JP6936160B2 - Outdoor unit of air conditioner - Google Patents

Description

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

Conventionally, in the outdoor unit of an air conditioner, it has been known that the water flowing from the heat exchanger to the bottom frame is drained through a drainage channel formed above the support portion of the installation leg. (See, for example, Patent Document 1).

JP-A-2017-194229

By the way, in the conventional invention, the drainage channel is provided on the end side of the bottom frame where the installation legs are provided, but the remaining end side is not particularly devised in consideration of drainage. There was a risk that the water that had flowed down from the heat exchanger to the bottom frame would leak from the remaining end side.

An object of the present disclosure is to improve the drainage performance of water flowing from a heat exchanger.

The first aspect of the present disclosure is intended for an outdoor unit of an air conditioner in which a heat exchanger (10) is provided in a casing (20). Then, a corrugated bottom plate (22) in which a mountain portion (22a) and a valley portion (22b) extending in the front-rear direction or the left-right direction are formed, and the peak portion (22a) and the valley portion of the bottom plate (22). A support portion (33) that supports the end portion on the side where (22b) can be seen from below, and a wall portion (34) that is located outside the end portion of the bottom plate (22) and extends upward from the support portion (33). At the corners of the casing (20) and a side stay (40) having an outer wall portion (42) extending upward along the edge of the remaining end of the bottom plate (22). A column (23) to be erected is provided, and a longitudinal end of the side stay (40) is connected to the column (23) .

In the first aspect, the end of the bottom plate (22) on the side where the peaks (22a) and valleys (22b) can be seen is supported from below by the installation legs (30). The remaining end of the bottom plate (22) is provided with side stays (40) along the edges of this end. As a result, it is possible to prevent the water flowing from the heat exchanger (10) from leaking to the outside from the end portion of the bottom plate (22).

Further, the longitudinal end of the side stay (40) is connected to the support column (23) of the casing (20).

A second aspect of the present disclosure is that, in the first aspect, the longitudinal end of the side stay (40) is more than the outer wall (42) of the longitudinal central portion of the side stay (40). A reinforcing portion (44) having a high height and being connected to the support column (23) is provided.

In the second aspect, a reinforcing portion (44) is provided at the longitudinal end of the side stay (40). The reinforcing portion (44) is higher in height than the outer wall portion (42) of the central portion in the longitudinal direction of the side stay (40).

In a third aspect of the present disclosure, in the first or second aspect , the side stay (40) has a mounting portion (41) on which at least a part of the heat exchanger (10) is mounted. It is a thing.

In the third aspect, by providing the mounting portion (41) on the side stay (40), the side stay (40) is used as a member for mounting at least a part of the heat exchanger (10). I have to.

In the fourth aspect of the present disclosure, in the third aspect, the side stay (40) is formed with a hole (45) penetrating in the vertical direction.

In the fourth aspect, by forming the hole (45) in the side stay (40), the water flowing from the heat exchanger (10) to the side stay (40) is drained from the hole (45).

In the fifth aspect of the present disclosure, in any one of the first to fourth aspects, the plate thickness of the side stay (40) is thicker than the plate thickness of the bottom plate (22).

In the fifth aspect, the plate thickness of the side stay (40) is made thicker than the plate thickness of the bottom plate (22).

FIG. 1 is a perspective view of the outdoor unit of the embodiment as viewed from the rear side. FIG. 2 is a plan view showing the configuration of the base member. FIG. 3 is a cross-sectional view taken along the line III-III of FIG. FIG. 4 is a side view showing the configuration of the side stay. FIG. 5 is a side view showing the configuration of the side stay in a partially enlarged manner. FIG. 6 is a perspective view showing a state before connecting the support column to the installation leg and the side stay. FIG. 7 is a perspective view showing a state in which the support columns are connected to the installation legs and the side stays. FIG. 8 is a cross-sectional view taken along the line VIII-VIII of FIG.

An embodiment will be described.

This embodiment relates to an outdoor unit (1) of an air conditioner. This air conditioner is, for example, a multi-type air conditioner configured by connecting a plurality of indoor units (not shown) to one outdoor unit (1) by a connecting pipe. As for the outdoor unit (1) of this air conditioner, for example, a plurality of outdoor units are installed side by side outdoors, and a plurality of indoor units are connected to each.

The air conditioner provided with the outdoor unit (1) 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.

<Overall structure of outdoor unit>
The configuration of the outdoor unit (1) 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 (1) includes a first unit (1A) located on the right side and a second unit (1B) located on the left side when viewed from the front side, and the first unit (1A). And the second unit (1B) are integrally configured.

The outdoor unit (1) is provided with a vertical rectangular parallelepiped casing (20), and the components of the refrigerant circuit are housed inside the casing (20). The casing (20) includes a base member (21), a support column (23), and a fan module (25), and is configured by combining these.

The base member (21) forms the bottom of the casing (20). The base member (21) includes a rectangular bottom plate (22), a long installation leg (30) that is fixed to the leading edge and the trailing edge of the bottom plate (22) and supports the bottom plate (22) from below. It has side stays (40) fixed to the left and right side edges of the bottom plate (22). At the four corners of the base member (21), four columns (23) extend in the vertical direction. The details of the base member (21) will be described later.

The fan module (25) forms the top of the casing (20). The fan module (25) is located above the stanchion (23). The fan module (25) is an assembly in which a pair of left and right fans (26) and a bell mouth (27) are housed in a substantially rectangular parallelepiped box body having an open upper surface, lower surface, and front surface. The fan module (25) has a blowout grill (28) in the opening on the top surface.

The fan module (25) houses a fan (26) in which the central axis of rotation extends in the vertical direction so as to blow out air upward. Although not shown, a fan motor is provided below the fan (26). When the fan (26) is rotated, air is sucked into the casing (20) from the outside of the casing (20) through the heat exchanger (10), and the sucked air is sucked into the fan module (25) by the fan (26). ) Is blown upward.

The front surface of the casing (20) is covered by a front panel (not shown). The front panel is provided from the installation leg (30) to the upper end of the fan module (25).

As shown in FIG. 2, the outdoor unit (1) includes a compressor (3), a heat exchanger (10), an outdoor expansion valve (not shown), an accumulator (4), an oil separator (5), and other refrigerants. Parts such as circuit components and control equipment (electrical component box (6)) containing electronic components for controlling the refrigerant circuit are provided. The indoor unit is provided with equipment such as an indoor expansion valve and an indoor heat exchanger.

The heat exchanger (10) is provided in the casing (20). The heat exchanger (10) includes a first heat exchanger (10a) provided in the first unit (1A) and a second heat exchanger (10b) provided in the second unit (1B). Each heat exchanger (10) has a plate-shaped three-sided heat exchange portion (11) and a bent portion (12) between the heat exchange portions (11), and has a U-shape in a plan view. It is formed.

Although details are omitted, the heat exchanger (10) is a heat exchanger in which the ends of a plurality of flat pipes arranged in parallel with each other and extending in the horizontal direction are connected to a header collecting pipe, and there are many heat exchangers in the flat pipes. Fins are attached at a small pitch. Each heat exchanger (10) is a multi-row heat exchanger in which flat tubes are arranged in two rows.

<Base member>
The base member (21) has a bottom plate (22), an installation leg (30), and a side stay (40). The bottom plate (22) is formed of a corrugated plate-like member in which peaks (22a) and valleys (22b) are alternately formed in the left-right direction of the outdoor unit (1).

As shown in FIG. 3, the valley portion (22b) is the lowermost substantially flat surface portion of the bottom plate (22). A drain hole (22c) is formed at a position near the heat exchanger (10) in the valley (22b). This makes it possible to drain water from the valley (22b) where the water flowing from the heat exchanger (10) is most likely to collect, through the drain hole (22c).

The mountain part (22a) is a part protruding upward from the valley part (22b), and the valley part (22b) is continuous with the part forming the inclined surface upward from the valley part (22b) and the part forming the inclined surface. ) Includes a portion forming a substantially flat surface located above.

The installation legs (30) include a fixing portion (31) fixed to the installation surface, an upright portion (32) extending upward from one end of the fixing portion (31) in the front-rear direction, and a bottom plate (22). On the outside of the support part (33) that supports the end part on the side where the peak part (22a) and the valley part (22b) can be seen (here, in the front-rear direction) from below, and the front end part and the rear end part of the bottom plate (22). A wall portion (34) that is positioned and extends upward from the support portion (33), and a mounting portion (35) that extends outward from the upper end of the wall portion (34) and on which the heat exchanger (10) is mounted. It has an edge portion (36) extending upward from the outer edge of the mounting portion (35).

The valley portion (22b) of the bottom plate (22) is placed on the support portion (33). A predetermined gap (C) is provided between the edge of the bottom plate (22) mounted on the support portion (33) and the inner edge of the mounting portion (35) of the installation leg (30). ing. This gap (C) forms a drainage channel for flowing water adhering to the mountain portion (22a) of the bottom plate (22) to the support portion (33).

Here, the support portion (33) is in contact with the valley portion (22b) of the bottom plate (22) and supports the installation leg (30) from below, but is between the support portion (33) and the mountain portion (22a) of the bottom plate (22). Is a space formed. Since this space communicates with the gap (C), the gap (C) functions as a drainage channel.

Then, the water guided to the support portion (33) through the gap (C) flows down below the bottom plate (22) through the space between the mountain portion (22a) and the support portion (33) of the bottom plate (22), so that the casing It is difficult for it to flow out to the outside of (20).

A plurality of drain holes (35a) penetrating in the vertical direction are formed in the mounting portion (35) of the installation leg (30) at intervals in the horizontal direction. The upper surface of the mounting portion (35) of the installation leg (30) is substantially flush with the upper surface of the mountain portion (22a) of the bottom plate (22) mounted on the support portion (33). An elastic member (37) is arranged so as to straddle the mountain portion (22a) of the bottom plate (22) and the mounting portion (35) of the installation leg (30).

The elastic member (37) is made of, for example, a rubber material, and has a shape in which a portion corresponding to a valley portion (22b) of the bottom plate (22) is cut out in a plan view (see also FIG. 2). .. A through hole (38) is formed at a position of the elastic member (37) corresponding to the mounting portion (35).

The heat exchanger (10) is mounted over the mountain portion (22a) of the bottom plate (22) and the mounting portion (35) of the installation leg (30) via the elastic member (37). There is.

Further, in FIG. 3, the flow of water is shown by the virtual arrow line, and the water flowing from the heat exchanger (10) is drained from the mounting portion (35) of the installation leg (30). The hole (35a), the drainage hole (22c) formed in the valley portion (22b) of the bottom plate (22), the wall portion (34) of the installation leg (30), and the support while communicating with the gap (C). The water is drained to the outside of the casing (20) from the drainage channel defined by the portion (33) and the mountain portion (22a) of the bottom plate (22).

As shown in FIGS. 4 and 5, the side stays (40) are arranged so as to span both ends of the pair of installation legs (30) in the left-right direction. The side stays (40) form the bottom surface of the casing (20) and are upward along the mounting portion (41) on which the heat exchanger (10) is mounted and the outer edge of the mounting portion (41). It has an outer wall portion (42) extending to the outside and an overhanging portion (41a) extending outward in the front-rear direction from the mounting portion (41).

At the front-rear end of the support portion (33) of the installation leg (30), a mounting base (39) that bends upward and then projects further outward is provided. The overhanging portion (41a) of the side stay (40) is placed on the mounting base (39) and fastened to the mounting base (39) by the fastening screw (50). As a result, the side stays (40) are connected to the installation legs (30) in a state of being bridged to the front and rear installation legs (30).

Reinforcing portions (44) extending upward are provided at both ends of the outer wall portion (42) of the side stay (40) in the front-rear direction. The height of the reinforcing portion (44) is higher than that of the outer wall portion (42) of the central portion in the front-rear direction of the side stay (40). Further, the plate thickness of the side stay (40) is thicker than the plate thickness of the bottom plate (22) (see FIG. 8).

Both ends of the side stays (40) in the front-rear direction are fastened to the columns (23) by fastening screws (50). As a result, the columns (23) in the front-rear direction are connected to each other by the side stays (40), so that the rigidity of the casing (20) as a whole can be increased.

Specifically, as shown in FIGS. 6 and 7, the right side wall of the support column (23) and the reinforcing portion (44) of the side stay (40) are fastened by the fastening screw (50). The strut (23) is screwed to the reinforcing portion (44) at two places above and below.

Further, a flange portion (41b) bent upward is provided at an end portion in the front-rear direction of the overhanging portion (41a) of the side stay (40). Then, the front side wall of the support column (23) and the flange portion (41b) of the side stay (40) are fastened by the fastening screw (50). In this way, the column (23) is fastened to the side stay (40) by three fastening screws (50).

On the other hand, the fixing portion (31) of the installation leg (30) is provided with a first mounting portion (31a) and a second mounting portion (31b). The first mounting portion (31a) is formed by bending upward from the right end portion of the fixing portion (31) in FIG. 7. The second mounting portion (31b) is formed by bending upward from the front end portion of the fixing portion (31) in FIG. 7.

Then, the right side wall of the support column (23) and the first mounting portion (31a) of the installation leg (30) are fastened by the fastening screw (50). Further, the front side wall of the support column (23) and the second mounting portion (31b) of the installation leg (30) are fastened by a fastening screw (50). In this way, the column (23) is fastened to the installation leg (30) by two fastening screws (50).

As shown in FIG. 8, a drain hole (45) penetrating in the vertical direction is formed in the mounting portion (41) of the side stay (40). A plurality of drain holes (45) are formed at intervals in the front-rear direction. An elastic member (43) is arranged on the mounting portion (41).

The elastic member (43) is made of, for example, a rubber material. A through hole (43a) is formed at a position of the elastic member (43) corresponding to the mounting portion (41).

The heat exchanger (10) is mounted on the mounting portion (41) of the side stay (40) via the elastic member (43). Here, since the outer wall portion (42) of the side stay (40) is arranged outside the heat exchanger (10), the water flowing from the heat exchanger (10) flows from the end of the bottom plate (22). It suppresses leakage from the part to the outside.

Then, the water flowing from the heat exchanger (10) is casing from the drain hole (45) formed in the mounting portion (41) of the side stay (40) as shown by the virtual arrow line in FIG. (20) It is drained to the outside.

Although the configuration of the right side stay (40) has been described with reference to FIGS. 4 to 8, the configuration of the left side stay (40) is substantially the same as that of the right side stay (40). Is omitted.

-Effect of embodiment-
The outdoor unit (1) of the air conditioner of the present embodiment is provided with a heat exchanger (10) in a casing (20). Then, the corrugated bottom plate (22) in which the peaks (22a) and valleys (22b) extending in the left-right direction are formed, and the side where the peaks (22a) and valleys (22b) of the bottom plate (22) can be seen. A mounting leg (30) having a support portion (33) that supports the end portion of the bottom plate (22) from below, and a wall portion (34) that is located outside the end portion of the bottom plate (22) and extends upward from the support portion (33). A side stay (40) with an outer wall (42) extending upward along the edge of the remaining end of the bottom plate (22) and a strut (23) erected in the corner of the casing (20). The longitudinal end of the side stay (40) is connected to the strut (23) .

In the present embodiment, the end portion (end portion in the front-rear direction) on the side where the mountain portion (22a) and the valley portion (22b) of the bottom plate (22) can be seen is supported from below by the installation leg (30). Side stays (40) are provided along the edges of the remaining ends (left-right ends) of the bottom plate (22).

In this way, by surrounding the four sides of the bottom plate (22) with the wall portion (34) of the installation leg (30) and the outer wall portion (42) of the side stay (40), the water flowed from the heat exchanger (10). It is possible to prevent water from leaking outward from the end of the bottom plate (22).

Further, the strut (23) case and pacing (20), the longitudinal end portions of the side stay (40) is connected, it is possible to increase the rigidity as a whole casing (20).

Further, in the outdoor unit (1) of the air conditioner of the present embodiment, the end portion of the side stay (40) in the longitudinal direction is more than the outer wall portion (42) of the central portion in the longitudinal direction of the side stay (40). A reinforcing portion (44) having a high height and being connected to a support column (23) is provided.

In the present embodiment, a reinforcing portion (44) is provided at an end portion of the side stay (40) in the longitudinal direction. The reinforcing portion (44) is higher in height than the outer wall portion (42) of the central portion in the longitudinal direction of the side stay (40). As a result, the rigidity of the casing (20) as a whole can be increased while reducing the area of the core surface of the heat exchanger (10) that is blocked by the outer wall portion (42) of the side stay (40).

Further, in the outdoor unit (1) of the air conditioner of the present embodiment, the side stay (40) has a mounting portion (41) on which at least a part of the heat exchanger (10) is mounted.

In the present embodiment, by providing the mounting portion (41) on the side stay (40), the side stay (40) is used as a member for mounting at least a part of the heat exchanger (10). ing.

Further, in the outdoor unit (1) of the air conditioner of the present embodiment, the side stay (40) is formed with a drain hole (45) penetrating in the vertical direction.

In the present embodiment, by forming a drain hole (45) in the side stay (40), the water flowing from the heat exchanger (10) to the side stay (40) is drained from the drain hole (45). be able to.

Further, in the outdoor unit (1) of the air conditioner of the present embodiment, the plate thickness of the side stay (40) is thicker than the plate thickness of the bottom plate (22).

In the present embodiment, the plate thickness of the side stay (40) is made thicker than the plate thickness of the bottom plate (22). In this way, by increasing the plate thickness of only the side stay (40), which requires strength for mounting the heat exchanger (10), the plate thickness of the entire bottom plate (22) is increased as compared with the case of increasing the plate thickness. Therefore, the weight of the device as a whole can be reduced.

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

-Modification example-
In the above embodiment, the outdoor unit (1) in which the first unit (1A) and the second unit (1B) arranged on the left and right are integrated has been described, but the outdoor unit (1) of the present disclosure is one. It may consist only of units. That is, in the above embodiment, the outdoor unit (1) is configured to be provided with two heat exchangers (10a and 10b), but the outdoor unit (1) is composed of only one heat exchanger (10). It may be configured. In that case, the number and size of heat exchangers may be determined according to the required capacity of the heat exchangers.

Further, a gap is provided between the end of the mounting portion (41) of the side stay (40) and the end of the mountain portion (22a) of the bottom plate (22), and the heat exchanger (10) is installed across the gap. It may be arranged. In this case, the water is drained from the gap.

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.

1 Outdoor unit
10 heat exchanger
20 casing
22 Bottom plate
22a Yamabe
22b Tanibe
23 props
30 Installation legs
33 Support
34 wall
40 side stay
41 Placement
42 outer wall
44 Reinforcement
45 Drain hole

Claims (3)

An outdoor unit of an air conditioner in which a heat exchanger (10) is provided in a casing (20).
A corrugated bottom plate (22) in which a mountain portion (22a) and a valley portion (22b) extending in the front-rear direction or the left-right direction are formed, and
The support portion (33) that supports the end portion of the bottom plate (22) on the side where the peak portion (22a) and the valley portion (22b) can be seen from below, and the support portion (33) located outside the end portion of the bottom plate (22). An installation leg (30) having a wall portion (34) extending upward from the support portion (33),
A side stay (40) having an outer wall portion (42) extending upward along the edge of the remaining end of the bottom plate (22).
A support (23) erected at a corner of the casing (20) is provided.
Longitudinal end of the side stays (40) is connected to the strut (23),
The side stays (40), possess mounting portion (41) at least partially placed in the heat exchanger (10),
An outdoor unit of an air conditioner, characterized in that a hole (45) penetrating in the vertical direction is formed in a previously described portion (41) of the side stay (40). In claim 1,
The longitudinal end of the side stay (40) is reinforced at a height higher than the outer wall portion (42) of the longitudinal central portion of the side stay (40) and connected to the column (23). An outdoor unit of an air conditioner characterized by being provided with a part (44). In claim 1 or 2 ,
An outdoor unit of an air conditioner characterized in that the plate thickness of the side stay (40) is thicker than the plate thickness of the bottom plate (22).

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