 7. are placed. That is, the back cover member 18 is arranged inside the back opening 7 which is the suction port 51 in the housing 50 .

The rear blocking member 18 has a rear upper wall portion 18a, a rear lower wall portion 18b, a rear right end wall portion 18c, a rear left end wall portion 18d, and a rear side wall portion 18e. (Y2 side).

The rear upper wall portion 18 a constitutes an upper wall of the rear covering member 18 and faces the top panel 3 inside the housing 50 . The rear lower wall portion 18 b constitutes the lower wall of the rear closing member 18 , faces the rear region 10 f of the heat exchanger 10 in the housing 50 , and contacts the heat exchanger 10 . The rear right end wall portion 18c constitutes a wall on the right side of the rear closing member 18, and constitutes a side wall on the side of the machine room 32 in the left-right direction (X-axis direction) inside the housing 50. As shown in FIG. That is, the rear right end wall portion 18c is positioned on the machine chamber 32 side in the stacking direction of the plurality of fins 10a that constitute the heat exchanger 10 . The rear left end wall portion 18d constitutes the left wall of the rear blocking member 18, and constitutes the side wall on the blower chamber 31 side in the left-right direction (X-axis direction) inside the housing 50. As shown in FIG. The rear right end wall portion 18c and the rear left end wall portion 18d are located at both ends of the rear lower wall portion 18b, the rear upper wall portion 18a, and the rear side wall portion 18e in the stacking direction of the plurality of fins 10a constituting the heat exchanger 10. are doing. The rear side wall portion 18 e constitutes the rear side wall of the rear closing member 18 , and constitutes the side wall on the side of the rear opening portion 7 in the front-rear direction (Y-axis direction) inside the housing 50 . Inside the housing 50 , the rear side wall portion 18 e closes part of the rear opening 7 of the housing 50 . The rear side wall portion 18e is positioned between the rear lower wall portion 18b and the rear upper wall portion 18a, and is arranged in the housing 50 in a state of being exposed to the outside through the rear opening portion 7 as the suction port 51. . That is, the rear side wall portion 18 e is arranged inside the rear opening portion 7 that is the suction port 51 in the housing 50 .

The rear side wall portion 18e is formed in a substantially rectangular shape extending in the left-right direction (X-axis direction). A wall portion 18c and a rear left end wall portion 18d are provided. That is, the rear upper wall portion 18a, the rear lower wall portion 18b, the rear right end wall portion 18c, and the rear left end wall portion 18d extend from the respective edges constituting the four sides of the rear side wall portion 18e to the front side of the housing 50. It is provided to extend to Therefore, the rear blocking member 18 is formed in a box shape by the rear upper wall portion 18a, the rear lower wall portion 18b, the rear right end wall portion 18c, the rear left end wall portion 18d, and the rear side wall portion 18e. . The back covering member 18 is formed in a box shape with an opening on the side facing the back side wall portion 18e. The back covering member 18 has an opening 18h formed by edges of a back upper wall 18a, a back lower wall 18b, a right back wall 18c, and a left back wall 18d.

The box-shaped back covering member 18 has a lattice-shaped back inner rib 18g formed therein. The rear inner rib 18g has a rib 18g1 and a rib 18g2. The rear inner rib 18g is formed so that the rib 18g1 and the rib 18g2 intersect. The rib 18g1 is provided so as to extend in the vertical direction (Z-axis direction) so as to connect the rear upper wall portion 18a and the rear lower wall portion 18b. A plurality of ribs 18g1 are provided in the left-right direction (X-axis direction). Each rib 18g1 is provided parallel to the rear right end wall portion 18c and the rear left end wall portion 18d. The rib 18g2 is provided so as to extend in the left-right direction (X-axis direction) so as to connect the rear right end wall portion 18c and the rear left end wall portion 18d. A plurality of ribs 18g2 are provided in the vertical direction (Z-axis direction). Each rib 18g2 is provided parallel to the rear upper wall portion 18a and the rear lower wall portion 18b. The back covering member 18 can ensure strength by having the back inner rib 18g. Therefore, since the rear surface covering member 18 has the rear inner rib 18g, deformation of the top surface panel 3 can be suppressed even when a load is applied to the top surface panel 3 due to stacking of the outdoor units 100 or the like. In addition, the configuration of the rear inner rib 18g is not limited to the configuration described above. For example, the ribs 18g1 and 18g2 may be formed obliquely with respect to the rear right end wall portion 18c and the rear left end wall portion 18d.

The box-shaped back covering member 18 further has a reinforcing rib 18g3 inside. The reinforcing rib 18g3 is a substantially triangular rib that connects the rear side wall portion 18e and the rear lower wall portion 18b. A plurality of reinforcing ribs 18g3 are provided in the left-right direction (X-axis direction). The back covering member 18 can ensure strength by having the reinforcing rib 18g3. Therefore, since the back cover member 18 has the reinforcing rib 18g3, deformation of the top panel 3 can be suppressed even when a load is applied to the top panel 3 due to stacking of the outdoor units 100 or the like. Note that the configuration of the reinforcing rib 18g3 is not limited to the configuration described above. For example, the reinforcing ribs 18g3 may be formed on the rear sidewall portion 18e and the rear upper wall portion 18a.

(Side blocking member 19)
The side blocking member 19 is a member that fills the space between the side surface region 10 e and the curved surface region 10 g of the heat exchanger 10 and the top panel 3 of the housing 50 . The side blocking member 19 constitutes a side wall between the side area 10 e and the curved area 10 g and the top panel 3 in the housing 50 . The side blocking member 19 constitutes a side wall extending in the front-rear direction (Y-axis direction) of the housing 50 . A side wall formed by the side blocking member 19 is arranged on the side of the outdoor unit 100 . The side blocking member 19 is arranged on the side region 10 e of the heat exchanger 10 . The heat exchanger 10 and the top panel 3 of the outdoor unit 100 are connected to each other via the side blocking member 19 . The side blocking member 19 is arranged in contact with the upper end portion of the heat exchanger 10 and the lower surface portion of the top panel 3 .

When viewed from the side of the outdoor unit 100, the side blocking member 19 is arranged in a state of being exposed to the outside through a part of the side openings 1a among the plurality of side openings 1a that are the suction ports 51. It is arranged so as to block part of the side opening 1a. That is, when the term "side opening 1a" is used as a general term for the plurality of side openings 1a, the side closing member 19 is exposed to the outside through the side opening 1a. It is arranged so as to block part of the That is, the side blocking member 19 is arranged inside the side opening portion 1 a that is the suction port 51 in the housing 50 .

The side blocking member 19 has a side upper wall portion 19a, a side lower wall portion 19b, a side rear end wall portion 19c, a side front end wall portion 19d, and a side wall portion 19e. placed on the side (X1).

The side upper wall portion 19 a constitutes an upper wall of the side blocking member 19 and faces the top panel 3 inside the housing 50 . The side lower wall portion 19 b constitutes the lower wall of the side blocking member 19 , faces the side region 10 e of the heat exchanger 10 in the housing 50 , and contacts the heat exchanger 10 . The side rear end wall portion 19c constitutes the rear side wall of the side blocking member 19, and constitutes the side wall on the side of the rear opening portion 7 in the front-rear direction (Y-axis direction) inside the housing 50. As shown in FIG. The side front end wall portion 19 d constitutes the front side wall of the side blocking member 19 , and constitutes the side wall on the outlet 8 side in the front-rear direction (Y-axis direction) inside the housing 50 . The side rear end wall portion 19c and the side front end wall portion 19d are arranged at both ends of the side lower wall portion 19b, the side upper wall portion 19a, and the side wall portion 19e in the stacking direction of the plurality of fins 10a constituting the heat exchanger 10. positioned. The side wall portion 19e constitutes the left side wall of the side blocking member 19, and constitutes the side wall on the side opening portion 1a side in the left-right direction (X-axis direction) in the housing 50. As shown in FIG. Inside the housing 50 , the side wall portion 19 e closes part of the side opening 1 a of the housing 50 . The side wall portion 19e is positioned between the side lower wall portion 19b and the side upper wall portion 19a, and is arranged in the housing 50 in a state of being exposed to the outside through the side opening portion 1a that is the suction port 51. . That is, the side wall portion 19 e is arranged inside the side opening portion 1 a that is the suction port 51 in the housing 50 .

The side wall portion 19e is formed in a substantially rectangular shape extending in the front-rear direction (Y-axis direction). An end wall portion 19c and a side front end wall portion 19d are provided. That is, the side upper wall portion 19a, the side lower wall portion 19b, the side rear end wall portion 19c, and the side front end wall portion 19d extend from each edge constituting the four sides of the side wall portion 19e to the housing 50. It is provided so as to extend to the right side, which is the machine room 32 side. Therefore, the side blocking member 19 is formed in a box shape by the side upper wall portion 19a, the side lower wall portion 19b, the side rear end wall portion 19c, the side front end wall portion 19d, and the side wall portion 19e. there is The side blocking member 19 is formed in a box shape with an opening on the machine chamber 32 side, which is the side facing the side wall portion 19e. The side blocking member 19 has an opening 19h formed by edges of a side upper wall portion 19a, a side lower wall portion 19b, a side rear end wall portion 19c, and a side front end wall portion 19d.

The box-shaped side blocking member 19 has grid-shaped side inner ribs 19g formed therein. The side inner rib 19g has a rib 19g1 and a rib 19g2. The side inner rib 19g is formed so that the rib 19g1 and the rib 19g2 intersect. The rib 19g1 is provided so as to extend in the vertical direction (Z-axis direction) so as to connect the side upper wall portion 19a and the side lower wall portion 19b. One or more ribs 19g1 are provided in the front-rear direction (Y-axis direction). The rib 19g1 is provided parallel to the side rear end wall portion 19c and the side front end wall portion 19d. The rib 19g2 is provided so as to extend in the front-rear direction (Y-axis direction) so as to connect the rear end wall portion 19c and the front end wall portion 19d. A plurality of ribs 19g2 are provided in the vertical direction (Z-axis direction). Each rib 19g2 is provided parallel to the side upper wall portion 19a and the side lower wall portion 19b. The side blocking member 19 can ensure strength by having the side inner rib 19g. Therefore, the side blocking member 19 has the side inner ribs 19g, so that deformation of the top panel 3 can be suppressed even when a load is applied to the top panel 3 due to stacking of the outdoor units 100 or the like.

The box-shaped side blocking member 19 further has reinforcing ribs 19g3 inside. The reinforcing rib 19g3 is a substantially triangular rib connecting the side wall portion 19e and the side lower wall portion 19b. A plurality of reinforcing ribs 19g3 are provided in the front-rear direction (y-axis direction). The side blocking member 19 can ensure strength by having the reinforcing rib 19g3. Therefore, the side blocking member 19 has the reinforcing rib 19g3, so that deformation of the top panel 3 can be suppressed even when a load is applied to the top panel 3 due to stacking of the outdoor units 100 or the like.

(Screw fixing member 21)
FIG. 8 is an enlarged view of the A portion of the back covering member 18 shown in FIG. The screw fixing member 21 will be described with reference to FIGS. 7 and 8. FIG. A screw fixing member that is screw-fixed to the partition plate 17 and the housing 50 via the rear right end wall portion 18c on the rear right end wall portion 18c located on the side of the machine room 32 in the stacking direction of the plurality of fins 10a. 21 is attached. The screw fixing member 21 is used to screw fix the back cover member 18, the partition plate 17, and the side panel 2 together. The screw fixing member 21 is made of sheet metal. However, the screw fixing member 21 is not limited to being formed of sheet metal, and may be formed by molding resin or the like as long as the strength can be ensured. Alternatively, the screw fixing member 21 may be made of a material other than metal, resin, or the like. The screw fixing member 21 is formed to extend in the vertical direction (Z-axis direction) along the rear right end wall portion 18c.

The screw fixing member 21 has a body portion 21a and a fixing portion 21b. The body portion 21a and the fixed portion 21b are integrally formed, and the body portion 21a and the fixed portion 21b are formed by being bent. However, the body portion 21a and the fixing portion 21b may be formed as separate bodies and connected to each other. The body portion 21a is formed in a plate shape. The fixing portions 21b are formed in a plate shape and provided at both ends of the main body portion 21a in the lateral direction (Y-axis direction). The fixing portion 21b is provided along an edge portion in the longitudinal direction (Z-axis direction) of the main body portion 21a. The screw fixing member 21 is formed to have a substantially U-shaped cross section by the body portion 21a and the fixing portion 21b.

A notch portion 21c is formed in the fixed portion 21b. The cutout portion 21c is formed at the tip of the fixing portion 21b on the side opposite to the main body portion 21a. there is That is, the cutout portion 21c is formed so as to open in the direction in which the fixing portion 21b extends from the main body portion 21a. Further, the fixing portion 21b is formed with a screw hole 21d used when the partition plate 17 and the side panel 2 are screw-fixed via the back cover member 18. As shown in FIG.

Here, the structure of the rear right end wall portion 18c to which the screw fixing member 21 is attached will be described in more detail with reference to FIG. The rear right end wall portion 18c has a fixed surface portion 18c1, a rear side plate wall portion 18c2, and a front side plate wall portion 18c3. The fixed surface portion 18c1, the rear side plate wall portion 18c2, and the front side plate wall portion 18c3 are integrally formed.

The fixed surface portion 18c1 is formed as a planar side wall. However, the fixed surface portion 18c1 is not limited to a planar shape, and may be curved or have steps. The rear side plate wall portion 18c2 and the front side plate wall portion 18c3 are formed in a plate shape, and are provided at both ends of the fixing surface portion 18c1 in the short direction (Y-axis direction). The rear side plate wall portion 18c2 and the front side plate wall portion 18c3 are provided along the longitudinal direction (Z-axis direction) edge of the fixed surface portion 18c1. The rear side plate wall portion 18c2 and the front side plate wall portion 18c3 are provided so as to protrude from the edge portion of the fixed surface portion 18c1. The back side plate wall portion 18c2 and the front side plate wall portion 18c3 are provided so as to face each other. The rear right end wall portion 18c is formed such that the inner surface formed by the fixing surface portion 18c1, the rear side plate wall portion 18c2, and the front side plate wall portion 18c3 is substantially U-shaped in plan view.

The rear side plate wall portion 18c2 and the front side plate wall portion 18c3 have protrusions 18c4. The projecting portion 18c4 is formed at the tip portion of the rear side plate wall portion 18c2 and the front side plate wall portion 18c3 on the side opposite to the fixing surface portion 18c1. The projecting portion 18c4 is formed so that the projecting amount decreases toward the tip portion and increases toward the fixing surface portion 18c1. That is, the projecting portion 18c4 forms an inclined surface that is inclined with respect to the plate surfaces of the rear side plate wall portion 18c2 and the front side plate wall portion 18c3. The protruding portion 18c4 is formed on the tip end side of the rear side plate wall portion 18c2 and the front side plate wall portion 18c3 in the projecting direction. In the rear right end wall portion 18c, a space is formed between the projecting portion 18c4 and the fixed surface portion 18c1 in the projection direction of the rear side plate wall portion 18c2 and the front side plate wall portion 18c3. The protruding portion 18c4 of the rear side plate wall portion 18c2 is formed so as to protrude toward the front side plate wall portion 18c3. Similarly, the protruding portion 18c4 of the front side plate wall portion 18c3 is formed so as to protrude toward the rear side plate wall portion 18c2. That is, the projecting portion 18c4 is formed so as to protrude toward the space formed by the fixing surface portion 18c1, the rear side plate wall portion 18c2, and the front side plate wall portion 18c3.

Further, the rear side plate wall portion 18c2 is formed with a side panel fixing screw hole 18c5 used when screwing the side panel 2 of the housing 50 through the rear closing member 18. As shown in FIG. The front side plate wall portion 18c3 is formed with a partition plate fixing screw hole 18c6 that is used when the partition plate 17 is screw-fixed through the rear closing member 18. As shown in FIG.

In addition, an L-shaped hooking portion 18c7 to be hooked on the upper end of the heat exchanger 10 is formed below the screw fixing member 21 on the rear right end wall portion 18c to which the screw fixing member 21 is attached. That is, the rear right end wall portion 18c has a hook portion 18c7. The fixed surface portion 18c1, the back side plate wall portion 18c2, and the hook portion 18c7 are integrally formed. The hook portion 18c7 is used as a positioning member when the closing member 9 is assembled to the heat exchanger 10. As shown in FIG. The hook portion 18c7 protrudes from the lower end portion 18c11 of the fixing surface portion 18c1 of the rear right end wall portion 18c in the direction in which the rear side plate wall portion 18c2 protrudes (X-axis direction), and is bent to extend downward (Z2 side). formed. The side edges of the hook portion 18c7 are formed integrally with the rear side plate wall portion 18c2. The hook portion 18c7 is formed in an L shape when viewed from the side in a direction perpendicular to the rear side plate wall portion 18c2. The hook portion 18c7 and the back side plate wall portion 18c2 are formed such that the bottom end portion 18c12 of the hook portion 18c7 and the back side plate wall portion 18c2 is positioned below the bottom end portion 18c11 of the fixed surface portion 18c1.

Attachment of the screw fixing member 21 to the rear right end wall portion 18c will be described with reference to FIGS. 7 and 8. FIG. The screw fixing member 21 is arranged in a space formed by the fixing surface portion 18c1, the rear side plate wall portion 18c2, and the front side plate wall portion 18c3, and is attached to the rear right end wall portion 18c of the rear closing member 18. When the screw fixing member 21 is attached to the rear right end wall portion 18c, the protrusions 18c4 of the rear side plate wall portion 18c2 and the front side plate wall portion 18c3 are fitted to the edges of the notch portion 21c of the fixing portion 21b, thereby securing the screw fixing member. 21 is temporarily fixed to the rear right end wall portion 18 c of the rear covering member 18 . When the screw fixing member 21 is temporarily fixed to the rear right end wall portion 18c, the main body portion 21a faces the fixing surface portion 18c1, the fixing portion 21b on the rear side faces the plate wall portion 18c2 on the rear side, and the fixing portion on the front side faces the plate wall portion 18c2. 21b is arranged so as to face the front side plate wall portion 18c3.

(Engaging portion 22)
FIG. 9 is a perspective view of the closing member 9 according to Embodiment 1 as seen from the rear side. FIG. 10 is an exploded perspective view of the rear blocking member 18 and the side blocking member 19 that constitute the blocking member 9 shown in FIG. 11 is a perspective view of the side blocking member 19 on the side facing the partition plate 17 in the housing 50 of the outdoor unit 100 according to Embodiment 1. FIG. The blocking member 9 has an engaging portion 22 as shown in FIG. The engaging portion 22 is a connecting portion between the back covering member 18 and the side covering member 19 . The blocking member 9 includes a rear blocking member 18 and a side blocking member 19 which are formed separately, and the rear blocking member 18 and the side blocking member 19 are connected to each other by fitting them at the engaging portions 22 . there is 9 to 11, the structure of the engaging portion 22, which is the connecting portion between the back covering member 18 and the side covering member 19, will be described.

First, the structure of the rear covering member 18 that constitutes the engaging portion 22 will be described. The rear left end wall portion 18d has a mounting surface portion 18d1, a front side mounting portion 18d2, and a rear side mounting portion 18d3. A mounting surface portion 18d1, a front side mounting portion 18d2, and a rear side mounting portion 18d3 are integrally formed on the rear left end wall portion 18d.

The mounting surface portion 18d1 is formed as a plate-like side wall. The plate surface of the mounting surface portion 18d1 is not limited to being formed in a flat shape, and may be formed in a curved surface shape or may have steps. The front side mounting portion 18d2 and the rear side mounting portion 18d3 are formed in a hook shape, and are provided at both ends of the mounting surface portion 18d1 in the short direction (Y-axis direction). The front-side mounting portion 18d2 and the rear-side mounting portion 18d3 protrude from the mounting surface portion 18d1 and have an L-shaped horizontal cross section. The front-side mounting portion 18d2 and the rear-side mounting portion 18d3 are provided along the edges in the longitudinal direction (Z-axis direction) of the mounting surface portion 18d1. The front side mounting portion 18d2 and the rear side mounting portion 18d3 are formed in a part of the mounting surface portion 18d1 in the longitudinal direction (Z-axis direction), and the front side mounting portion 18d2 is formed above the rear side mounting portion 18d3. ing.

The front side mounting portion 18d2 is provided at an end portion on the front side (Y1 side) in the lateral direction (Y-axis direction) of the mounting surface portion 18d1. The front attachment portion 18d2 has a front protrusion 18d21 and a front claw 18d22. The front-side projecting portion 18d21 is a portion constituting a wall projecting outward from the rear blocking member 18 from the mounting surface portion 18d1, and is a wall projecting leftward (X1 side) in the longitudinal direction (X-axis direction) of the outdoor unit 100. It is the part that makes up. The front side claw portion 18d22 is a claw that holds the side blocking member 19 together with the mounting surface portion 18d1. The front claw portion 18d22 is provided so as to extend from the tip of the front projection portion 18d21 in the projecting direction toward the rear side wall portion 18e, that is, toward the rear side (Y2 side) in the short direction (Y-axis direction) of the mounting surface portion 18d1. This is the wall where the The front claw portion 18d22 is formed to face the mounting surface portion 18d1 with a space therebetween. The front mounting portion 18d2 forms a groove portion 18d23 extending in the vertical direction (Z-axis direction) by the mounting surface portion 18d1, the front projection portion 18d21, and the front claw portion 18d22. The groove portion 18d23 is formed so as to open in the vertical direction (Z-axis direction) of the outdoor unit 100 and the rear side (Y2 side).

The rear side mounting portion 18d3 is provided at the rear side (Y2 side) end portion of the mounting surface portion 18d1 in the lateral direction (Y-axis direction). The back-side attachment portion 18d3 has a back-side projecting portion 18d31 and a back-side claw portion 18d32. The rear-side projecting portion 18d31 is a portion that constitutes a wall that projects outward from the rear blocking member 18 from the mounting surface portion 18d1, and is a wall that projects to the left (X1 side) in the longitudinal direction (X-axis direction) of the outdoor unit 100. It is the part that makes up. The rear side claw portion 18d32 is a claw that holds the side surface blocking member 19 together with the mounting surface portion 18d1. The rear claw portion 18d32 extends from the tip of the rear projection portion 18d31 in the projecting direction to the opening side of the rear blocking member 18, that is, to the front side (Y1 side) in the short direction (Y-axis direction) of the mounting surface portion 18d1. It is a wall part provided in The back-side claw portion 18d32 is formed to face the mounting surface portion 18d1 with a space therebetween. The rear mounting portion 18d3 forms a groove portion 18d33 extending in the vertical direction (Z-axis direction) by the mounting surface portion 18d1, the rear projection portion 18d31, and the rear claw portion 18d32. The groove portion 18d33 is formed so as to open in the vertical direction (Z-axis direction) of the outdoor unit 100 and the front side (Y1 side).

Next, the structure of the side blocking member 19 that constitutes the engaging portion 22 will be described with reference to FIGS. 10 and 11. FIG. The side rear end wall portion 19c has a contact portion 19c1, an intermediate side wall portion 19c2, and a tip side wall portion 19c3. The side rear end wall portion 19c is integrally formed with a contact portion 19c1, an intermediate side wall portion 19c2, and a tip side wall portion 19c3.

The contact portion 19c1 is formed as a plate-like side wall. The contact portion 19c1 is formed to extend in the horizontal direction (X-axis direction) of the housing 50 and to extend in the vertical direction (Z-axis direction). The plate surface of the contact portion 19c1 is formed so as to face the rear side (Y2) inside the housing 50. As shown in FIG. In addition, the plate surface of the contact portion 19c1 is not limited to a planar shape, and may be curved or have steps. The intermediate side wall portion 19c2 is provided so as to protrude outward from the plate surface of the contact portion 19c1, extends in the front-rear direction (Y-axis direction) of the housing 50, and extends in the vertical direction (Z-axis direction). It is formed in an elongated plate shape. That is, the side surface blocking member 19 is formed such that the contact portion 19c1 and the intermediate side wall portion 19c2 have a predetermined angle of 90 degrees or close to 90 degrees. The intermediate side wall portion 19c2 is formed so that the plate surface forming the intermediate side wall portion 19c2 and the plate surface forming the side side wall portion 19e face the same direction. The intermediate side wall portion 19c2 is formed so as to be positioned closer to the opening 19h (X2 side) than the side side wall portion 19e in the left-right direction (X-axis direction). The intermediate side wall portion 19c2 is formed so as to face the mounting surface portion 18d1 when the rear surface blocking member 18 and the side blocking member 19 are connected.

An insertion portion 19c21 is formed in the intermediate side wall portion 19c2. The insertion portion 19c21 is formed in a hook shape, and is provided near the approximate center in the lateral direction (Y-axis direction) of the intermediate side wall portion 19c2. The insertion portion 19c21 protrudes from the intermediate side wall portion 19c2 toward the opening portion 19h, and has an L-shaped horizontal cross section. The insertion portion 19c21 is provided along the longitudinal direction (Z-axis direction) of the intermediate side wall portion 19c2. The insertion portion 19c21 is formed in a part of the intermediate side wall portion 19c2 in the longitudinal direction (Z-axis direction), and is formed above the central portion in the longitudinal direction (Z-axis direction) of the intermediate side wall portion 19c2.

The insertion portion 19c21 has a side protruding portion 19c22 and a side claw portion 19c23. The side protruding portion 19c22 is a portion forming a wall protruding from the intermediate side wall portion 19c2, and is a portion forming a wall protruding to the right (X2 side) in the longitudinal direction (X-axis direction) of the outdoor unit 100. The side claw portion 19c23 is a wall portion provided so as to extend from the tip of the side projection portion 19c22 in the projecting direction toward the contact portion 19c1 (Y1 side). The side-side claw portion 19c23 is a claw that is inserted into the groove portion 18d23 and held by the front-side claw portion 18d22 and the mounting surface portion 18d1.

The tip side wall portion 19c3 is provided so as to protrude from the tip of the intermediate side wall portion 19c2 in the direction of protrusion (Y-axis direction), and is formed in a plate shape extending in the vertical direction (Z-axis direction) along the intermediate side wall portion 19c2. It is The tip side wall portion 19c3 is formed so that the plate surface forming the tip side wall portion 19c3, the plate surface forming the intermediate side wall portion 19c2, and the plate surface forming the side side wall portion 19e face the same direction. The tip side wall portion 19c3 is formed so as to be located closer to the opening 19h (X2 side) than the intermediate side wall portion 19c2 in the left-right direction (X-axis direction). The tip side wall portion 19c3 is formed to face the mounting surface portion 18d1 when the rear blocking member 18 and the side blocking member 19 are connected.

The tip side wall portion 19c3 is inserted into the groove portion 18d33 and held by the back side claw portion 18d32 and the mounting surface portion 18d1. The tip side wall portion 19c3 has an edge wall portion 19c31. The edge wall portion 19c31 is a wall provided at the edge along the outer edge of the tip side wall portion 19c3. The edge wall portion 19c31 of the tip side wall portion 19c3 is inserted into the groove portion 18d33 and held by the back side claw portion 18d32 and the mounting surface portion 18d1. The tip side wall portion 19c3 has a notch portion 19c32 at the corner portion of the lower end portion. The leading end side wall portion 19c3 has a notch portion 19c32 at the corner of the lower end portion, which makes it easier for the operator to insert the leading end side wall portion 19c3 into the groove portion 18d33, thereby facilitating the connection between the rear blocking member 18 and the side blocking member 19. become.

As shown in FIG. 10, the operator can attach the side blocking member 19 to the back blocking member 18 as shown in FIG. 9 by moving the side blocking member 19 in the direction of the white arrow. At this time, the front side wall portion 19c3 of the closing member 9 abuts against the mounting surface portion 18d1, so that the side closing member 19 is positioned with respect to the back covering member 18 in the left-right direction (X-axis direction). Further, the contact portion 19c1 of the closing member 9 abuts against the rear left end wall portion 18d, so that the side covering member 19 is positioned with respect to the rear covering member 18 in the front-rear direction (Y-axis direction).

FIG. 12 is a cross-sectional view showing a connection state between the back covering member 18 and the side covering member 19 at the portion C shown in FIG. FIG. 13 is a cross-sectional view showing a connection state between the back covering member 18 and the side covering member 19 at the portion D shown in FIG. 12 and 13, the connection state between the back covering member 18 and the side covering member 19 will be described.

As shown in FIGS. 12 and 13, the inserting portion 19c21 engages with the front mounting portion 18d2 of the back covering member 18. As shown in FIGS. The side claw portion 19c23 of the insertion portion 19c21 is inserted into the groove portion 18d23 and held by the front claw portion 18d22 and the mounting surface portion 18d1. Further, the tip side wall portion 19c3 engages with the rear side mounting portion 18d3 of the rear blocking member 18. As shown in FIG. The tip side wall portion 19c3 is inserted into the groove portion 18d33 and is held by the back side claw portion 18d32 and the mounting surface portion 18d1. The blocking member 9 has an upper portion in which the insertion portion 19c21 and the front side mounting portion 18d2 are engaged, and a lower portion in which the tip side wall portion 19c3 and the rear side mounting portion 18d3 are engaged. The blocking member 9 is configured by combining a rear blocking member 18 and a side blocking member 19. By sliding and fitting the side blocking member 19 to the rear blocking member 18 and engaging the respective parts, It is formed in an L shape.

Here, returning to FIG. 11, the side blocking member 19 has a stop portion 19c25 on the intermediate side wall portion 19c2. The stopping portion 19c25 protrudes in the same direction (X2 side) as the protruding direction of the insertion portion 19c21. The stop portion 19c25 is a rectangular parallelepiped protruding piece, and is provided above the insertion portion 19c21. In addition, the stopping part 19c25 is not limited to a rectangular parallelepiped shape as long as it is a projecting piece whose strength is ensured. The stopping portion 19c25 is provided on an extension of the wall forming the side protruding portion 19c22 of the insertion portion 19c21 in the vertical direction (Z-axis direction). The side blocking member 19 is positioned in the vertical direction (Z-axis direction) with respect to the rear blocking member 18 by abutting the upper end portion of the front side mounting portion 18d2 of the blocking member 9 with the stop portion 19c25. That is, the stopping portion 19c25 abuts on the upper end portion of the front side mounting portion 18d2, thereby acting as a stopper for the vertical movement (Z-axis direction) of the side blocking member 19 with respect to the rear blocking member 18. FIG.

FIG. 14 is an enlarged perspective view of the upper portion of the front side of the back covering member 18. FIG. FIG. 15 is an enlarged perspective view of the upper portion of the rear side of the rear covering member 18. FIG. As shown in FIGS. 14 and 15, a concave portion 18d4 is formed in an edge portion extending in the vertical direction (Z-axis direction) of the mounting surface portion 18d1. The recessed portion 18d4 is formed at the upper end portion of the edge extending in the vertical direction (Z-axis direction) of the mounting surface portion 18d1. The recess 18d4 is recessed so that the front side (Y1 side) is open.

FIG. 16 is an enlarged perspective view of the upper part of the front side of the side blocking member 19. As shown in FIG. FIG. 17 is an enlarged perspective view of the upper portion of the back side of the side blocking member 19. FIG. As shown in FIGS. 16 and 17, a convex portion 19c11 is formed on the edge portion of the upper end portion of the contact portion 19c1. The convex portion 19c11 is formed along an edge portion extending in the left-right direction (X-axis direction) at the upper end portion of the contact portion 19c1. The convex portion 19c11 is formed so as to protrude to the rear side (Y2 side).

FIG. 18 is an enlarged perspective view of the front upper portion of the blocking member 9. FIG. FIG. 19 is an enlarged perspective view of the upper portion of the back side of the covering member 9. FIG. As shown in FIGS. 18 and 19, when the side blocking member 19 and the rear blocking member 18 are connected, the convex portion 19c11 is inserted into the concave portion 18d4 and fitted. Therefore, when the side blocking member 19 and the rear blocking member 18 are connected, the blocking member 9 is prevented from being displaced from each other.

(Pressing portion 23)
FIG. 20 is a perspective view of the back covering member 18 shown in FIG. 7 as seen from below. 21 is an enlarged perspective view of the pressing portion 23 shown in FIG. 20. FIG. The closing member 9 has a pressing portion 23 . As shown in FIG. 20 , the back covering member 18 of the covering member 9 is provided with pressing portions 23 for sandwiching the heat exchanger 10 from the thickness direction of the heat exchanger 10 . More specifically, the rear lower wall portion 18b has a pressing portion 23 that abuts on the heat exchanger 10 from the thickness direction of the heat exchanger 10 and sandwiches the heat exchanger 10 therebetween.

The pressing portions 23 are formed integrally with the rear lower wall portion 18b, and are provided at both ends of the rear lower wall portion 18b in the front-rear direction (Y-axis direction). The pressing portion 23 is formed in a part of the rear lower wall portion 18b in the longitudinal direction (X-axis direction). One pressing portion 23 is formed on the side of the opening portion 18h of the back covering member 18, and two are formed on the side of the back side wall portion 18e of the back covering member 18. As shown in FIG. However, the number of pressing portions 23 to be formed is not limited to this configuration. One pressing portion 23 may be formed on each of the opening portion 18h side of the back covering member 18 and the back side wall portion 18e side of the back covering member 18, or a plurality thereof may be formed. Further, the pressing portion 23 is not limited to a form formed in a part of the longitudinal direction (X-axis direction) of the back surface lower wall portion 18b, and the longitudinal direction (X-axis direction) of the back surface lower wall portion 18b. may be formed in the entire region of The back covering member 18 is formed with pressing portions 23 on the side of the opening 18h of the back covering member 18 and on the side of the rear side wall portion 18e of the back covering member 18, respectively. can be sandwiched from the thickness direction.

The pressing portion 23 is formed in a plate shape as shown in FIG. The pressing portion 23 protrudes from the rear lower wall portion 18b toward the outside of the rear lower wall portion 18b, and protrudes downward from the rear lower wall portion 18b. The pressing portion 23 is provided so as to extend along the edge portion in the longitudinal direction (X-axis direction) of the rear lower wall portion 18b. The pressing portion 23 has a positional deviation suppressing rib 23b. The pressing portion 23 has a positional displacement suppressing rib 23b formed on a base portion 23a near the base of the pressing portion 23 with respect to the back surface lower wall portion 18b.

The misalignment suppressing rib 23b prevents the back surface blocking member 18 from misaligning in the left-right direction (X-axis direction) with respect to the heat exchanger 10. As shown in FIG. The misalignment suppressing rib 23b is formed in a substantially triangular shape, and a bottom edge portion 23b1 constituting an edge portion on the side of the back surface lower wall portion 18b is formed integrally with the back surface lower wall portion 18b. A side edge portion 23b2 forming an edge portion of the holding portion 23 is integrally formed. In the misalignment suppressing rib 23b, an oblique edge portion 23b3, which is formed between the end portion of the bottom edge portion 23b1 and the end portion of the side edge portion 23b2, is inclined with respect to the rear lower wall portion 18b and the pressing portion 23. .

FIG. 22 is a schematic cross-sectional view of the back covering member 18 taken along line EE shown in FIG. The relationship between the misalignment suppressing rib 23b and the heat exchanger 10 will be described with reference to FIG. When the back covering member 18 is placed on the heat exchanger 10, the pressing portion 23 abuts the fins 10a of the heat exchanger 10 from the front (Y2 side) and rear (Y1 side) of the fins 10a. As shown in FIG. 22, when the back surface covering member 18 is placed on the heat exchanger 10, the positional deviation suppressing ribs 23b are fitted between the plurality of fins 10a.

As shown in FIGS. 10 and 11 , the side blocking member 19 of the blocking member 9 is also provided with a pressing portion 23 for sandwiching the heat exchanger 10 from the thickness direction of the heat exchanger 10 . The side lower wall portion 19b has a pressing portion 23 that abuts on the heat exchanger 10 from the thickness direction of the heat exchanger 10 and sandwiches the heat exchanger 10 therebetween.

The holding portions 23 are formed integrally with the side lower wall portion 19b, and are provided at both ends of the side lower wall portion 19b in the left-right direction (X-axis direction). The pressing portion 23 is formed in a portion of the side lower wall portion 19b in the longitudinal direction (Y-axis direction). One pressing portion 23 is formed on the opening 19 h side of the side blocking member 19 and one on the side wall portion 19 e side of the side blocking member 19 . However, the number of pressing portions 23 to be formed is not limited to this configuration. One pressing portion 23 may be formed on each of the opening portion 19h side of the side blocking member 19 and the side wall portion 19e side of the side blocking member 19, or a plurality of pressing portions may be formed. Further, the pressing portion 23 is not limited to a form formed in a part of the longitudinal direction (Y-axis direction) of the side surface lower wall portion 19b, and is not limited to a form formed in a part of the side surface lower wall portion 19b in the longitudinal direction (Y-axis direction). may be formed in the entire region of In the side blocking member 19, the holding portions 23 are formed on the side of the opening 19h of the side blocking member 19 and on the side of the side wall portion 19e of the side blocking member 19, respectively. can be sandwiched from the thickness direction. The pressing portion 23 protrudes outward from the side lower wall portion 19b and protrudes downward from the side lower wall portion 19b. The pressing portion 23 is provided so as to extend along the edge portion in the longitudinal direction (Y-axis direction) of the side lower wall portion 19b. A misalignment suppressing rib 23b is formed on a base portion 23a near the root of the pressing portion 23 with respect to the side wall portion 19b.

(Press fitting portion 24)
FIG. 23 is a schematic cross-sectional view of the back covering member 18 taken along line FF shown in FIG. FIG. 24 is a bottom view of the lower back wall portion 18b that constitutes the back closing member 18 as seen from the direction of the white arrow G shown in FIG. The relationship between the press-fit portion 24 and the heat exchanger 10 will be described with reference to FIGS. 21, 23 and 24. FIG. The rear lower wall portion 18 b has a press-fit portion 24 . The press-fitting portion 24 is a portion that is press-fitted into the edge portions of the plurality of fins 10 a that constitute the heat exchanger 10 when the closing member 9 is placed on and assembled to the heat exchanger 10 .

The press-fit portion 24 is a rib having a protruding height of about 1 mm and provided on the lower back wall portion 18b of the back covering member 18 constituting the covering member 9 . The press-fit portion 24 protrudes from a position facing the corners of the plurality of fins 10a constituting the heat exchanger 10 and extends in the stacking direction of the plurality of fins 10a. More specifically, the press-fit portion 24 is provided on the surface of the back covering member 18 on which the heat exchanger 10 is mounted. The press-fit portion 24 is provided so as to protrude downward (Z2 side) from the rear lower wall portion 18b. As shown in FIG. 24, the press-fit portion 24 is formed to extend in the longitudinal direction (X-axis direction) along the edge of the rear lower wall portion 18b on the side of the rear side wall portion 18e. The press-fit portion 24 is not limited to a form formed in a part of the rear lower wall portion 18b in the longitudinal direction (X-axis direction), but is formed in the entire longitudinal direction (X-axis direction) of the rear lower wall portion 18b. area may be formed.

As shown in FIGS. 21 and 23, the press-fit portion 24 is a substantially rectangular parallelepiped rib. The press-fit portion 24 is not limited to a substantially rectangular parallelepiped shape as long as it can be press-fit into the fins 10a of the heat exchanger 10 when the back covering member 18 is placed and assembled on the heat exchanger 10. The press-fit portion 24 may be formed in other shapes such as a semi-cylindrical shape, a polygonal prism shape such as a triangular prism shape, a hemispherical shape, and the like.

As shown in FIG. 23, the press-fit portion 24 presses the fins 10a of the heat exchanger 10 when the back covering member 18 is placed and assembled on the heat exchanger 10, and the back covering member 18 presses the heat exchanger. It is assembled to the heat exchanger 10 in a state of being press-fitted into 10 .

FIG. 25 is a perspective view of the blocking member 9 of the outdoor unit 100 according to Embodiment 1 as viewed from the lower front side. The side lower wall portion 19 b of the side blocking member 19 also has a press-fitting portion 24 . The press-fit portion 24 is a rib having a protruding height of about 1 mm and provided on the lower side wall portion 19b of the side blocking member 19 constituting the blocking member 9 . That is, the press-fit portion 24 is provided on the surface of the side blocking member 19 on which the heat exchanger 10 is mounted. The press-fit portion 24 is provided so as to protrude downward (Z2 side) from the side lower wall portion 19b. The press-fitting portion 24 is formed to extend in the longitudinal direction (Y-axis direction) along the edge of the lower side wall portion 19b on the side of the side wall portion 19e. The press-fit portion 24 is not limited to a form formed in a part of the side lower wall portion 19b in the longitudinal direction (Y-axis direction), and is formed entirely in the longitudinal direction (Y-axis direction) of the side lower wall portion 19b. area may be formed.

(Sensor mounting portion 25)
FIG. 26 is a perspective view of the blocking member 9 of the outdoor unit 100 according to Embodiment 1 as seen from the front side. The sensor attachment portion 25 will be described with reference to FIGS. 25 and 26 and the like. The blocking member 9 has a sensor mounting portion 25 on its lower wall portion. The sensor mounting portion 25 accommodates the outside air temperature sensor 20 inside. The sensor mounting portion 25 is formed on the lower wall portion of the L-shaped bent portion of the covering member 9 . That is, the sensor mounting portion 25 is formed at the lower end portion of the connecting portion between the back cover member 18 and the side cover member 19 . The sensor mounting portion 25 is formed as a groove-shaped space at the joining portion between the rear blocking member 18 and the side blocking member 19 .

The sensor mounting portion 25 is a portion formed in a groove shape penetrating from the front side (Y1 side) to the rear side (Y2 side) of the blocking member 9 and extending from the right side (X2 side) to the left side (X1 side) of the blocking member 9 . side) is formed in a groove shape penetrating. That is, the sensor mounting portion 25 is a groove-shaped portion formed in the rear lower wall portion 18b and the side lower wall portion 19b. The sensor mounting portion 25 is formed so as to be recessed upward and open downward at the lower end portion of the covering member 9 .

The sensor mounting portion 25 is formed of a rear mounting wall portion 25a, a side mounting wall portion 25b, and a side mounting upper wall portion 25c. As shown in FIGS. 7, 20 and 25, the rear mounting wall portion 25a is provided at the lower end of the rear left end wall portion 18d that constitutes the rear closing member 18. As shown in FIG. The rear side attachment wall portion 25a forms a side wall that is inclined with respect to the rear left end wall portion 18d. The back side mounting wall portion 25a forms a side wall that is inclined with respect to the mounting surface portion 18d1. The wall surface of the rear mounting wall portion 25a is formed so as to face the front side (Y1 side) and the left side (X1 side) when the rear blocking member 18 is placed on the heat exchanger 10 .

As shown in FIGS. 11 and 25, the side mounting wall portion 25b is provided at the lower end portion of the side rear end wall portion 19c that constitutes the side closing member 19. As shown in FIGS. The side attachment wall portion 25b forms a side wall that is inclined with respect to the side rear end wall portion 19c. The side mounting wall portion 25b forms a side wall that is inclined with respect to the contact portion 19c1. The wall surface of the side mounting wall portion 25b is formed to face the rear side (Y2 side) and the right side (X2 side) when the side rear blocking member 19 is placed on the heat exchanger 10. As shown in FIG.

The side mounting upper wall portion 25c is provided at the lower end portion of the side rear end wall portion 19c constituting the side blocking member 19, as shown in FIGS. The side mounting upper wall portion 25c is provided at the upper end portion of the side mounting wall portion 25b. The side attachment upper wall portion 25c is a bottom wall provided above (Z1 side) the side lower wall portion 19b. The wall surface of the side mounting upper wall portion 25c is formed to face downward (Z2 side) when the side rear blocking member 19 is placed on the heat exchanger 10, and the curved surface region of the heat exchanger 10 is formed. It is formed so as to face the upper end surface of 10g.

FIG. 27 is an enlarged view showing the mounting state of the outside air temperature sensor 20 arranged on the heat exchanger 10 of the outdoor unit 100 according to Embodiment 1. FIG. As shown in FIG. 27 , the outside air temperature sensor 20 is arranged at the mating portion between the back cover member 18 and the side cover member 19 . The outdoor unit 100 has an outside air temperature sensor 20 mounted on the heat exchanger 10 and a blocking member 9 arranged thereon. The blocking member 9 has a space formed by a sensor mounting portion 25 at a location where the outside air temperature sensor 20 is arranged at the joining portion of the rear blocking member 18 and the side blocking member 19 . Therefore, the outdoor unit 100 can arrange the blocking member 9 on the heat exchanger 10 even if the outside air temperature sensor 20 is attached to the heat exchanger 10 .

(Lead wire guide portion 26)
The outside air temperature sensor 20, as shown in FIGS. 5 and 6, has lead wires 20a. The outdoor unit 100 needs to regulate the route of the lead wire 20 a of the outside air temperature sensor 20 inside the housing 50 . The blocking member 9 has a lead wire guide portion 26 . The lead wire guide portion 26 regulates the path of the lead wire 20 a of the outside air temperature sensor 20 and is provided on the covering member 9 .

The lead wire guide portion 26 is provided on the back upper wall portion 18 a of the back covering member 18 . Note that the lead wire guide portion 26 may be provided on the side upper wall portion 19 a of the side surface blocking member 19 instead of the rear surface blocking member 18 . The lead wire guide portion 26 is formed on the side of the opening portion 18h which is the front side (Y1 side) with respect to the rear side wall portion 18e on the rear side (Y2 side). The lead wire guide portion 26 is formed at the edge forming the opening 18h of the rear upper wall portion 18a. Two lead wire guide portions 26 are formed along the longitudinal direction (X-axis direction) of the back side blocking member 18 . However, the number of lead wire guide portions 26 to be formed is not limited to two, and one or three or more lead wire guide portions 26 may be formed.

28 is a perspective view of the lead wire guide portion 26 provided in the covering member 9 of the outdoor unit 100 according to Embodiment 1. FIG. 29 is a side view of the lead wire guide portion 26 shown in FIG. 28. FIG. A detailed configuration of the lead wire guide portion 26 will be described with reference to FIGS. 28 and 29. FIG. The lead wire guide portion 26 has a plate-like portion 26a and a guide claw portion 26b.

The plate-like portion 26a is a plate-like member. The plate-like portion 26a is provided at the edge forming the opening 18h of the rear upper wall portion 18a, and is provided so as to extend along the longitudinal direction (X-axis direction) of the rear upper wall portion 18a. , are provided so as to protrude into the opening 18h and extend in the vertical direction (Z-axis direction). The plate surface of the plate-like portion 26a provided on the back covering member 18 faces at least the front side (Y1 side).

The guide claw portion 26b is a claw that holds the lead wire 20a together with the plate-like portion 26a. The guide claw portion 26b is formed to protrude from the lower end portion of the plate-like portion 26a toward the front side (Y1 side) toward which the plate surface of the plate-like portion 26a faces, and to extend upward (to the Z1 side) by bending. . As shown in FIG. 29, the guide claw portion 26b is formed to have an L shape when viewed from the side. The guide claw portion 26b is provided with a retaining portion 26c at the tip portion in the projecting direction. The retainer portion 26c is formed in a substantially triangular shape when viewed from the side so that the base portion near the root of the guide claw portion 26b is thicker than the tip end side of the guide claw portion 26b.

As shown in FIGS. 5 and 6, the covering member 9 arranges the lead wire 20a of the outside air temperature sensor 20 in the guide claw portion 26b of the lead wire guide portion 26 provided on the back covering member 18. It regulates the route of the lead wire 20a.

(Top Panel Receiving Portion 27)
As shown in FIGS. 6 and 7 , the closing member 9 has a top panel receiving portion 27 . The top panel receiving portion 27 abuts on the top panel 3 and receives a load from the top panel 3 side. The top panel receiving portion 27 is formed on the upper surface portion of the closing member 9 . The top panel receiving portion 27 is provided so as to protrude upward from the upper surface portion of the closing member 9 . Four top panel receiving portions 27 are formed on the back side blocking member 18 and one is formed on the side blocking member 19, but the number of the top panel receiving portions 27 formed on the blocking member 9 is limited to the number. not. One or more top panel receiving portions 27 may be formed in each of the back side closing member 18 and the side side closing member 19 .

The top panel receiving portion 27 is provided on the rear upper wall portion 18a of the rear closing member 18, and is provided so as to protrude upward from the rear upper wall portion 18a. The top panel receiving portion 27 is provided so as to extend along the longitudinal direction (X-axis direction) of the back top wall portion 18a. The length in the longitudinal direction (X-axis direction) of the top panel receiving portion 27 is not limited. good.

The top panel receiving portion 27 is provided on the side upper wall portion 19a of the side blocking member 19 so as to protrude upward from the side upper wall portion 19a. The top panel receiving portion 27 is provided so as to extend along the longitudinal direction (Y-axis direction) of the side upper wall portion 19a. The length in the longitudinal direction (Y-axis direction) of the top panel receiving portion 27 is not limited. good.

FIG. 30 is a schematic cross-sectional view of the outdoor unit 100 taken along line FF shown in FIG. FIG. 31 is an enlarged view showing the relationship between the back side closing member 18 and the top panel 3 in the H section shown in FIG. In FIG. 31, the top panel 3 and the top panel receiving portion 27 are shown separately so that the shape of the inner wall of the top panel 3 and the shape of the top panel receiving portion 27 can be easily understood. As shown in FIGS. 30 and 31, the top panel receiving portion 27 has a top portion 27a. The top surface portion 27 a is the upper surface portion of the top panel receiving portion 27 . The top panel 27 a faces the inner wall surface of the top panel 3 in the housing 50 . A top surface portion 27 a of the top panel receiving portion 27 is formed in a shape along the inner wall of the top panel 3 . In the shape example of the top panel 3 shown in FIG. 30, the top panel 3 has an inclined surface portion 3a that is inclined downward from the center of the housing 50 toward the outside. A top surface portion 27a of the top surface panel receiving portion 27 is formed so as to be inclined downward outward from the center of the housing 50 along the inner wall of the inclined surface portion 3a. That is, the top surface portion 27a of the top panel receiving portion 27 is arranged so that the opening portion 18h side, which is the front side (Y1 side), is closer to the rear side wall portion 18e side, which is the rear side (Y2 side), in the vertical direction (Z-axis direction). are also inclined so as to increase the distance from the rear upper wall portion 18a. In addition, in the shape example of the top panel 3 shown in FIG. 30 , the top panel 3 is formed to have a curved surface extending outward from the center of the housing 50 . A top surface portion 27a of the top surface panel receiving portion 27 is formed to have a curved surface extending outward from the center of the housing 50 along the inner wall of the inclined surface portion 3a.

The top surface portion 27a is formed so as to extend in the longitudinal direction (X-axis direction) of the back side blocking member 18 . The top surface portion 27a of the top panel receiving portion 27 is arranged so that the distance between the top surface portion 27a and the back upper wall portion 18a in the vertical direction (Z-axis direction) is equal in the longitudinal direction (X-axis direction) of the back-side blocking member 18. formed. Note that the shape of the top surface portion 27a is not limited to a shape formed so as to be inclined downward from the center of the housing 50 toward the outside. The shape of the top panel 27a may be formed along the inner wall of the top panel 3 as described above. For example, if the inner wall of the top panel 3 is stepped, the top panel 27 a may be shaped to follow the step of the top panel 3 .

In the above description, the relationship between the top panel receiving portion 27 of the back side blocking member 18 and the top panel 3 has been described. The same is true of relationships. That is, the top surface portion 27a of the top panel receiving portion 27 is arranged so that the opening portion 19h side, which is the right side (X2 side), is closer to the side wall portion 19e side, which is the left side (X1 side), in the vertical direction (Z-axis direction). It is inclined so that the distance from the side upper wall portion 19a increases. Further, the top surface portion 27a of the side blocking member 19 is formed to have a curved surface extending outward from the center of the housing 50 along the inner wall of the inclined surface portion 3a. The top surface portion 27 a is formed so as to extend in the longitudinal direction (Y-axis direction) of the side blocking member 19 . In the longitudinal direction (Y-axis direction) of the side blocking member 19, the top surface portion 27a of the top panel receiving portion 27 is arranged so that the distance between it and the side upper wall portion 19a in the vertical direction (Z-axis direction) is equal. formed.

[Installation of blocking member 9]
FIG. 32 is an enlarged view of the outdoor unit 100 according to Embodiment 1, showing how the back surface blocking member 18 is attached to the heat exchanger 10. FIG. FIG. 33 is an enlarged view showing the mounting state of the blocking member 9 and the heat exchanger 10 in the outdoor unit 100 according to Embodiment 1. FIG. 32 and 33, the operation of attaching the closing member 9 to the heat exchanger 10 will be described.

When placing the rear covering member 18 on the heat exchanger 10 , the operator may engage the hooks 18 c 7 provided at the longitudinal ends of the rear covering member 18 with the flanges of the heat exchanger end sheet metal 10 d of the heat exchanger 10 . Abutting against the portion 10d3, the rear face covering member 18 is positioned and placed on the heat exchanger 10. As shown in FIG. The hook portion 18 c 7 is a portion used for determining the position of the back covering member 18 with respect to the heat exchanger 10 when attaching the back covering member 18 to the heat exchanger 10 . The heat exchanger end sheet metal 10d is a sheet metal arranged at the end of the heat exchanger 10 closest to the machine room 32 in the direction in which the plurality of fins 10a are arranged. When the heat exchanger 10 is mounted inside the outdoor unit 100, the heat exchanger end sheet metal 10d is fixed to the partition plate 17 and the side panel 2 with bolts. The flange portion 10d3 is a plate-shaped portion projecting from the upper end portion of the heat exchanger end sheet metal 10d toward the machine room 32 side.

The rear blocking member 18 of the blocking member 9 is fixed to the partition plate 17 by screw-fixing the screw fixing member 21 attached to the rear blocking member 18 and the partition plate 17 with the partition plate-side fixing screws 28a. . Further, the rear blocking member 18 of the blocking member 9 is fixed to the housing 50 by screw fixing the screw fixing member 21 attached to the rear blocking member 18 and the side panel 2 with the side panel side fixing screw 28b. be done. That is, the rear blocking member 18 of the blocking member 9 is fixed to the partition plate 17 and the side panel 2 constituting the housing 50 by screw fixation.

The order of installation of the blocking member 9 and the outside air temperature sensor 20 will be described in more detail. The operator positions the rear blocking member 18 of the blocking member 9 as described above and places it on the heat exchanger 10, and attaches the rear blocking member 18 of the blocking member 9 together with the screw fixing member 21 to the partition plate 17 and the side panel. 2. Next, the worker installs the outside air temperature sensor 20 on the top of the heat exchanger 10 . Next, the operator brings the side blocking member 19 of the blocking member 9 into contact with the back blocking member 18 and slides the side blocking member 19 from above to the back blocking member 18 . is fitted to the back covering member 18. Then, the operator attaches the side covering member 19 to the rear covering member 18 and places it on the heat exchanger 10 . The installation order of the blocking member 9 and the outside air temperature sensor 20 described above is an example, and the installation order of the blocking member 9 and the outside air temperature sensor 20 is not limited to the order described above. For example, the operator may fit the side blocking member 19 and the rear blocking member 18 together before installing the blocking member 9 on the heat exchanger 10 .

As shown in FIG. 30 , the top panel receiving portion 27 of the covering member 9 has a top surface portion 27a at a portion that abuts on the top panel 3 . In the outdoor unit 100, when the blocking member 9 is attached to the heat exchanger 10, the top surface portion 27a provided on the back blocking member 18 and the side blocking member 19 of the blocking member 9 is aligned with the top panel 3 in the housing 50. facing each other. The rear blocking member 18 and the side blocking member 19 of the blocking member 9 are sandwiched and held between the top panel 3 and the heat exchanger 10 in the vertical direction (Z-axis direction).

[Operation of outdoor unit 100]
In the driving state of the outdoor unit 100 according to Embodiment 1, the blower 5 is driven in order to increase the efficiency of heat exchange between the refrigerant flowing in the heat exchanger 10 and the outdoor air. The air blower 5 creates a negative pressure between the heat exchanger 10 and the propeller fan 5b, and introduces outside air into the housing 50 from the rear side and the side side of the housing 50 . Then, the air blower 5 discharges the air introduced into the housing 50 and heat-exchanged to the outside of the housing 50 from the air outlet 8 formed on the front side (Y1 side) of the housing 50. Let At this time, the intake air flows into the housing 50 of the outdoor unit 100 through the rear opening 7 and the side opening 1a. The intake air that has flowed into the housing 50 flows between the fins 10a of the heat exchanger 10, thereby exchanging heat with the refrigerant flowing inside the heat transfer tubes 10c.

[Effects of outdoor unit 100]
The outdoor unit 100 of the air conditioner is arranged inside the rear opening 7 and the side opening 1a which are the suction port 51, and is arranged between the heat exchanger 10 and the top panel 3 of the housing 50. It has a blocking member 9 that constitutes a wall between the heat exchanger 10 and the top panel 3 to prevent passage of air into the housing 50 . The closing member 9 is mounted on the heat exchanger 10 and is in contact with the top panel 3 . The outdoor unit without the blocking member 9 has restrictions on the height of the housing due to the parts configuration of the machine room, etc. If the height of the housing and the height of the heat exchanger are different, the height of the heat exchanger and the housing is limited. Since a space is formed between the top panel and the heat exchanger, it becomes difficult to efficiently exchange heat. However, since the outdoor unit 100 has the blocking member 9 , it is possible to prevent a space from being formed between the heat exchanger 10 and the top panel 3 . Since the outdoor unit 100 has the blocking member 9 arranged between the heat exchanger 10 and the top panel 3 of the housing 50, the height of the heat exchanger 10 can be adjusted according to the required amount of heat exchange. It can be made lower than the height of the housing 50 . As a result, in the outdoor unit 100, even if the height of the housing 50 is restricted by the component configuration of the machine room 32, etc., it is not necessary to increase the height of the heat exchanger 10 according to the height of the housing 50. Therefore, the difference between the amount of heat exchange required and the amount of heat exchange that can be performed can be suppressed. In addition, the outdoor unit 100 uses the blocking member 9 that constitutes a wall between the heat exchanger 10 and the top panel 3 for the heat exchanger 10 that can heat-exchange a required amount of heat exchange. Therefore, the outdoor unit 100 can reduce the cost of parts compared to using the heat exchanger 10 that is raised to the same height as the housing 50 for the heat exchanger 10 that can heat-exchange the required amount of heat exchange. be able to.

In an outdoor unit that does not have a blocking member 9, it is conceivable to fill the gap with a resin flat plate where the predetermined height of the heat exchanger is not required. There is a risk that deformation of the top panel may occur at times. The back covering member 18 is positioned between the lower back wall portion 18b that contacts the heat exchanger 10, the upper back wall portion 18a that faces the top panel 3, and the lower back wall portion 18b and the upper back wall portion 18a. and a rear side wall portion 18 e arranged inside the rear opening portion 7 that is the suction port 51 . Further, the back blocking member 18 has a back right end wall portion 18c and a back left end wall portion 18d located at both ends of the back bottom wall portion 18b, the back top wall portion 18a and the back side wall portion 18e in the stacking direction of the plurality of fins 10a. have Therefore, the strength of the back covering member 18 can be secured, and the back covering member 18 is arranged between the heat exchanger 10 and the top panel 3, so that the housing in the vertical direction (Z-axis direction) is The strength of the body 50 can be ensured.

The side blocking member 19 is positioned between the side lower wall portion 19b that contacts the heat exchanger 10, the side upper wall portion 19a that faces the top panel 3, and the side lower wall portion 19b and the side upper wall portion 19a. and a side wall portion 19 e arranged inside the side opening portion 1 a that is the suction port 51 . In addition, the side blocking member 19 includes a side rear end wall portion 19c and a side front end wall portion located at both ends of the side lower wall portion 19b, the side upper wall portion 19a, and the side wall portion 19e in the stacking direction of the plurality of fins 10a. 19d. Therefore, the side blocking member 19 can ensure the strength, and the side blocking member 19 is arranged between the heat exchanger 10 and the top panel 3, so that the housing can be secured in the vertical direction (Z-axis direction). The strength of the body 50 can be ensured.

The back surface lower wall portion 18b and the side surface lower wall portion 19b have pressing portions 23 that abut against the heat exchanger 10 from the thickness direction of the heat exchanger 10 and sandwich the heat exchanger 10 therebetween. The blocking member 9 is restrained from moving in the horizontal direction by the pressing portion 23 and is restrained from collapsing, so that the covering member 9 is stably supported by the heat exchanger 10 .

The holding portion 23 has a positional deviation suppressing rib 23b fitted between the plurality of fins 10a. As described above, the heat exchanger 10 is configured by stacking a plurality of fins 10a in the left-right direction (X-axis direction). The positional deviation suppression rib 23b of the back covering member 18 is arranged between the fins 10a, so that the back covering member 18 is displaced in the left-right direction (X-axis direction) with respect to the heat exchanger 10. There is no Therefore, the back covering member 18 is held at a position positioned with respect to the heat exchanger 10 . Further, the L-shaped heat exchanger 10 is configured by stacking a plurality of fins 10a also in the front-rear direction (Y-axis direction). The positional deviation suppression rib 23b of the side blocking member 19 is arranged between the fins 10a, so that the side blocking member 19 is displaced in the front-rear direction (Y-axis direction) with respect to the heat exchanger 10. There is no Therefore, the side blocking member 19 is held at a position positioned with respect to the heat exchanger 10 .

The rear lower wall portion 18b and the side lower wall portion 19b have press-fitting portions 24 that are press-fitted to the edges of the plurality of fins 10a. The outdoor unit 100 is configured such that the rear blocking member 18 and the side blocking member 19 are press-fitted into the heat exchanger 10 so that the top panel 3 is attached to the rear blocking member 18 and the side blocking member 19 . And the side blocking member 19 is press-fitted and held in the heat exchanger 10 . Therefore, in the outdoor unit 100 , a gap is not generated between the rear blocking member 18 and the side blocking member 19 and the heat exchanger 10 . As a result, even if the outdoor unit 100 vibrates during operation or the like, sliding between the back covering member 18 and the side covering members 19 and the heat exchanger 10 is suppressed. No rubbing sound is generated.

The rear upper wall portion 18a and the side upper wall portion 19a are in contact with the top panel 3 and project from the rear upper wall portion 18a and the side upper wall portion 19a to receive the load from the top panel 3 side. 27. Therefore, the outdoor unit 100 can suppress deformation of the top panel 3 even when a load is applied to the top panel 3 due to stacking of the outdoor units 100 or the like.

The top panel receiving portion 27 has a top surface portion 27 a facing the inner wall surface of the top panel 3 and formed in a shape along the inner wall of the top panel 3 . A top surface portion 27 a of the top panel receiving portion 27 is formed in a shape along the inner wall of the top panel 3 . Therefore, even when a stacking load is applied to the outdoor unit 100 from the upper side of the top panel 3 during storage in a warehouse or the like, the top panel 27a of the blocking member 9 supports the top panel 3 from below. Deformation of the top panel 3 can be prevented.

A screw fixing member 21 that is screw-fixed to the partition plate 17 and the side panel 2 of the housing 50 is attached to the rear right end wall portion 18c via the rear right end wall portion 18c. Therefore, the blocking member 9 is prevented from moving in the horizontal and vertical directions by the partition plate 17 and the housing 50 , and is also prevented from falling down, so that the blocking member 9 is stably supported on the heat exchanger 10 .

An L-shaped hook portion 18c7 to be hooked on the upper end portion of the heat exchanger 10 is formed on the rear right end wall portion 18c. Therefore, when the worker places the covering member 19 on the heat exchanger 10 , positioning of the covering member 9 with respect to the heat exchanger 10 becomes easy.

The blocking member 9 is formed in a groove shape on the rear lower wall portion 18b and the side lower wall portion 19b, and has a sensor attachment portion 25 in which the outside air temperature sensor 20 is accommodated. Therefore, the outdoor unit 100 can place the blocking member 9 on the heat exchanger 10 even if the outside air temperature sensor 20 is attached to the heat exchanger 10 .

The rear upper wall portion 18a and the side upper wall portion 19a have a lead wire guide portion 26 on which the lead wire 20a of the outside air temperature sensor 20 is arranged and which regulates the path of the lead wire 20a. Therefore, the outdoor unit 100 can prevent the generation of noise due to contact between the air passing through the heat exchanger 10 and the lead wire 20a. In addition, the outdoor unit 100 can avoid contact between the fan 5 and the lead wire 20a.

The closing member 9 is formed in the same shape as the heat exchanger 10 when viewed in a direction perpendicular to the base 4 of the housing 50 in which the heat exchanger 10 is arranged. It is arranged so as to cover the upper surface. Therefore, the outdoor unit 100 can prevent the formation of a space between the heat exchanger 10 and the top panel 3 by having the blocking member 9 . As a result, in the outdoor unit 100, even if the height of the housing 50 is restricted by the component configuration of the machine room 32, etc., it is not necessary to increase the height of the heat exchanger 10 according to the height of the housing 50. Therefore, the difference between the amount of heat exchange required and the amount of heat exchange that can be performed can be suppressed. Further, in the outdoor unit 100, the blocking member 9 is arranged between the heat exchanger 10 and the top panel 3, so that the strength of the housing 50 in the vertical direction (Z-axis direction) can be secured.

The outdoor unit 100 includes a heat exchanger 10 formed in an L shape when viewed in the vertical direction with respect to the base 4 and an L shape when viewed in the vertical direction with respect to the base 4. and a blocking member 9 . Therefore, the outdoor unit 100 can prevent the formation of a space between the heat exchanger 10 and the top panel 3 by having the blocking member 9 . As a result, in the outdoor unit 100, even if the height of the housing 50 is restricted by the component configuration of the machine room 32, etc., it is not necessary to increase the height of the heat exchanger 10 according to the height of the housing 50. Therefore, the difference between the amount of heat exchange required and the amount of heat exchange that can be performed can be suppressed. Further, in the outdoor unit 100, the blocking member 9 is arranged between the heat exchanger 10 and the top panel 3, so that the strength of the housing 50 in the vertical direction (Z-axis direction) can be secured.

The blocking member 9 has a rear blocking member 18 arranged on the rear side of the housing 50 and a side blocking member 19 arranged on the lateral side of the housing 50 . Therefore, the outdoor unit 100 can prevent the formation of a space between the heat exchanger 10 and the top panel 3 by having the blocking member 9 . As a result, in the outdoor unit 100, even if the height of the housing 50 is restricted by the component configuration of the machine room 32, etc., it is not necessary to increase the height of the heat exchanger 10 according to the height of the housing 50. Therefore, the difference between the amount of heat exchange required and the amount of heat exchange that can be performed can be suppressed. Further, in the outdoor unit 100, the blocking member 9 is arranged between the heat exchanger 10 and the top panel 3, so that the strength of the housing 50 in the vertical direction (Z-axis direction) can be secured.

The back cover member 18 is arranged inside the back opening 7 , which is the suction port 51 formed in the back panel on the back side of the housing 50 . Further, the side blocking member 19 is arranged inside the side opening 1a which is the suction port 51 formed in the side panel on the side of the housing 50 . Therefore, the outdoor unit 100 can allow the air flowing into the housing 50 from the suction port 51 to pass through the heat exchanger 10 . As a result, the outdoor unit 100 can efficiently exchange heat in the heat exchanger 10 compared to an outdoor unit that does not have the blocking member 9 and forms a space between the top panel and the heat exchanger. .

The blocking member 9 includes a back blocking member 18 and a side blocking member 19 which are separately formed, and the back blocking member 18 and the side blocking member 19 are fitted and connected to each other at the engaging portions 22 . there is Therefore, whether the outdoor unit 100 is installed after integrating the rear surface blocking member 18 and the side surface blocking member 19, or only the rear surface blocking member 18 is installed first, etc. The form of installation can be freely determined.

Embodiment 2.
[Configuration of outdoor unit 100A]
34 is a perspective view of an assembled state of the blocking member 9A of the outdoor unit 100A according to Embodiment 2. FIG. FIG. 35 is a perspective view of the unfolded state of the blocking member 9A of the outdoor unit 100A according to Embodiment 2. FIG. Parts having the same configuration as the outdoor unit 100 shown in FIGS. 1 to 33 are denoted by the same reference numerals, and description thereof will be omitted. The outdoor unit 100 according to Embodiment 2 differs in the structure of the blocking member 9 . In the following description of the outdoor unit 100A, the differences from the outdoor unit 100 will be mainly described, and the configuration other than the differences will be omitted from FIGS. .

The outdoor unit 100 according to Embodiment 1 has the blocking member 9 composed of two parts, the back blocking member 18 and the side blocking member 19, as described above. On the other hand, the outdoor unit 100 according to Embodiment 2 has a blocking member 9A in which the rear blocking member 18 and the side blocking member 19 are integrated.

The blocking member 9A is configured as an integral part in which a back blocking member 18 and a side blocking member 19 are integrally formed. The closing member 9A is configured by connecting the back covering member 18 and the side covering member 19 with a hinge portion 29a and bending the hinge portion 29a. The hinge portion 29 a is connected to the back covering member 18 and the side covering member 19 and formed integrally with the back covering member 18 and the side covering member 19 . The hinge portion 29a is made of the same material as the back covering member 18 and the side covering member 19, for example, a thin plate-shaped resin. That is, the blocking member 9A is formed integrally with the rear blocking member 18 and the side blocking member 19, and the rear blocking member 18 and the side blocking member 19 are hinged thin plates that can be freely bent. They are connected via the portion 29a.

[Action and effect of the outdoor unit 100A]
The back covering member 18 and the side covering member 19 are integrally formed in the covering member 9A, and the back covering member 18 and the side covering member 19 are formed into flexible thin plate-like hinge portions 29a. connected through Since the back cover member 18 and the side cover member 19 are integrally formed in the cover member 9A, the operator can omit the work of fitting the back cover member 18 and the side cover member 19 together. Therefore, the outdoor unit 100A can be assembled efficiently.

The configuration shown in the above embodiment shows an example of the content of the present invention, and it is possible to combine it with another known technology, and one configuration can be used without departing from the scope of the present invention. It is also possible to omit or change the part.

Reference Signs List 1 outer panel, 1a side opening, 2 side panel, 2a second side surface, 2b second rear surface, 3 top panel, 3a inclined surface, 4 base, 4a leg, 5 blower, 5a motor, 5b propeller fan , 6 fan guard, 7 rear opening, 8 outlet, 9 closing member, 9A closing member, 10 heat exchanger, 10a fin, 10c heat transfer tube, 10d heat exchanger end sheet metal, 10d3 flange portion, 10e side area, 10f Back area 10g Curved surface area 11 Front part 12 Side part 13 Back part 14 Motor support member 15 Compressor 16 Refrigerant pipe 17 Partition plate 18 Back closing member 18a Back upper wall part 18b Back bottom Wall portion 18c Rear right end wall portion 18c1 Fixed surface portion 18c11 Lower end portion 18c12 Lower end portion 18c2 Rear side plate wall portion 18c3 Front side plate wall portion 18c4 Protrusion 18c5 Screw hole for fixing side panel 18c6 For fixing partition plate screw hole, 18c7 hook, 18d rear left end wall, 18d1 mounting surface, 18d2 front mounting, 18d21 front projection, 18d22 front claw, 18d23 groove, 18d3 rear mounting, 18d31 rear projection, 18d32 rear claw portion 18d33 groove portion 18d4 recessed portion 18e rear side wall portion 18g rear inner rib 18g1 rib 18g2 rib 18g3 reinforcing rib 18h opening 19 side closing member 19a side upper wall portion 19b side lower portion Wall portion 19c Side rear end wall portion 19c1 Contact portion 19c11 Convex portion 19c2 Intermediate side wall portion 19c21 Insertion portion 19c22 Side side projection portion 19c23 Side side claw portion 19c25 Stopping portion 19c3 Tip side wall portion 19c31 Edge wall portion, 19c32 Notch portion, 19d Side front end wall portion, 19e Side wall portion, 19g Side inner rib, 19g1 Rib, 19g2 Rib, 19g3 Reinforcement rib, 19h Opening, 20 Outside air temperature sensor, 20a Lead wire, 21 Screw fixation Member 21a Main body 21b Fixing part 21c Notch 21d Screw hole 22 Engaging part 23 Holding part 23a Base 23b Misalignment suppression rib 23b1 Bottom edge 23b2 Side edge 23b3 Slanted edge , 24 press-fit portion, 25 sensor mounting portion, 25a back side mounting wall portion, 25b side side mounting wall portion, 25c side side mounting upper wall portion, 26 lead wire guide portion, 26a plate-like portion, 26b guide claw portion, 26c omission Stopper 27 Top Panel Receiving Part 27a Top Panel 28a Partition Plate Side Fixing Screw 28b Side Panel Side Fixing Screw 29a Hinge Part 31 Blower Room 32 Machine Room 50 Housing 51 Inlet 100 Outdoor machine, 100A outdoor unit.

Claims (16)

a housing formed with a suction port into which air flows;
a heat exchanger having a plurality of spaced-apart fins and disposed within the inlet;
In the housing, it is arranged inside the suction port and between the heat exchanger and the top panel of the housing, and between the heat exchanger and the top panel a blocking member forming a wall to prevent passage of air into the housing;
has
The blocking member is
It is placed on the heat exchanger and is in contact with the top panel,
The blocking member is
having an upper wall facing the top panel,
The upper wall portion
An outdoor unit for an air conditioner having a top panel receiving portion that abuts on the top panel and protrudes from the top wall portion to receive a load from the top panel side. The blocking member is
a lower wall portion in contact with the heat exchanger;
a side wall portion located between the lower wall portion and the upper wall portion and arranged inside the suction port;
end wall portions located at both end portions of the lower wall portion, the upper wall portion, and the side wall portions in the stacking direction of the plurality of fins;
The outdoor unit of an air conditioner according to claim 1, comprising: The lower wall portion
3. The outdoor unit of an air conditioner according to claim 2, further comprising a pressing portion that abuts on the heat exchanger from the thickness direction of the heat exchanger and sandwiches the heat exchanger. The holding part is
4. The outdoor unit of an air conditioner according to claim 3, further comprising misalignment suppressing ribs fitted between the plurality of fins. The lower wall portion
The blocking member is provided so as to protrude at a position facing the corners of the plurality of fins and to extend in the stacking direction of the plurality of fins, and the closing member is mounted on the heat exchanger and assembled. The outdoor unit for an air conditioner according to any one of claims 2 to 4, further comprising press-fitting portions that are press-fitted into the edges of the plurality of fins when the fins are closed. The top panel receiving part is
The outdoor unit for an air conditioner according to any one of claims 2 to 5 , further comprising a top panel facing the inner wall surface of the top panel and formed in a shape along the inner wall of the top panel. further comprising a partition plate provided inside the housing for separating the space in the housing into a blower room for housing the heat exchanger and the blower and a machine room for housing the compressor;
The end wall portion located on the machine room side in the stacking direction of the plurality of fins includes:
The outdoor unit for an air conditioner according to any one of claims 2 to 6 , wherein a screw fixing member screw-fixed to said partition plate and said housing is attached via said end wall portion. The end wall portion to which the screw fixing member is attached includes:
8. The outdoor unit of an air conditioner according to claim 7 , wherein an L-shaped hooking portion hooked on the upper end portion of the heat exchanger is formed below the screw fixing member. It further has an outside air temperature sensor that is mounted on the heat exchanger and detects an outdoor ambient temperature,
The blocking member is
The outdoor unit for an air conditioner according to any one of claims 2 to 8 , wherein the lower wall portion has a groove-shaped sensor mounting portion in which the outside air temperature sensor is accommodated. The upper wall portion
10. The outdoor unit of an air conditioner according to claim 9 , further comprising a lead wire guide portion in which a lead wire of said outside air temperature sensor is arranged and which regulates a path of said lead wire. The blocking member is
It is formed in the same shape as the heat exchanger when viewed in the vertical direction with respect to the base of the housing in which the heat exchanger is arranged, and covers the upper surface of the heat exchanger. The outdoor unit of the air conditioner according to any one of claims 2 to 10 , which is arranged. The heat exchanger is
is formed in an L shape when viewed in a direction perpendicular to the base,
The blocking member is
12. The outdoor unit of an air conditioner according to claim 11 , which is formed in an L shape when viewed in a direction perpendicular to the base. The blocking member is
a rear surface blocking member having the lower wall portion, the upper wall portion, the side wall portion, and the end wall portion and arranged on the rear surface side of the housing;
a side surface blocking member having the lower wall portion, the upper wall portion, the side wall portion, and the end wall portion and arranged on the side surface side of the housing;
The outdoor unit of the air conditioner according to claim 12 , comprising: The back covering member is
arranged inside the suction port formed in the rear panel on the rear side of the housing,
The side blocking member is
14. The outdoor unit for an air conditioner according to claim 13 , wherein the air conditioner outdoor unit is arranged inside the suction port formed in the side panel on the side surface side of the housing. The blocking member is
The back covering member and the side covering member are separately formed,
The outdoor unit for an air conditioner according to claim 13 or 14 , wherein the back surface blocking member and the side surface blocking member are connected by being fitted to each other at an engaging portion. The blocking member is
The back covering member and the side covering member are integrally formed,
15. The outdoor unit of an air conditioner according to claim 13 , wherein said back surface covering member and said side surface covering member are connected via a bendable thin plate-shaped hinge portion.

Images