JP6907964B2 - Outdoor unit of air conditioner - Google Patents

Description

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

Conventionally, as in Patent Document 1, an outdoor unit of an air conditioner in which two heat exchangers are arranged facing each other with a gap in the casing has been known.

Japanese Unexamined Patent Publication No. 2016-180544

In the outdoor unit of the air conditioner as in Patent Document 1, frost adheres to the heat exchanger during the heating operation. When the defrosting operation is performed to melt the attached frost, the drain water formed by melting the frost flows down from the heat exchanger. In particular, drain water generated from each heat exchanger flows down to a portion of the bottom plate located between the two heat exchangers. Therefore, a large amount of drain water flows in this portion as compared with other portions. If the heating operation is started without the drain water being sufficiently discharged, the drain water accumulated without being discharged may be re-frozen. If this phenomenon is repeated, frozen drain water may accumulate in the casing, which may cause a failure.

An object of the present disclosure is to sufficiently discharge drain water in an outdoor unit of an air conditioner in which a plurality of heat exchangers are arranged to prevent the drain water from accumulating on the bottom plate.

In the first aspect of the present disclosure, a casing (3) having a bottom plate (5) and a first heat exchanger (11) and a second heat exchanger (12) housed in the casing (3) are provided. An outdoor unit of the air conditioner provided, each of the first heat exchanger (11) and the second heat exchanger (12) is mounted on the bottom plate (5), and the bottom plate (5) is provided. An outer peripheral heat exchange section (14,15) arranged along the outer peripheral edge and an inner heat exchange section (17,18) extending inward from the outer peripheral heat exchange section (14,15) to the inside of the casing (3). The first heat exchanger (11) and the second heat exchanger (12) are arranged so that their inner heat exchangers (17, 18) face each other in the casing (3). Is the drain water generated in the inner heat exchange section (17) of the first heat exchanger (11) and the drain water generated in the inner heat exchange section (18) of the second heat exchanger (12). Both are placed between the inner heat exchanger (17) of the first heat exchanger (11) and the inner heat exchanger (18) of the second heat exchanger (12) to form the bottom plate (5). It is characterized in that an intermediate drainage opening (68) for discharging downward is formed.

In the first aspect, drain water is easily discharged between the first heat exchanger (11) and the second heat exchanger (12). Therefore, it is possible to prevent the drain water from accumulating on the bottom plate (5).

Further, in the first aspect, a plurality of peaks (51) and a plurality of valleys (52) are alternately formed on the bottom plate (5), and the peaks (51) and the valleys (52) are formed alternately. ) Extends in the direction along the inner heat exchange portions (17, 18), and the inner heat exchange portion (17) of the first heat exchanger (11) is placed on one of the two adjacent mountain portions (51). However, on the other hand, the inner heat exchange section (18) of the second heat exchanger (12) is supported, respectively, and the inner heat exchange section (17) of the first heat exchanger (11) is supported. The valley portion located between the mountain portion (51) and the mountain portion (51) supporting the inner heat exchange portion (18) of the second heat exchanger (12) is the intermediate valley portion (66). The intermediate valley portion (66) is sandwiched between the inner heat exchange portion (17) of the first heat exchanger (11) and the inner heat exchange portion (18) of the second heat exchanger (12). It is not sandwiched between the first region and either the inner heat exchange section (17) of the first heat exchanger (11) or the inner heat exchange section (18) of the second heat exchanger (12). The intermediate drainage opening (68) including the second region is characterized in that it is formed in both the first region and the second region of the intermediate valley portion (66).

A second aspect of the present disclosure is, in the first aspect, an elongated hole in which the intermediate drainage opening (68) penetrates the bottom plate (5) and extends in a direction along the inner heat exchange portions (17,18). It is a drain discharge hole (68) having a shape, and is characterized in that a plurality of drain holes (68) are formed side by side in a direction along the inner heat exchange portions (17, 18).

In the second aspect, the intermediate drainage opening (68) can be easily provided. Further, the drain water can be more easily discharged between the first heat exchanger (11) and the second heat exchanger (12).

A third aspect of the present disclosure is, in the first or second aspect, the bottom plate (5) is a first bottom plate member (61) located below the first heat exchanger (11) and the first. 2 A second bottom plate member (62) located below the heat exchanger (12) is provided, and the intermediate drainage opening (62) is provided only in one of the first bottom plate member (61) and the second bottom plate member (62). 68) is formed.

In the third aspect, the intermediate drainage opening (68) can be provided while suppressing the increase in size of the member by dividing the bottom plate (5) into a plurality of members.

In the first aspect, the bottom plate (5) can be corrugated. Therefore, the strength of the bottom plate (5) can be increased.

In the first aspect, the drain water generated from the first heat exchanger (11) and the second heat exchanger (12) is likely to fall into the intermediate drainage opening (68). Therefore, the drain water can be easily discharged from the bottom plate (5).

In the first aspect, the first heat exchanger (11) and the second heat exchanger (12) can be stably supported.

FIG. 1 is a perspective view of an outdoor unit of the air conditioner according to the embodiment. FIG. 2 is a schematic plan view showing the bottom plate and the installation legs. FIG. 3 is a schematic front view showing the bottom plate.

<< Embodiment >>
An embodiment will be described. This embodiment is an outdoor unit (2) of an air conditioner. The air conditioner provided with the outdoor unit (2) of the present embodiment cools and heats an indoor space such as an office. The target space for air conditioning by the air conditioner is not limited to the living room space such as an office or a house, but is a space in a warehouse for storing articles, a work space for handling articles (for example, a clean room), and the like. You may.

-Outdoor unit configuration-
The configuration of the outdoor unit (2) will be described. In the following description, "upper", "lower", "left", "right", "front" and "rear" mean the directions shown in FIG. 1 unless otherwise specified.

As shown in FIG. 1, the outdoor unit (2) of the air conditioner of the present embodiment is formed in a substantially rectangular parallelepiped shape. The outdoor unit (2) is a top-blowing type outdoor unit (2) that takes in air from the side and blows it upward.

As shown in FIG. 2, the outdoor unit (2) has a first heat exchanger (11), a second heat exchanger (12), a first compressor (21), and a second compressor in the casing (3). (22), 1st electrical component box (23), 2nd electrical component box (24), 1st oil separator (25), 2nd oil separator (26), and accumulator (27) are mainly provided. .. The first heat exchanger (11), the first compressor (21), the first electrical component box (23), the first oil separator (25) and the accumulator (27) are located on the right side inside the casing (3). Has been done. On the other hand, the second heat exchanger (12), the second compressor (22), the second electrical component box (24) and the second oil separator (26) are arranged on the left side in the casing (3). ..

<casing>
As shown in FIGS. 1 to 3, the casing (3) includes an installation leg (4), a bottom plate (5), a support (7), a fan module (8), and a front panel (9). ing.

The installation legs (4) are provided at the lower end of the casing (3). The installation legs (4) are a pair of members provided at the front end and the rear end of the casing (3), respectively, and extending in the left-right direction.

The bottom plate (5) is bridged over a pair of installation legs (4) to form the bottom surface of the casing (3). The bottom plate (5) has a corrugated plate shape in which a plurality of peaks (51) and a plurality of valleys (52) are alternately formed in the left-right direction. The details of the bottom plate (5) will be described later.

The support column (7) is composed of a first support column (7a) and a second support column (7b). The first column (7a) extends vertically from the corner position of the bottom plate (5). That is, four first columns (7a) are provided. The second support column (7b) extends vertically from the left-right position in the center of the pair of installation legs (4) in the left-right direction. That is, two second columns (7b) are provided.

The fan module (8) forms the top of the casing (3). The fan module (8) is located above the stanchion (7). The fan module (8) is a substantially rectangular parallelepiped box with open upper and lower surfaces. The fan module (8) forms a part of the air passage through which the upward air passes by opening the upper surface and the lower surface. The front, back, left and right surfaces of the fan module (8) are covered with sheet metal. In particular, the front surface of the fan module (8) is covered with a front panel (9), which will be described later. The fan module (8) has a pair of left and right fans (81) and a bell mouth (82) inside. The fan module (8) has a blowout grill (83) in the opening on the top surface.

The front panel (9) forms the front surface of the casing (3). The front panel (9) is divided into four in the left-right direction. The front panel (9) is provided from the upper end to the lower end of the casing (3).

<Heat exchanger>
The outdoor unit (2) includes a first heat exchanger (11) and a second heat exchanger (12) as heat exchangers. The first heat exchanger (11) and the second heat exchanger (12) include a large number of heat transfer tubes and fins. The heat transfer tubes are so-called flat tubes, and are arranged at regular intervals in the vertical direction. The fins are formed in an upright plate shape and are arranged at regular intervals in the axial direction of the heat transfer tube. The material of the heat transfer tube and the fins are both aluminum alloys. The first heat exchanger (11) and the second heat exchanger (12) are multi-row heat exchangers in which flat tubes are arranged in two rows. Further, the first heat exchanger (11) and the second heat exchanger (12) are each formed so that air passes from the outer surface to the inner surface.

As described above, the first heat exchanger (11) is located on the right side inside the casing (3). Specifically, the first heat exchanger (11) is located on the right side of the second column (7b).

As shown in FIG. 2, the first heat exchanger (11) is formed so as to bend in a substantially U-shape in the top view. The right end of the first heat exchanger (11) is located at the front end of the bottom plate (5). On the other hand, the left end of the first heat exchanger (11) is located at a position closer to the front of the middle portion in the front-rear direction of the bottom plate (5). The first heat exchanger (11) has a first outer peripheral heat exchange portion (14) as an outer peripheral heat exchange portion having the right end portion and a first inner side as an inner heat exchange portion having the left end portion. It consists of a heat exchange unit (17).

The first outer peripheral heat exchange portion (14) is arranged along the outer peripheral edge of the bottom plate (5). Specifically, the first outer peripheral heat exchange portion (14) is the first of the first heat exchangers (11) along the right surface portion (14a) along the right end edge of the bottom plate (5) and the right rear end edge. It is bent to include a rear surface (14b). That is, the first outer peripheral heat exchange portion (14) faces the outside of the casing (3). The right surface portion (14a) is supported by the right side stay (55) described later. The first rear surface portion (14b) is supported by the installation legs (4) and the bottom plate (5).

The first inner heat exchange portion (17) is continuously formed so as to extend from the first outer peripheral heat exchange portion (14) to the inside of the casing (3). The first inner heat exchange portion (17) is formed by being bent forward from the left end portion of the first rear surface portion (14b). That is, the first inner heat exchange portion (17) faces the right surface portion (14a) of the first outer peripheral heat exchange portion (14). As also shown in FIG. 1, the first inner heat exchange portion (17) is located at a position to the right of the second support column (7b). The first inner heat exchange portion (17) is supported by a second bottom plate member (62), which will be described later.

As mentioned above, the second heat exchanger (12) is located on the left side in the casing (3). Specifically, the second heat exchanger (12) is located on the left side of the second column (7b).

As shown in FIG. 2, the second heat exchanger (12) is formed so as to bend in a substantially U-shape in the top view. The left end of the second heat exchanger (12) is located at the front end of the bottom plate (5). On the other hand, the right end of the second heat exchanger (12) is located closer to the front of the bottom plate (5) in the front-rear direction. The second heat exchanger (12) has a second outer peripheral heat exchange portion (15) as an outer peripheral heat exchange portion having the left end portion and a second inner side as an inner heat exchange portion having the right end portion. It consists of a heat exchange unit (18).

The second outer peripheral heat exchange portion (15) is arranged along the outer peripheral edge of the bottom plate (5). Specifically, the second outer peripheral heat exchanger (15) is a second heat exchanger (12) along the left end edge (15a) along the left edge of the bottom plate (5) and the left rear edge. It is bent so as to have a rear surface portion (15b). That is, the second outer peripheral heat exchange portion (15) faces the outside of the casing (3). The left surface portion (15a) is supported by the left side stay (55) described later. The second rear surface portion (15b) is supported by the installation legs (4) and the bottom plate (5).

The second inner heat exchange portion (18) is continuously formed so as to extend from the second outer peripheral heat exchange portion (15) to the inside of the casing (3). The second inner heat exchange portion (18) is formed by being bent forward from the right end portion of the second rear surface portion (15b). That is, the second inner heat exchange portion (18) faces the left surface portion (15a) of the second outer peripheral heat exchange portion (15). As also shown in FIG. 1, the second inner heat exchange portion (18) is located at a position to the left of the second support column (7b). The second inner heat exchange portion (18) is supported by a second bottom plate member (62), which will be described later.

With such a configuration, the first heat exchanger (11) and the second heat exchanger (12) are placed in front of the inner heat exchangers (17, 18) in the casing (3) near the center in the left-right direction. (Outer surfaces) are arranged so as to face each other.

-Details of bottom plate-
The bottom plate (5) includes a bottom plate main body (60) forming most of the bottom plate (5) and a pair of side stays (55) forming both ends in the left-right direction.

Side stays (55) are provided at the left and right ends of the bottom plate (5), respectively. The side stays (55) are arranged so as to span the left and right ends of the pair of installation legs (4). The side stays (55) include a bottom surface portion constituting the bottom surface of the casing (3) and an ear portion formed at both ends in the front-rear direction and extending upward.

The right side portion (14a) of the first outer peripheral heat exchange portion (14) is placed on the bottom surface portion of the right side stay (55). On the bottom surface of the side stay (55) on the right side, a plurality of elongated through holes extending in the front-rear direction are formed side by side in the front-rear direction.

The left surface portion (15a) of the second outer peripheral heat exchange portion (15) is placed on the bottom surface portion of the left side stay (55). On the bottom surface of the left side stay (55), a plurality of elongated through holes extending in the front-rear direction are formed side by side in the front-rear direction.

<Bottom plate body>
The bottom plate body (60) forms most of the bottom surface of the casing (3). The bottom plate body (60) is provided between a pair of side stays (55) and a pair of installation legs (4). The bottom plate body (60) has a plurality of peaks (51) and a plurality of valleys (52) extending in the front-rear direction, respectively. The peaks (51) and valleys (52) are formed alternately in the left-right direction. That is, each peak (51) and valley (52) extends in a direction along the first inner heat exchange portion (17) and the second inner heat exchange portion (18). The first inner heat exchange portion (17) and the second inner heat exchange portion (18) are placed and supported on the mountain portion (51) of the bottom plate main body (60).

The bottom plate main body (60) is divided into a second bottom plate member (62), a first bottom plate member (61), and a third bottom plate member (63) in this order from the left.

The second bottom plate member (62) forms from the left end of the bottom plate main body (60) to the position to the right of the portion corresponding to the second support column (7b). The second bottom plate member (62) is connected to a pair of installation legs (4). A second heat exchanger (12) is located above the second bottom plate member (62). Further, the first inner heat exchange portion (17) of the first heat exchanger (11) is also located above the second bottom plate member (62).

An intermediate portion (65) is formed at a position of the second bottom plate member (62) corresponding to the vicinity of the central portion in the left-right direction of the bottom plate main body (60). The intermediate portion (65) is located between the first inner heat exchange portion (17) and the second inner heat exchange portion (18). The intermediate portion (65) includes an intermediate valley portion (66) which is one of the valley portions (52) of the second bottom plate member (62). A drain discharge hole (68) is formed in the intermediate valley portion (66) as an intermediate drainage opening for discharging drain water below the bottom plate (5). The drain discharge hole (68) is an elongated hole that penetrates the second bottom plate member (62) and extends in the front-rear direction. A plurality of drain discharge holes (68) are formed side by side in the front-rear direction.

The first inner heat exchange section (17) is placed on the mountain section (51) formed to the right of the intermediate valley section (66). On the other hand, the second inner heat exchange portion (18) is placed on the mountain portion (51) formed to the left of the intermediate valley portion (66). That is, the first inner heat exchange portion (17) and the second heat inner heat exchange portion are supported by the mountain portion (51) of the second bottom plate member (62).

The first bottom plate member (61) forms from the position on the right side of the second support column (7b) to the position on the right side of the middle portion in the left-right direction of the first heat exchanger (11). The first bottom plate member (61) is connected to a pair of installation legs (4). The first heat exchanger (11) is located above the first bottom plate member (61).

The third bottom plate member (63) forms from the position on the right side of the middle portion in the left-right direction of the first heat exchanger (11) to the right end of the bottom plate main body (60). The third bottom plate member (63) is connected to a pair of installation legs (4). The first heat exchanger (11) is located above the third bottom plate member (63).

-Effect of Embodiment 1-
The outdoor unit (2) of the air conditioner of the present embodiment includes a casing (3) having a bottom plate (5), and a first heat exchanger (11) and a second heat exchanger housed in the casing (3). (12) and. The first heat exchanger (11) includes a first outer peripheral heat exchange portion (14) arranged along the right end edge and the right rear end edge of the bottom plate (5), and a first outer peripheral heat exchange portion (14). The second heat exchanger (12) is provided along the left edge and the left rear edge of the bottom plate (5), with a first inner heat exchanger (17) extending inward from the left edge of the casing (3). A second outer peripheral heat exchange section (15) arranged in the first outer peripheral heat exchange section (15) and a second inner heat exchange section (18) extending inward of the casing (3) from the right end of the second outer peripheral heat exchange section (15). In the heat exchanger (11) and the second heat exchanger (12), the first inner heat exchanger (17) and the second inner heat exchanger (18) are arranged so as to face each other, and the bottom plate main body (12) In 60), there is a drain discharge hole (68) as an intermediate drainage opening for draining drain water from between the first inner heat exchange section (17) and the second inner heat exchange section (18) to the lower side of the bottom plate (5). ) Is formed.

In the present embodiment, the drain water of the first inner heat exchange section (17) and the second inner heat exchange section (18) falls on the intermediate portion (65) as compared with the other portions on the bottom plate (5). A large amount of drain water flows. Since the drain discharge hole (68) is formed in the intermediate portion (65), the drain water can be easily discharged below the first inner heat exchange portion (17) and the second inner heat exchange portion (18). Therefore, it is possible to suppress the accumulation of drain water in the intermediate portion (65).

Further, in the outdoor unit (2) of the air conditioner of the present embodiment, the intermediate drainage opening (68) penetrates the bottom plate main body (60) and is in the front-rear direction. It is an elongated drain discharge hole (68) extending in the direction along the inner heat exchange portion (18), and a plurality of drain discharge holes (68) are formed side by side in the front-rear direction.

In the present embodiment, the intermediate drainage opening (68) can be easily provided by making the intermediate drainage opening (68) a through hole. In addition, a drain discharge hole (68) is formed in a wide range of the intermediate portion (65). Therefore, the drain water can be more easily discharged in the intermediate portion (65).

Further, in the outdoor unit (2) of the air conditioner of the present embodiment, the bottom plate main body (60) is the second heat exchange with the first bottom plate member (61) located below the first heat exchanger (11). It is divided into a second bottom plate member (62) located below the vessel (12), and an intermediate portion (65) is formed only on the second bottom plate member (62).

In the present embodiment, by dividing the bottom plate main body (60) into a plurality of members, it is possible to provide a drain discharge hole (68) in the intermediate portion (65) while suppressing the increase in size of the members.

Further, in the outdoor unit (2) of the air conditioner of the present embodiment, a plurality of peaks (51) and a plurality of valleys (52) are alternately formed on the bottom plate main body (60) of the bottom plate (5). Has been done.

In the present embodiment, the bottom plate main body (60) can be formed into a corrugated plate shape. Therefore, the strength of the bottom plate main body (60) can be increased. Therefore, the strength of the bottom plate main body (60) can be ensured even if the through holes that serve as the drain discharge holes (68) are provided in a wide range.

Further, in the outdoor unit (2) of the air conditioner of the present embodiment, the first inner heat exchange section (17) and the second inner heat exchange section (18) are mountainous portions adjacent to the intermediate valley section (66). Supported by (51), the drain discharge hole (68) is formed in the intermediate valley (66).

In the present embodiment, the drain water generated from the first heat exchanger (11) and the second heat exchanger (12) falls to the mountain portion (51) and then easily flows to the intermediate valley portion (66). Therefore, the drain water easily flows to the drain discharge hole (68). Therefore, the drain water can be easily discharged in the intermediate portion (65).

Further, in the outdoor unit (2) of the air conditioner of the present embodiment, the mountain portion (51) and the valley portion (52) are connected to the first inner heat exchange section (17) and the second inner heat exchange section (18). It extends along the direction.

In this embodiment, the first heat exchanger (11) and the second heat exchanger (12) can be stably supported.

<< Other Embodiments >>
The above embodiment may have the following configuration.

In the outdoor unit (2) of the air conditioner of the above embodiment, the first inner heat exchange unit (17) is the first bottom plate member (61), and the second inner heat exchange unit (18) is the second bottom plate member. It may be supported by (62). At this time, the first bottom plate member (61) and the second bottom plate member (62) may be arranged at intervals in the left-right direction. That is, the intermediate portion (65) is formed over the first bottom plate member (61) and the second bottom plate member (62). Further, the intermediate drainage opening (68) is a gap between the first bottom plate member (61) and the second bottom plate member (62). Specifically, the intermediate drainage opening (68) is, for example, a slit-shaped gap having a width of about 10 mm.

In this form, by dividing the bottom plate (5) into a plurality of members, the intermediate drainage opening (68) can be provided while suppressing the increase in size of the members. Further, the intermediate drainage opening (68) can be easily provided without requiring the step of forming a through hole in the bottom plate main body (60).

Further, in the above embodiment, the first heat exchanger (11) and the second heat exchanger (12) are multi-row heat exchangers in which flat tubes are arranged in two rows, but the present invention is not limited thereto. .. The first heat exchanger (11) and the second heat exchanger (12) may be heat exchangers in which flat tubes are arranged in one row, or heat exchangers in which flat tubes are arranged in three or more rows. Moreover, the form of the first heat exchanger (11) and the second heat exchanger (12) may be changed as appropriate.

Although the embodiments and modifications have been described above, it will be understood that various modifications of the forms and details are possible without departing from the purpose and scope of the claims. Further, the above embodiments and modifications may be appropriately combined or replaced as long as the functions of the subject of the present disclosure are not impaired.

As described above, the present disclosure is useful for outdoor units of air conditioners.

2 outdoor unit
3 casing
5 bottom plate
11 1st heat exchanger
12 Second heat exchanger
14 1st outer peripheral heat exchange part (outer peripheral heat exchange part)
15 Second outer peripheral heat exchange section (outer peripheral heat exchange section)
17 1st inner heat exchange part (inner heat exchange part)
18 2nd inner heat exchange part (inner heat exchange part)
51 Yamabe
52 Tanibe
61 First bottom plate member
62 Second bottom plate member
68 Drain drain hole (intermediate drain opening)

Claims (3)

An outdoor unit of an air conditioner including a casing (3) having a bottom plate (5) and a first heat exchanger (11) and a second heat exchanger (12) housed in the casing (3). hand,
Each of the first heat exchanger (11) and the second heat exchanger (12)
Placed on the bottom plate (5) above
The outer peripheral heat exchange portions (14,15) arranged along the outer peripheral edge of the bottom plate (5), and
It is provided with an inner heat exchange part (17,18) extending inward from the outer peripheral heat exchange part (14,15) to the inner side of the casing (3).
The first heat exchanger (11) and the second heat exchanger (12) are arranged so that their inner heat exchangers (17, 18) face each other.
In the casing (3), the drain water generated in the inner heat exchange section (17) of the first heat exchanger (11) and the inner heat exchange section (18) of the second heat exchanger (12) From between the inner heat exchange section (17) of the first heat exchanger (11) and the inner heat exchange section (18) of the second heat exchanger (12), both of the drain water generated in An intermediate drainage opening (68) is formed to drain below the bottom plate (5) .
A plurality of peaks (51) and a plurality of valleys (52) are alternately formed on the bottom plate (5).
The mountain portion (51) and the valley portion (52) extend in the direction along the inner heat exchange portions (17,18).
The inner heat exchange section (17) of the first heat exchanger (11) is on one of the two adjacent mountain portions (51), and the inner heat exchange section of the second heat exchanger (12) is on the other side. (18) are supported respectively
The mountain portion (51) supporting the inner heat exchange portion (17) of the first heat exchanger (11) and the inner heat exchange portion (18) of the second heat exchanger (12) are supported. The above valley located between the mountains (51) is the middle valley (66).
The above middle valley (66) is
The first region sandwiched between the inner heat exchange section (17) of the first heat exchanger (11) and the inner heat exchange section (18) of the second heat exchanger (12),
Includes a second region that is not sandwiched between either the inner heat exchange section (17) of the first heat exchanger (11) or the inner heat exchange section (18) of the second heat exchanger (12). ,
The outdoor unit of the air conditioner, wherein the intermediate drainage opening (68) is formed in both the first region and the second region of the intermediate valley portion (66). In claim 1,
The intermediate drainage opening (68) is an elongated drain discharge hole (68) that penetrates the bottom plate (5) and extends in a direction along the inner heat exchange portions (17,18), and is the inner heat exchange. An outdoor unit of an air conditioner, characterized in that a plurality of air conditioners are formed side by side along the sections (17, 18). In claim 1 or 2,
The bottom plate (5) includes a first bottom plate member (61) located below the first heat exchanger (11) and a second bottom plate member (62) located below the second heat exchanger (12). ) And
An outdoor unit of an air conditioner, characterized in that the intermediate drainage opening (68) is formed only in one of the first bottom plate member (61) and the second bottom plate member (62).

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