JP6859969B2 - Refrigerator - Google Patents

Description

Outdoor unit of refrigeration equipment equipped with electrical casing

An electrically driven machine such as a compressor or a fan is arranged in the outdoor unit of the refrigerating device, and electrical components for driving and controlling the machine are also arranged. The electrical component box that houses the electrical component is usually arranged in the upper part on the machine room side where the compressor is arranged. One issue is to prevent the electrical component box from falling when the resin electrical component box burns. In Patent Document 1 (Japanese Unexamined Patent Publication No. 2002-5477), a part of the electrical component box is covered with a metal case as a countermeasure when the resin burns.

When the electrical component box is large, increasing the size of the metal case makes it difficult to manufacture and increases the cost.

The refrigerating device of the first aspect includes an outdoor unit. The outdoor unit has an electrical component casing and a structural member. Electrical component casings include electrical components that control refrigeration equipment, especially outdoor units. The electrical component casing is fixed to the structural member. The electrical component casing includes a resin member and a plurality of metal plate members. The plurality of metal plate members are fixed to the resin member. The plurality of metal plate members include a first metal plate member and a second metal plate member different from the first metal plate member. The first metal plate member and the second metal plate member are supported by the structural member.

In the refrigerating apparatus of the first aspect, the casing of the electrical component of the outdoor unit is composed of a resin member and a metal plate member, and the metal plate member has a divided structure. Since the metal plate member has a divided structure, the metal plate member can easily cover the electrical component casing even if the electrical component casing becomes large.

The refrigerating apparatus of the second aspect is the refrigerating apparatus of the first aspect, and the second metal plate member is supported by the structural member via the first metal plate member. That is, the second metal plate member may be supported by the structural member via the first metal plate member even if it is not directly instructed by the structural member.

In the refrigerating apparatus of the first aspect and the second aspect, since the first and second metal plate members are supported by the structural member, even if the resin member burns, the metal plate member falls. Can be prevented.

The refrigerating apparatus of the third aspect is the refrigerating apparatus of the second aspect, in which one of the first metal plate member and the second metal plate member has a protruding portion, and the other has a protruding portion inserted. Has an opening. By inserting the protrusion into the opening, the second metal plate member is supported by the first metal plate member.

The refrigerating apparatus of the fourth aspect is any refrigerating apparatus of the first aspect to the third aspect, and the plurality of metal plate members further include a third metal plate different from the first and second metal plate members. It has a member. Further, the third metal plate member is supported by the structural member via the first metal plate member and / or the second metal plate member.

The refrigerating apparatus of the fifth aspect is the refrigerating apparatus of the fourth aspect, in which one of the third metal plate member and the first metal plate member has a second protruding portion and the other has a second protruding portion. It has a second opening into which the portion is inserted. By inserting the second protrusion into the second opening, the third metal plate member is supported by the first metal plate member. Further, either one of the third metal plate member and the second metal plate member has a third protruding portion, and the other has a third opening into which the third protruding portion is inserted. By inserting the third protrusion into the third opening, the third metal plate member is supported by the second metal plate member.

The refrigerating device of the sixth aspect is the refrigerating device of the first to fifth aspects, and the outdoor unit further has a heat sink for cooling the electrical components. The plurality of metal plate members have a structure that supports the heat sink.

The refrigerating device of the sixth aspect can prevent the heat sink from falling when the resin member is burnt down.

In the refrigerating apparatus of the seventh aspect, the second metal plate member is directly supported by the structural member in the refrigerating apparatus of the first aspect.

The refrigerating apparatus according to the eighth aspect is the refrigerating apparatus according to the first to seventh aspects, and the outdoor unit further includes a compressor, a fan, and a heat exchanger. Further, the structural member is one member selected from the group of the housing, the partition plate, and the heat exchange tube plate, or a combination thereof. The housing of the outdoor unit houses the compressor and the fan inside. The partition plate divides the inside of the housing into a blower chamber and a machine chamber. The blower room includes a fan. The machine room includes a compressor. The heat exchange tube plate is attached to the heat exchanger.

It is a schematic block diagram of the refrigerating apparatus 1 of 1st Embodiment. It is a top view of the outdoor unit 20 of 1st Embodiment. It is a perspective view which looked at the outdoor unit 20 of 1st Embodiment from the right front upper side. FIG. 5 is a perspective view of the outdoor unit 20 of the first embodiment as viewed from the same direction as in FIG. 3, excluding the front plate 54 of the housing 50 and the like. It is a perspective view which looked at the outdoor unit 20 of 1st Embodiment from the right rear upper side. It is a perspective view of the electrical component casing 40 of 1st Embodiment. It is a perspective view which shows the positional relationship between the partition plate 30 of 1st Embodiment, and an electrical component casing 40. It is a perspective view of the plurality of metal plate members 41 of 1st Embodiment. It is an exploded view of the 1st to 3rd metal plate members 41a, b, c of 1st Embodiment.

<First Embodiment>
(1) Overall configuration The overall configuration of the refrigerating apparatus 1 will be described. FIG. 1 is a schematic configuration diagram of the refrigerating apparatus 1. The refrigerating device 1 is an air conditioner. By performing a vapor compression refrigeration cycle, it is possible to cool and heat a room such as a building. The refrigerating device 1 mainly controls the indoor unit 10, the outdoor unit 20, the connecting pipes 4 and 5 connecting the indoor unit 10 and the outdoor unit 20, and the constituent devices of the indoor unit 10 and the outdoor unit 20. And have. The vapor compression type refrigerant circuit 3 of the refrigerating apparatus 1 is configured by connecting the indoor unit 10 and the outdoor unit 20 via the refrigerant connecting pipes 4 and 5.

The outdoor unit 20 is installed outdoors (on the roof of a building, near a wall surface of a building, etc.). The outdoor unit 20 mainly includes an accumulator 7, a compressor 8, a four-way switching valve 24, an outdoor heat exchanger 9, an expansion valve 6 as an expansion mechanism, closing valves 21 and 22, and an outdoor fan 23. ,have. Each device and the valve are connected by a refrigerant pipe.

The indoor unit 10 is installed indoors (living room, attic space, etc.). The number of indoor units 10 may be one or a plurality for one outdoor unit 20. In FIG. 1, three indoor units 10 are connected to one outdoor unit 20. Therefore, the refrigerating apparatus of this embodiment is a so-called multi-type. The indoor unit 10 mainly includes an indoor heat exchanger 11 and an indoor fan 12.

(2) Configuration of Outdoor Unit The outdoor unit 20 will be described. As shown in FIG. 1, the outdoor unit 20 includes an accumulator 7, a compressor 8, a four-way switching valve 24, an outdoor heat exchanger 9, an outdoor fan 23, an expansion valve 6, and a closing valve 21. It has 22, an electrical component casing 40, a partition plate 30, and a housing 50 for accommodating them.

FIG. 2 is a top view of the outdoor unit 20 as viewed from above, FIG. 3 is a perspective view of the outdoor unit 20 as viewed from the upper right front, and FIG. FIG. 5 is a perspective view seen from the upper right rear. In FIGS. 2 to 5, parts that should be visible may be not related to the description or may be omitted for the sake of clarity. Further, here, as described in each figure, each direction of up, down, front, back, right, and left is defined. Also in the following explanation, it is used without particular comment.

The housing 50 is made of a combination of a metal bottom plate 51, a top plate (not shown), a right side plate 52, a left side plate 53, a front plate 54, and a rear plate (not shown). The six plates of the housing 50 are metal plates. As shown in FIG. 4, the space inside the housing 50 is divided into a blower chamber 31 which is a space on the left side and a machine room 32 which is a space on the right side by a partition plate 30. In the present embodiment, the upper portion of the partition plate 30 does not reach the top plate. An electrical component casing 40 is placed on the partition plate 30. The electrical component casing 40 fills the space between the top plate and the partition plate 30. The upper part of the machine room 32 is also substantially filled with the electrical component casing 40.

The blower chamber 31 is a heat exchange chamber. As can be seen from FIGS. 2 or 3, heat exchangers 9 are arranged along the left side and the rear side of the housing 50. A heat exchange tube plate 9a is arranged at the end of the heat exchanger 9. The fan 23 is arranged so as to send air to the heat exchanger 9. The fan 23 sucks air from the front surface and sends air to the rear surface and the left side surface toward the heat exchanger.

As shown in FIG. 1, a compressor 8, an accumulator 7, a four-way switching valve 24, an expansion valve 6, and the like are arranged in the machine room 32. Although not shown in FIGS. 2 to 5, a compressor 8 and an accumulator 7 are arranged in the lower part of the machine room 32, although they are not shown in FIGS.

The partition plate 30 has a curved surface. The partition plate 30 is a metal plate. The partition plate 30 is shown by the dotted line in FIG. As is clear from the top view of FIG. 2, the partition plate 30 bends once toward the blower chamber 31 side from the front to the back, and then largely bends toward the machine room 32 side. Further, the partition plate 30 is not a vertically steep wall. As a whole, it has a shape that swells from top to bottom. Conversely, the partition plate 30 is inclined from the blower chamber side to the machine room side from the bottom to the top. In particular, as shown in FIG. 7, an inclined portion 30b is provided in an upper portion at the center of the partition plate 30. A bent portion 30a is arranged above the inclined portion 30b. The bent portion 30a is the uppermost portion of the partition plate 30.

(3) Electrical component casing 40 and its internal configuration The electrical component casing 40 will be described with reference to a perspective view of FIG. 6 and a diagram showing the relationship with the partition plate of FIG. 7.

As shown in FIGS. 4 and 6, the electrical component casing 40 has a lid 47, a resin member 42, and a metal plate member 41. Electrical components The electrical components are arranged inside the casing 40. Further, a terminal block 45 is arranged on the right side plate 52 side in contact with the electrical component casing 40. A heat sink 46 is arranged on the blower chamber 31 side under the lid 47 and the substrate.

As shown in FIG. 4, the lid 47 is the uppermost portion of the electrical component casing 40 and covers the entire lid 47. Above the lid 47 is the top plate of the housing 50. The lid 47 is made of resin.

A substrate (not shown) is arranged under the lid 47. The substrate is a printed circuit board. Some electrical components are mounted on the lower surface of the substrate. The electrical components form a part of the control unit of the entire refrigerating apparatus 1.

The resin member 42 is located below the lid 47 and the substrate. The resin member 42 has substantially the same size as the lid 47 and the substrate when viewed from above, and supports the lid 47 and the substrate. As can be understood from FIGS. 2 and 6, the resin member 42 has a shape in which a central portion 42c and two substantially rectangular frames 42a and 42b are arranged side by side and attached to each other. A hole is formed in the frame 42b on the right side so that the electrical component mounted on the printed circuit board does not hit even if it protrudes. The heat sink 46 fits in the hole in the left frame 42a and is supported by the resin member 42.

The heat sink 46 plays a role of dissipating heat from heat-generating components of electrical components. The heat sink 46 is arranged so as to be directly or indirectly adhered to some ICs of the electrical components. The lower part of the heat sink 46 is a blower chamber 31.

The metal plate member 41 is arranged on the lower side or the outer side of the resin member 42. That is, the lower portion of the electrical component casing 40 is composed of the resin member 42 and the metal plate member 41, and the resin member 42 and the metal plate member 41 support the electrical component. As understood in FIGS. 2 and 6, in the frame 42b on the left side of the resin member 42, the metal plate member 41 is also a frame body, and the heat sink 46 is housed therein to support the heat sink 46. On the other hand, in the portion of the frame 42b on the right side of the resin member 42, the metal plate member 41 is not a frame shape but a box that covers four surfaces of the bottom surface, the right surface, the left surface, and the rear surface. That is, the resin member 42 is not arranged on the bottom surface of the electrical component casing 40, and the metal plate member 41 constitutes the bottom surface of the electrical component casing 40.

The reactor 43 is fixed on the metal plate member 41 on the bottom surface of the electrical component casing 40. The reactor 43 is one of the electrical components.

The electrical component casing 40 is fixed to the housing 50. The electrical component casing 40 is also supported by the heat exchange tube plate 9a. Further, the electrical component casing 40 is also supported by the partition plate 30. In the present embodiment, the electrical component casing 40 is placed on the bent portion 30a of the partition plate 30. As shown in FIG. 7, the reactor 43 on the bottom surface of the electrical component casing 40 is also arranged so as to be just above the bent portion 30a. The reactor is arranged between the left end 30L and the right end 30R of the partition plate 30 in the top view.

(4) Metal plate member 41
The metal plate member will be described in detail with reference to FIGS. 8 and 9 and the like. FIG. 8 is an overall perspective view of the plurality of metal plate members 41, and FIG. 9 is an exploded view of each metal plate member separated.

As is clear from FIG. 9, the metal plate member 41 of the present embodiment is composed of three members, a first metal plate member 41a, a second metal plate member 41b, and a third metal plate member 41c. The number of metal plate members is not limited to three. For example, 2 to 10. The number of metal plate members 41 is appropriately designed from the viewpoint of ease of production, complexity of assembly, and the like. Then, each member is separately fixed to the resin member 42. Further, the three members are configured to support each other. Then, at least one metal plate member is supported by the structural member of the outdoor unit 20. Here, the structural member is any one of the housing 50, the partition plate 30, and the heat exchange tube plate 9a, or a combination thereof. In the present embodiment, the first metal plate member 41a is supported by the housing 50, the partition plate 30, and the heat exchange tube plate 9a. In the present embodiment, the second and third metal plate members 41b and 41c are supported by the first metal plate member 41a.

The configuration in which the three metal plate members 41a, 41b, and 41c support each other will be described. Each metal plate member is provided with protrusions 411A, 412A, 413A and openings 411B, 412B, 413B. The protrusions 411A, 412A, and 413A may be called claws. The metal plate members 41a, 41b, and 41c are supported by each other by inserting the protrusions 411A, 412A, and 413A into the openings 411B, 412B, and 413B, respectively. FIG. 8 is a view in which the metal plate members 41a, 41b, and 41c are combined, and the combined portions of the protruding portions 411A, 421A, and 413A and the openings 411B, 421B, and 413B are designated as engaging portions 411, 421, and 413, respectively. There is. In FIG. 9, the protrusion 411A is formed in the third metal plate member 41c, and the opening 411B is formed in the first metal plate member 41a, but it may be formed in reverse. The same applies to the other engaging portions 412 and 413. Further, although the third metal plate member 41c and the first metal plate member 41a are supported by a set of protrusions 411A and openings 411B, they may be supported by a set of a plurality of protrusions and openings.

The metal plate member 41 of the present embodiment is divided into a plurality of metal plate members 41a, 41b, 41c. The first metal plate member 41a is supported by a structural member, and the second metal plate member 41b and the third metal plate member 41c are supported by the first metal plate member 41a. Therefore, the metal plate member 41 as a whole is supported by the structural member. Even if the resin member 42 burns and is lost, the metal plate member 41 is unlikely to fall. Further, even when the electrical component burns, the shielding effect of preventing the fire from being transferred to the soundproofing material of the compressor at the lower part can be maintained.

The metal plate member 41 of the present embodiment has a hole for inserting the heat sink 46 along the third metal plate member 41c. When the resin member 42 is lost, the heat sink 46 can be prevented from falling. Since the structure with holes in the metal plate member 41 is divided into three metal plate members in this way, the metal material can be saved as compared with the case where one plate is hollowed out. You can.

(5) Features (5-1)
The electrical component casing 40 of the outdoor unit 20 of the refrigerating apparatus 1 of the present embodiment includes a resin member 42 and a plurality of metal plate members 41. The metal plate member 41 is divided into at least a first metal plate member 41a and a second metal plate member 41b. Further, the first metal plate member 41a and the second metal plate member 41b are supported by the structural member.

As described above, by adopting the divided structure for the metal plate member, the metal plate member can be easily manufactured even when the casing of the electrical component becomes large or requires a complicated configuration.

(5-2)
The metal plate member 41 is fixed to the resin member 42. Therefore, normally, the metal plate member 41 is held by the structural member as an integral part of the casing of the electrical component. However, in the present embodiment, the first metal plate member 41a and the second metal plate member 41b are further supported by the structural member without the intervention of the resin member 42. By doing so, even if the resin member 42 is burnt down, the metal plate member does not fall. Then, the shielding effect is maintained. By doing so, for example, even if the electrical component ignites in the casing of the electrical component, there is a low possibility that the soundproofing material of the compressor or the like at the lower part will spread.

(5-3)
In the electrical component casing 40 of the present embodiment, the first metal plate member 41a and the second metal plate member 41b are supported by the protrusions 412A and the openings 412B. That is, the first metal plate member 41a and the second metal plate member 41b do not require stubborn fixing such as screwing. The reason is that the support of the plurality of metal plate members 41 is sufficient to prevent the resin member 42 from falling in an extraordinary temporary case such as when the resin member 42 is burnt down. Cost can be suppressed by a simple configuration.

(5-4)
The plurality of metal plate members of the electrical component casing 40 of the present embodiment further include a third metal plate member 41c. By dividing the metal plate members into the first to third metal plate members in this way, each member can be made into a simpler shape.

(5-5)
The plurality of metal plate members 41 of the present embodiment support the heat sink 46. That is, even if the resin member 42 is burnt down, the heat sink 46 can be prevented from falling.

(5-5)
Further, the plurality of metal plate members 41 of the present embodiment have a structure surrounding the heat sink 46. Conversely, there is a hole in the portion of the metal plate member 41 where the heat sink 46 is arranged. By doing this, there is no need to use extra metal for this part. If this shape is to be realized by an integral metal plate member, the metal material of that portion is wasted by making a hole. On the other hand, in the present embodiment, it is realized by the divided metal plate member, and such waste does not occur.

(5-6)
The structural member of the present embodiment is a member selected from the group of the housing 50, the partition plate 30, and the heat exchange tube plate 9a, or a combination thereof. More specifically, the metal plate member 41 is supported at a plurality of places. By doing so, the strength of the electrical component casing 40 is increased. Further, even if the resin member is burnt down, it is possible to more reliably prevent the metal plate member from falling.

(6) Modification example (6-1) Modification example 1A
In the first embodiment, the case where the second metal plate member 41b and the third metal plate member 41c are held by the structural member via the first metal plate member 41a has been described. Modification 1A is a case where the second metal plate member 41b and the third metal plate member 41c are directly supported by the structural member. In this case, the first to third metal plate members may be separately supported by the structural members.

Alternatively, the first to third metal plate members may be configured to support each other while being separately supported by the structural members.

Further, in the first embodiment and the modified example 1A, the case where the plurality of metal plate members 41 are composed of three metal plate members has been described. The plurality of metal plate members 41 may be composed of two metal plate members. The plurality of metal plate members 41 may be divided into four or more metal plate members. Each metal plate member may be separately supported by the structural member, or one or more metal plate members are supported by the structural member, and the other metal plate member is another metal plate. It may be indirectly supported by the member.

(6-2) Modification 2B
In the first embodiment, the case where the refrigerating device is an air conditioner has been described. Modification 2B is the case of a water heater. The present disclosure is also valid in the case of the casing of the electrical component of the water heater.

Although the embodiments of the present disclosure 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 present disclosure described in the claims. ..

1 Refrigerating device 9a Heat exchange pipe plate 20 Outdoor unit 30 Partition plate 40 Electrical component casing 41 Metal plate member 41a First metal plate member 41b Second metal plate member 41c Third metal plate member 411A, 412A, 413A Protruding parts 411B, 412B, 413B Opening 42 Resin member 43 Reactor 46 Heat sink 50 Housing

Japanese Unexamined Patent Publication No. 2002-5477

Claims (9)

A refrigerating device (1) equipped with an outdoor unit (20).
The outdoor unit (20) is
An electrical component casing (40) for accommodating electrical components that control the refrigerating device (1), and an electrical component casing (40).
Structural members (30, 50, 9a) to which the electrical component casing (40) is fixed, and
It has a heat sink (46) for cooling the electrical components, and has a heat sink (46).
The electrical component casing (40) is
With the resin member (42)
A plurality of metal plate members (41) fixed to the resin member (42) and forming a lower portion of the electrical component casing (40).
Have,
The plurality of metal plate members (41) are
The first metal plate member (41a) and
A second metal plate member (41b) different from the first metal plate member,
Have,
The first metal plate member (41a) and the second metal plate member (41b) are supported by the structural member (30, 50, 9a).
The second metal plate member (41b) is supported by the structural member (30, 50, 9a) via the first metal plate member (41a).
The first metal plate member (41a) overlaps below the second metal plate member (41b).
The plurality of metal plate members (41) do not cover the lower part of the heat sink (46).
Refrigerator (1). One of the first metal plate member (41a) and the second metal plate member (41b) has a protruding portion, and the other has an opening (411B) into which the protruding portion (411A) is inserted. Then, by inserting the protruding portion into the opening, the second metal plate member (41b) is supported by the first metal plate member (41a).
The refrigerating apparatus according to claim 1. The first metal plate member (41a) is larger than the second metal plate member (41b).
The refrigerating apparatus (1) according to claim 1 or 2. The outdoor unit (20) further has a partition plate (30) that divides the internal space into a blower room (31) and a machine room (32).
The first metal plate member (41a) is arranged on the machine room side, and the second metal plate member (41b) is arranged on the blower chamber side.
The refrigerating apparatus (1) according to any one of claims 1 to 3. The plurality of metal plate members (41) further include
It has a third metal plate member (41c) different from the first and second metal plate members (41a, 41b).
The third metal plate member (41c) is supported by the structural member (30, 50, 9a) via the first metal plate member (41a) and / or the second metal plate member (41b). ,
The refrigerating apparatus (1) according to any one of claims 1 to 4. One of the third metal plate member (41c) and the first metal plate member (41a) has a second protruding portion (412A), and the other has a second protruding portion into which the second protruding portion is inserted. By having an opening (412B) and inserting the second protruding portion into the second opening, the third metal plate member (41c) is supported by the first metal plate member (41a).
One of the third metal plate member (41c) and the second metal plate member (41b) has a third protruding portion (413A), and the other has a third protruding portion into which the third protruding portion is inserted. The third metal plate member (41c) is supported by the second metal plate member (41b) by having an opening (413B) and inserting the third protruding portion into the third opening.
The refrigerating apparatus according to claim 5. The plurality of metal plate members (41) have a structure that supports the heat sink (46).
The refrigerating apparatus (1) according to any one of claims 1 to 6. The second metal plate member (41b) is directly supported by the structural member (30, 50, 9a).
The refrigerating apparatus (1) according to any one of claims 1 to 7. The outdoor unit (20) further
Compressor (8) and
With a fan (23)
Heat exchanger (9) and
Have,
The structural member is
A housing (50) for accommodating the compressor (8) and the fan (23) inside, and
A partition plate (30) that divides the inside of the housing (50) into a blower chamber (31) including the fan (23) and a machine room (32) including the compressor (8).
The heat exchange tube plate (9a) attached to the heat exchanger (9) and
One member selected from the group of, or a combination thereof,
The refrigerating apparatus (1) according to any one of claims 1 to 8.

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