JP2004156814A - Electrical equipment box for outdoor unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize compactification by eliminating useless space in an electrical equipment box provided at an outdoor unit of a refrigerating apparatus which sucks air from a side face and blows off air from a top face after heat exchange. <P>SOLUTION: This electrical equipment box 15 for the outdoor unit 1 is provided with a box body 51, a cover member 52 and a partition plate 53. The box body 51 is provided to face a front plate 23 of a casing 12 and has an opening on the front plate 23 side. The cover member 52 is disposed to cover the opening of the box body 51. The partition plate 53 is provided in the box body 51 to partition the internal space of the box body 51 into a front side space C on the cover member 52 side, and an inner side space D on the opposite side to the cover member 52. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electric component box of an outdoor unit, particularly, an outdoor unit that is provided in a casing of an outdoor unit of a refrigerating device of a type in which air is sucked from a side surface and heat is exchanged and then air is blown out from a top surface, and the electric component is stored. The present invention relates to an electrical component box of a unit.
[0002]
[Prior art]
2. Description of the Related Art As an outdoor unit in an air conditioner which is one of refrigeration systems, there is a type in which air is blown from a top surface after air is sucked from a side surface and heat exchange is performed. Such an outdoor unit is used for air conditioning of a building or the like, is installed on the roof of a building or the like, and is connected to a plurality of indoor units via a communication pipe. Such an outdoor unit includes a substantially rectangular parallelepiped casing, and devices such as a compressor, a heat exchanger, and a blowing fan disposed inside the casing. An air inlet is provided on a side surface of the casing, and an air outlet facing upward is provided on an upper portion of the casing. Specifically, the air suction ports are provided on two side surfaces and a rear surface excluding the front surface of the casing. The heat exchanger is a device for exchanging heat with air sucked from an air inlet, and is arranged in a casing so as to face each air inlet. Equipment such as a compressor is arranged at the bottom of the casing. The blower fan is a propeller fan for blowing out the heat exchanged air in the heat exchanger from the air outlet, and is provided at an upper portion of the casing so as to correspond to the air outlet. Further, an electrical component box in which electrical components such as an inverter and a control board are stored is provided in the casing so as to face the front surface, and is accessible from the front side. More specifically, the electrical component box is a box having a substantially rectangular parallelepiped shape, and is provided below the blower fan when the casing is viewed from the front side. The electrical component box has an elongated shape toward both side surfaces when the casing is viewed from the top surface side. Further, the electrical component box is divided into two spaces on the left and right when the casing is viewed from the front side (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-6-281204 (page 3-4, FIG. 1-3)
[0004]
[Problems to be solved by the invention]
In the electrical component box of the outdoor unit, an electrical component having a large calorific value (a high heat-generating component) including a high-power component such as an inverter or a reactor is arranged in one of two spaces divided in a plane, and the other is controlled. Electric components are arranged according to their functions and characteristics, such as electric components having a small heat generation (low heat-generating components) including weak electric components such as boards.
[0005]
The above-mentioned outdoor unit is required to be compact, and in particular, it is required to reduce the size of the outdoor unit when viewed from the top from the viewpoint of transportation and the like. However, if restrictions are imposed on the dimensions of the outdoor unit as viewed from the top, it becomes difficult to arrange an electrical component box having two spaces on the left and right. For this reason, it is necessary to make the electrical component box compact.
[0006]
However, since the electrical components arranged in the electrical component box include various sizes, in the case of an electrical component box having two spaces on the left and right, the length of the protrusion from the front side to the rear side is the size. Is determined by the large electrical components, and the space in the electrical component box is likely to be wasted. In addition, when the outdoor unit is viewed from the top, if the size is to be reduced, the overhang of the electrical component box to the rear side will increase, and the flow of air from the inside of the casing upward from the bottom will be obstructed, and the ventilation resistance will be reduced. Increase. As a result, there is a possibility that the blowing performance of the blower fan is reduced and noise is increased.
[0007]
As described above, it is difficult to reduce the size of the electrical component box having the two left and right spaces and having the electrical components arranged in a plane. Of course, it is conceivable to divide the electrical component box into multiple parts and place them in a place that does not hinder the air blowing work by the blower fan.However, this will increase the number of assembly steps for the electrical component box, or after installing the outdoor unit The accessibility to the electrical component box is impaired. In addition, it is difficult to arrange electric components separately according to their functions and characteristics.
[0008]
An object of the present invention is to reduce the size of an electrical component box provided in an outdoor unit of a refrigerating apparatus of a type that blows air from a top surface after inhaling air from a side surface and exchanging heat from the top surface, without wasting space in the box and reducing the size. Is to make it happen.
[0009]
[Means for Solving the Problems]
The electrical component box of the outdoor unit according to claim 1 is provided in a casing of an outdoor unit of a refrigerating device of a type that blows air from a top surface after sucking air from a side surface and exchanging heat, and stores electrical components. An electrical component box for an outdoor unit, comprising a box body, a lid member, and a partition plate. The box main body is provided so as to face one side surface of the casing, and has an opening on one side surface side. The lid member is arranged to cover the opening of the box body. The partition plate is provided in the box main body, and divides the space in the box main body into a front space on the cover member side and a rear space on the opposite side of the cover member.
[0010]
In this electrical component box, electric components having various shapes and sizes are planarized because the box main body has a two-layer structure in which a box body is divided into a front space and a rear space by a partition plate. In addition, since the box body can be arranged three-dimensionally, it is possible to reduce the size of the box body without wasting space.
In the electric component box of the outdoor unit according to the second aspect, in the first aspect, the partition plate is made of resin.
[0011]
In this electrical component box, the front space and the back space can be easily electrically disconnected. In addition, it is possible to mount electric components directly on the partition plate.
The electric component box of the outdoor unit according to claim 3 is the electric component box according to claim 1, wherein the electric component is a first electric component that is frequently accessed after the installation of the outdoor unit and a second electric component that is accessed less frequently after the installation of the outdoor unit. 2 electrical components. The first electric component is disposed in the near space.
[0012]
In this electrical component box, the first electrical component such as the control board, which is frequently accessed after the outdoor unit is installed, is disposed in the near side space. Therefore, when setting the control board, the cover can be easily removed only by removing the lid member. It is possible to access.
The electric component box of the outdoor unit according to claim 4 is the electric component box according to any one of claims 1 to 3, wherein the electric component includes a low heat generating component having a small heat generation amount during operation and a high heat generating component having a large heat generation amount during operation. Contains. The high heat-generating component is arranged in the back space.
[0013]
In this electrical component box, high-heat-generating components such as inverters and reactors that generate a large amount of heat are arranged in the back space compared to low-heat-generating components such as control boards. It is easy to cool.
According to a fifth aspect of the present invention, in the electrical component box of the outdoor unit, in the fourth aspect, the box main body has a radiation fin protruding toward an opposite side of one side surface of the casing.
[0014]
In this electrical component box, cooling of the inner space by the airflow flowing through the casing can be promoted by the radiation fins projecting toward the opposite side of one side surface of the casing.
The electric component box of the outdoor unit according to claim 6 is the electric component box according to claims 1 to 5, wherein the partition plate has a window communicating the front space and the back space.
[0015]
In this electrical component box, a window is provided in the partition plate, and the electrical components arranged in the back space can be accessed while the partition plate is attached. (2) Even if a case arises in which it is necessary to access the electric components, the access can be made with the partition plate attached. In addition, the first electrical component that is frequently used after the outdoor unit is installed can be installed in the back space.
[0016]
The electrical component box of the outdoor unit according to claim 7 is the electric component box according to any one of claims 1 to 6, wherein the box body partially has a bulging portion that bulges toward the side opposite to one side surface of the casing. are doing.
In this electrical component box, by providing the bulging portion, a part of the front space and the back space can be widened, so that a long-sized electric component such as a noise filter can be arranged.
[0017]
In the electric component box of the outdoor unit according to the eighth aspect, the swelling portion is provided at a lower portion of the box body in the seventh aspect.
In this electrical component box, since the bulging portion is provided at the lower part of the box main body, it is possible to suppress an increase in ventilation resistance in the outdoor unit.
According to a ninth aspect of the present invention, in the electrical component box of the outdoor unit according to the seventh aspect, the box body includes a metal sheet metal box portion and a resin resin box portion.
[0018]
In this electrical component box, high heat-generating components such as an inverter and a reactor that generate a large amount of heat can be arranged in the sheet metal box portion to promote heat dissipation.
In the electrical component box of the outdoor unit according to the tenth aspect, in the ninth aspect, the bulging portion is provided at a lower portion of the box body. The sheet metal box part forms the upper part of the box body. The resin box part constitutes a lower part of the box body including the bulging part.
[0019]
In this electrical component box, since the bulging portion is formed by resin molding, molding is easy. In addition, by making a part of the box body resin, it is possible to contribute to cost reduction of the electrical component box.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
(1) Configuration of Outdoor Unit FIG. 1 shows an outdoor unit 1 of an air conditioner, which is one of the refrigerating apparatuses according to the first embodiment of the present invention. The outdoor unit 1 forms a multi-type air conditioner, is installed on the roof of a building or the like, and is connected to a plurality of outdoor units via communication pipes.
[0021]
The outdoor unit 1 is a type that blows air from the top surface after inhaling air from the side surface and performing heat exchange, and includes a casing 12, an outdoor refrigerant circuit 13 housed inside the casing 12, and an upper part of the casing 12. It has a blower fan 14 provided and an electrical component box 15 housed inside the casing 12.
The casing 12 has a substantially rectangular parallelepiped shape, and mainly includes a support 21, a top plate 22, a front plate 23, a rear plate 24, a pair of side plates 25, and a bottom plate 26 arranged at four corners, respectively. It is composed of
[0022]
The column 21 is a columnar member extending from the upper end to the lower end of each corner of the casing 12, and fixes and supports a top plate 22, a front plate 23, a rear plate 24, a pair of side plates 25, and a bottom plate 26.
The top plate 22 has an air outlet 22a (top surface) having an opening provided in the center, and a fan grill 22b is provided so as to cover an upper part of the opening. The air sucked into the casing 12 is blown upward from the air outlet 22a.
[0023]
In the present embodiment, the front plate 23 includes an upper front plate 23a disposed below the top plate 22, a middle front plate 23b disposed below the upper front plate 23a, and a lower side of the middle front plate 23b. And a lower front plate 23c arranged at the bottom. As described above, the front plate 23 has a structure of three divisions, upper, middle, and lower.
The rear plate 24 has an air inlet 24 a for sucking air into the casing 12. In the present embodiment, although not shown in detail, the air intake port 24a is formed of an opening provided on almost the entire surface. The pair of side plates 25 have an air inlet 25a for sucking air into the casing 12. In the present embodiment, the air suction port 25a is an opening provided on a surface excluding the vicinity of the front plate 23. Air is sucked into the casing 12 from the air inlets 24a and 25a.
[0024]
The bottom plate 26 supports and fixes devices and piping that constitute the outdoor refrigerant circuit 13. The bottom plate 26 is supported by the four columns 21 so that a space is formed between the bottom plate 26 and the installation surface.
The outdoor refrigerant circuit 13 includes a compressor 13a, a heat exchanger 13b, and the like, and piping connecting these devices. Main devices such as the compressor 13a and the heat exchanger 13b are fixed to the bottom plate 26. That is, the equipment and the piping constituting the outdoor refrigerant circuit 13 are mainly arranged at the lower part of the casing 12. The heat exchanger 13b has a substantially U shape, and is arranged to face the three air inlets 24a and 25a. The heat exchanger 13b can exchange heat between the air sucked from the air inlets 24a and 25a and the refrigerant.
[0025]
The blower fan 14 is a propeller fan, and is arranged at an upper portion of the casing 12 so as to correspond to the air outlet 22a. The blower fan 14 has a plurality of propeller blades 14a, a hub 14b for fixing an inner peripheral portion of the propeller blades 14a, and a fan motor 14c for driving the hub 14b to rotate. The fan motor 14c is fixed to the casing 12 via a support frame (not shown). More specifically, blower fan 14 is arranged at a position corresponding to the vertical position of upper front plate 23a. As a result, the blower fan 14 draws outdoor air from the side surface of the casing 12 into the inside of the casing 12 through the air suction ports 24a and 25a, passes through the heat exchanger 13b, and then guides the outdoor air to the upper part of the casing 12. It is possible to blow out from the air outlet 22a.
[0026]
The electrical component box 15 is a box in which various electrical components are stored, and is arranged to face the front plate 23. More specifically, the electrical component box 15 is arranged so as to face the middle front plate 23b, avoiding the lower part of the casing 12 in which many devices and piping constituting the outdoor refrigerant circuit 13 are arranged. I have. That is, the electrical component box 15 is disposed below the blower fan 14 and above the lower front plate 23c.
[0027]
(2) Structure of Electrical Component Box The electrical component box 15 will be described with reference to FIGS. Here, FIG. 2 is a view of the outdoor unit 1 as viewed from a direction A in FIG. 1, and is a view showing an internal cross section of the casing 12 excluding the compressor 13a and the like. FIG. 3 is a perspective view showing the appearance of the electrical component box 15, and FIG. 4 is a view of FIG.
[0028]
The electrical component box mainly includes a box body 51, a lid member 52, and a partition plate 53. The box body 51 is a box-shaped member provided to face the front plate 23 of the casing 12 and having an opening on the front plate 23 side. The lid member 52 is a plate-shaped member arranged so as to cover the opening of the box main body 51. The partition plate 53 is provided in the box body 51, and divides the space in the box body 51 into a near space C on the front plate 23 side (the lid member 52 side) of the casing 12 and a rear plate 24 side (the lid member 52 (an opposite side to 52). That is, the electrical component box 15 has a two-layer structure in which electrical components can be stored in two spaces, the near space C and the far space D.
[0029]
{Circle around (1)} Box body The box body 51 includes a pair of side surface portions 51a, a rear surface portion 51b, an upper surface portion 51c, and a lower surface portion 51d. In the present embodiment, the box body 51 is made of sheet metal.
The side surface portion 51a is a substantially L-shaped portion whose lower portion bulges toward the rear plate 24 side of the casing 12. Side unit 51a, an upper side surface portion 51e having an upper depth length L _a, the lower side surface portion 51f having a greater depth length L _b of the depth length L _a is provided on the lower side of the upper side surface portion 51e It is composed of Further, a lid fixing portion 51g for fixing the lid member 52 is provided on the side of the side plate 51a on the front plate 23 side of the casing 12. The upper side surface 51e is provided with a rectangular hole 51h formed of a rectangular hole.
[0030]
The rear surface portion 51b is a portion constituting a surface of the box body 51 on the rear plate 24 side of the casing 12. The rear surface portion 51b includes an upper rear surface portion 51i corresponding to the upper side surface portion 51e of the side surface portion 51a, and a lower rear surface portion 51j corresponding to the lower side surface portion 51f of the side surface portion 51a. Further, radiation fins 54 and 55 projecting toward the rear plate 24 side of the casing 12 are provided on the upper rear surface portion 51i.
[0031]
The upper surface portion 51c is a portion constituting the surface of the box main body 51 on the top plate 22 side, and is inclined toward the inside of the casing 12 and downward. An upper fixing portion 51k fixed by a support frame of the casing 12 (not shown) is provided on the upper surface portion 51c.
The lower surface portion 51d is a portion constituting the surface of the box main body 51 on the bottom plate 26 side, and a part on the lid member 52 side is cut away. Further, a lower fixing portion 51m fixed by a support frame (not shown) of the casing 12 is provided on the lower surface portion 51d.
[0032]
The lower side surface portion 51f of the pair of side surface portions 51a, the lower rear surface portion 51j of the rear surface portion 51b, and the lower surface portion 51d constitute a bulging portion 56 bulging toward the rear plate 24 of the casing 12. As a result, the depths of the spaces C and D are widened.
(2) Lid member The lid member 52 is a substantially rectangular plate-like member, and is fixed to the lid fixing portion 51g by screws or the like. In the present embodiment, the lid member 52 is made of sheet metal.
[0033]
{Circle around (3)} In the present embodiment, the partition plate 53 is composed of two plate-like members, an upper partition plate 53a and a lower partition plate 53b. In the present embodiment, the partition plates 53a and 53b are made of resin.
The upper partition plate 53a is a plate-shaped member provided at a position corresponding to the upper side surface 51e of the side surface 51a in the box body 51. On both side surfaces of the upper partition plate 53a, fitting portions 53c formed of rectangular projections are provided. The upper partition plate 53a is supported by the fitting portion 53c fitted in a rectangular hole 51h provided in the upper side surface portion 51e.
[0034]
The lower partition plate 53b is a plate-shaped member provided at a position corresponding to the lower side surface portion 51f in the box body 51. At the lower part of the lower partition plate 53b, a support portion 53d supported by the lower surface portion 51d of the box main body 51 is provided.
A window 57 is formed between the upper partition plate 53a and the lower partition plate 53b in the up-down direction, and communicates the front space C and the rear space D.
[0035]
(4) Arrangement of electrical components Next, the arrangement of electrical components in the electrical component box 15 will be described with reference to FIGS. Here, FIG. 5 is a perspective view showing a state where the lid member 52 of the electrical component box 15 is removed, and FIG. 6 is an exploded perspective view showing a state where the partition plate 53 of the electrical component box 15 is removed.
[0036]
The main electrical components housed in the electrical component box 15 include strong electrical components including the inverters 61a and 61b and the reactor 61c for the compressor 13a and the blower fan 14, and noise filters 62a and 62b for the inverters 61a and 61b. And terminal blocks 63a to 63d, and weak electric components such as the control board 64. Here, the inverters 61a and 61b and the reactor 61c are high heat-generating components that generate a large amount of heat during operation, and the control board 64 is a low heat-generating component that generates a small amount of heat during operation.
[0037]
The inverters 61a, 61b and the reactor 61c, which are high heat-generating components, are arranged in the back space D in order to promote cooling during operation. Specifically, the inverter 61a is arranged at a position corresponding to the radiation fin 54, the inverter 61b is arranged at a position corresponding to the radiation fin 55, and the reactor 61c is arranged above the inverter 61b. On the other hand, the control board 64, which is a low heat-generating component, is disposed in the front space C and is directly fixed to the partition plate 53 (the upper partition plate 53a in this embodiment). That is, in the electrical component box 15, the high heat-generating components and the low heat-generating components are divided and arranged in the spaces C and D.
[0038]
In addition, the terminal blocks 63a to 63d and the control board 64 (first electrical component) are arranged in the near side space C in consideration of the characteristic that access is frequently performed after the outdoor unit 1 is installed. Specifically, the terminal blocks 63a to 63d are mounted on the lower partition plate 53b, and the control board 64 is mounted on the upper partition plate 53a. Since the partition plates 53a and 53b are made of resin and can be electrically insulated from the box body 51, the terminal blocks 63a to 63d and the control board 64 are directly mounted on the partition plates 53a and 53b. . On the other hand, the inverters 61a, 61b, the reactor 61c, and the noise filters 62a, 62b (second electrical components), which are accessed less frequently after the outdoor unit 1 is installed, are arranged in the back space D. However, with respect to the inverters 61a and 61b disposed in the back space D, terminal connection portions and the like can be seen from the lid member 52 side through the window 57 formed between the partition plates 53a and 53b in the vertical direction. (See FIG. 4), and the minimum necessary access is possible without removing the partition plate 53.
[0039]
Further, noise filters 62a and 62b, which are relatively long electrical components, are arranged below the back space D, that is, on the back space D side of the bulging portion 56. That is, plate-like electric components such as the control board 64 and the inverters 61a and 61b are arranged in the narrow space above the box body 51, and the lower part of the box body 51 (specifically, the bulging portion 56) has a large depth. In the space, relatively long noise filters 62a and 62b, terminal blocks 63a to 63d, and the like are arranged. Thereby, the space property of the electrical component box 15 is improved.
[0040]
(3) Operation of Outdoor Unit Next, the operation of the outdoor unit 1 will be described with reference to FIG.
During operation of the outdoor unit 1, the air is sucked into the inside of the casing 12 through the air suction ports 24 a and 25 a by driving the blower fan 14. The air sucked into the casing 12 passes through a heat exchanger 13b provided opposite to the air inlets 24a and 25a to be heat-exchanged. The heat-exchanged air flows upward, is scraped upward by the propeller blades 14a of the blower fan 14, and blows out from the air outlet 22a. Therefore, the air sucked into the casing 12 passes through the heat exchanger 13b, and then flows in a streamline toward the inside of the casing and toward the upper air outlet 22a. For example, near the part on the rear plate 24 side of the electrical component box 15, an air flow like a stream line B is generated.
[0041]
Here, the inverters 61a and 61b and the reactor 61c in the electrical component box 15 are constantly generating heat while the compressor 13a and the blower fan 14 are operating. However, since the inverters 61a and 61b and the reactor 62 are disposed in the back space D and mounted on the rear surface 51b of the box body 51, and furthermore, the heat radiation fins 54 and 55 are provided on the rear surface 51b. These parts are well cooled. For this reason, it becomes difficult for heat to be transmitted to the near side space C side, and the control board 64 having low heat resistance is protected.
[0042]
In addition, since the bulging portion 56 of the electrical component box 15 is provided below the electrical component box 15, the air flow path at a position near the ventilation fan 14 in the upper portion of the electrical component box 15 where the influence on the ventilation resistance is large is large. As a result, the increase in ventilation resistance is suppressed.
(4) Features of Electrical Component Box The electrical component box 15 of the outdoor unit 1 according to the present embodiment has the following features.
[0043]
{Circle around (1)} In the electrical component box 15, since the box main body 51 has a two-layer structure in which the partition body 53 is divided into a front space C and a rear space D so that the electric components can be stored, various shapes and sizes are provided. Can be arranged not only two-dimensionally but also three-dimensionally, so that it is possible to reduce the size of the box body 51 without wasting space.
[0044]
Further, in the electrical component box 15, since the partition plate 53 is made of resin, the front space C and the rear space D can be easily electrically disconnected. In addition, since electric components such as the terminal blocks 63a to 63d and the control board 64 can be directly mounted on the partition plate 53 without using an insulating packing or the like, the structure is simplified, and space is improved and cost is reduced. Is contributing.
[0045]
{Circle around (2)} In the electrical component box 15, since the control board 64 and the like, which are frequently accessed after the outdoor unit 1 is installed, are arranged in the near side space C, the lid member 52 is simply removed when the control board 64 is set. And easily accessible.
In the electrical component box 15, a window 57 is provided in the partition plate 53, and the minimum necessary access to the inverters 61a and 61b arranged in the back space D with the partition plate 53 attached is provided. It is possible.
[0046]
{Circle around (3)} In the electrical component box 15, since high heat-generating components such as the inverters 61 a and 61 b and the reactor 61 c that generate a large amount of heat are arranged in the back space D compared to low heat-generating components such as the control board 64, Utilizing the airflow flowing through the inside 12, high heat-generating components such as the inverters 61 a and 61 b and the reactor 61 c are easily cooled.
Further, by providing heat radiation fins 54 and 55 projecting toward the rear plate 24 side of the casing 12 on the rear surface portion 51b of the electrical component box 15, cooling of the inner space D by air flowing through the casing 12 is promoted. It is possible to do.
[0047]
{Circle around (4)} In the electrical component box 15, by providing the bulging portion 56, a part of the front space C and the rear space D can be widened, so that long electrical components such as the noise filters 62 a and 62 b are provided. It is possible to arrange.
Further, since the bulging portion 56 is provided at a lower portion of the box main body 51, it is possible to suppress an increase in ventilation resistance in the outdoor unit 1.
[0048]
[Second embodiment]
In the electrical component box 15 according to the first embodiment, the box body 51 is made of sheet metal, but a portion corresponding to the upper side surface portion 51e of the side surface portion 51a is made of sheet metal, and a portion corresponding to the lower side surface portion 51f is made of resin. The electrical component box 115 may be used.
Specifically, as shown in FIG. 7, the electrical component box 115 of the outdoor unit 101 includes a box main body 151 including a tree plate box 158 and a resin box 159, a lid member 52, and a plate 53 (specifically, as shown in FIG. Specifically, it is composed of an upper partition plate 53a and a lower partition plate 53b). The sheet metal box portion 158 is a sheet metal member including an upper surface portion 151c, an upper side surface portion 151e of the side surface portion 151a, and an upper rear surface portion 151i of the rear surface portion 151b. The resin box portion 159 is a resin molded member including a lower side surface portion 151f of the side plate portion 151a, a lower rear surface portion 151j of the rear surface portion 151b, and a lower surface portion 151d.
[0049]
The sheet metal box 158 and the resin box 159 can be engaged with a plurality of claws 158 a provided at the lower end of the sheet metal box 158 and the claw 158 a provided at the upper end of the resin box 159. They are fixed to each other by the engagement hole 159a.
In such a configuration of the electrical component box 115, similarly to the electrical component box 15 of the first embodiment, high heat-generating components such as the inverters 61a and 61b and the reactor 62 can be arranged on the sheet metal box portion 158 side. Thus, effects similar to those of the first embodiment can be obtained.
[0050]
Furthermore, in the electrical component box 115 of the present embodiment, the lower portion of the box body 151 is made of resin, so that the bulging portion 156 can be easily formed. Work such as bending of a sheet metal is reduced, which contributes to cost reduction of the electrical component box 115.
[Other embodiments]
Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these embodiments, and can be changed without departing from the spirit of the invention.
[0051]
(1) In the above embodiment, the partition plate is divided into two upper and lower parts. However, the partition plate may be divided into three or more, or may be a single undivided partition plate.
(2) The type, the number, and the arrangement in the box of the electric components are not limited to the above embodiment.
(3) In the above embodiment, the noise filter is disposed in the back space, but may be disposed in the front space.
[0052]
【The invention's effect】
As described above, according to the present invention, the following effects can be obtained.
According to the first aspect of the invention, the box body is divided into a front space and a back space by a partition plate so that the electric components can be housed in a two-layer structure, so that electric components having various shapes and sizes can be stored. Since it can be arranged not only two-dimensionally but also three-dimensionally, it is possible to reduce the waste of space in the box main body and make it compact.
[0053]
According to the second aspect of the present invention, the front space and the back space can be easily electrically disconnected from each other.
In the invention according to claim 3, since the first electric component such as the control board, which is frequently accessed after the outdoor unit is installed, is arranged in the near side space, it is only necessary to remove the lid member when setting the control board. It can be easily accessed.
[0054]
According to the fourth aspect of the present invention, since the high heat-generating components such as the inverter and the reactor, which generate a large amount of heat, are arranged in the back space as compared with the low heat-generating components such as the control board, the airflow flowing in the casing is reduced. Easy to cool using
In the invention according to claim 5, the radiation fins projecting toward the opposite side of the one side surface of the casing can promote cooling of the inner space by the airflow flowing in the casing.
[0055]
In the invention according to claim 6, the partition plate is provided with the window portion, so that it is possible to access the electric components arranged in the back space with the partition plate attached.
In the invention according to claim 7, by providing the bulging portion, a part of the front space and the back space can be widened, so that a long-sized electric component such as a noise filter can be arranged. is there.
[0056]
In the invention according to claim 8, since the bulging portion is provided at the lower portion of the box main body, it is possible to suppress an increase in ventilation resistance in the outdoor unit.
According to the ninth aspect of the present invention, it is possible to dissipate heat by arranging high heat-generating components, such as an inverter and a reactor, which generate a large amount of heat in the sheet metal box.
In the invention according to claim 10, since the bulging portion is formed by resin molding, molding is easy.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of an outdoor unit of an air conditioner including an electrical component box according to a first embodiment of the present invention.
FIG. 2 is a view of FIG. 1 as viewed from a direction A, showing an internal cross section of a casing.
FIG. 3 is a perspective view showing the appearance of the electrical component box of the first embodiment.
FIG. 4 is a view of FIG. 3 viewed from a direction E.
FIG. 5 is a perspective view of the electrical component box according to the first embodiment, showing a state where a lid member is removed.
FIG. 6 is an exploded perspective view showing the electrical component box according to the first embodiment, with a partition plate removed.
FIG. 7 is an electrical component box according to a second embodiment, corresponding to FIG. 6;
[Explanation of symbols]
15, 115 Electrical component box 51, 151 Box body 52 Cover member 53 Partition plate C Front side space D Back side space

Claims (10)

It is provided in a casing (12) of an outdoor unit (1, 101) of a refrigerating device of a type that blows air from a top surface after inhaling air from a side surface and exchanging heat, and electric components (61a to 61c, 62a, 62b, 63a to 63d, 64) electrical component boxes (15, 115) of outdoor units for storing
A box body (51, 151) provided to face one side surface of the casing and having an opening on one side surface (23);
A lid member (52) arranged to cover the opening of the box body;
A partition plate (53) provided in the box main body and dividing a space in the box main body into a front space (C) on the lid member side and a rear space (D) on the opposite side to the lid member;
An electrical component box (15, 115) of an outdoor unit provided with: The electrical component box (15, 115) of the outdoor unit according to claim 1, wherein the partition plate (53) is made of resin. The electric components (61a to 61c, 62a, 62b, 63a to 63d, 64) are first electric components (63a to 63d, 64) frequently accessed after the outdoor unit (1, 101) is installed, and Second electrical components (61a to 61c, 62a, 62b) that are accessed less frequently after the outdoor unit is installed,
The first electric component is disposed in the near space (C).
The electrical component box (15, 115) of the outdoor unit according to claim 1 or 2. The electric components (61a to 61c, 62a, 62b, 63a to 63d, 64) include a low heat generating component (64) having a small heat generation during operation and a high heat generating component (61a to 61c) having a large heat generation during operation. And
The high heat generation component is disposed in the back space (D).
The electrical component box (15, 115) of the outdoor unit according to any one of claims 1 to 3. The outdoor unit according to claim 4, wherein the box body (51, 151) has a radiation fin (54, 55) protruding toward a side opposite to one side surface (23) of the casing (12). Electrical component box (15, 115). The outdoor according to any one of claims 1 to 5, wherein the partition plate (53) has a window (57) communicating the front space (C) and the rear space (D). Unit electrical components box (15, 115). The said box main body (51,151) has a bulge part (56,156) which bulges toward the opposite side of one side surface (23) of the said casing (12) in one part. The electrical component box (15, 115) of the outdoor unit according to any one of (1) to (6). The electrical component box (15, 115) of the outdoor unit according to claim 7, wherein the bulging portion (56, 156) is provided at a lower portion of the box body (51, 151). The electrical component box (115) of the outdoor unit according to claim 7, wherein the box body (151) is constituted by a metal sheet metal box (158) and a resin box (159) made of resin. . The bulging portion (156) is provided at a lower portion of the box body (151),
The sheet metal box part forms an upper part of the box body (151),
The resin box portion (159) forms a lower portion of the box body including the bulging portion (156).
An electrical component box (115) for an outdoor unit according to claim 9.

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