JP2010196926A - Electric device for air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electric device for an air conditioner, which efficiently radiates heat without being effected by dust and moisture. <P>SOLUTION: The electric device 10 is stored within a casing 40 of an outdoor unit of the air conditioner. The electric device 10 includes a switch box 12, an electric circuit 14, a partition plate 16, and a fan 18. When an electronic component 22 is operated to generate heat, the electronic component 22 is cooled by circulation of air within the switch box 12. Due to the circulation of air, heat is uniformly transferred to respective portions of an inner wall of the switch box 12. By an air course formed in the casing 40, heat radiation is performed from an outer wall of the switch box 12. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an electrical device used in an air conditioner.

  In an air conditioner, an electric circuit including an inverter circuit is used to control an electric motor. As shown in FIG. 7, the electric circuit 14 is obtained by mounting an electronic component 22 used for an inverter circuit or the like on a printed circuit board 20. The electric circuit 14 is accommodated in the switch box 12. Moreover, as shown in FIG. 8, the switch box 12 is accommodated in the casing 40 of an outdoor unit. In addition, what accommodated the electric circuit 14 in the switch box 52 is called the electrical equipment 50.

  The electronic component 22 includes a power element (IGBT module, diode module, etc.) that generates high heat when driven. The other electronic components 22 also generate heat somewhat. It is necessary to cool for stable driving. A heat sink 24 is attached to the electronic component 22 that generates high heat to cool it. In addition, an opening 54 is provided in the switch box 12 so that the heat of the electronic component 22 is exhausted from the inside of the switch box 12 to the outside. A plurality of holes 58 are formed in the plate 56 to which the printed circuit board 20 is attached, and heat is also exhausted from the back surface of the printed circuit board 20.

  However, the switch box 52 is mounted in the casing 40 of the outdoor unit. Therefore, it is necessary to protect the electric circuit 14 from moisture such as dust and rain water. An opening 54 is provided on the side of the switch box 52 for protection, but some dust or the like enters the switch box 52. When the opening 54 of the switch box 52 is closed for protection, the heat radiated from the electronic component 22 to the air stays in the upper layer of the switch box 52 or around the electronic component 22. The low temperature air remains in the lower layer of the switch box 52, and the temperature of the air in the switch box 52 becomes uneven. The heat dissipation efficiency of the electronic component 22 decreases, and the driving of the electronic component 22 becomes unstable.

  In order to increase the heat dissipation efficiency of the electronic component 22, it is preferable to provide the switch box 52 in the air path generated by the fan 42 of the outdoor unit. However, since the electric circuit 14 may be deteriorated by dust or moisture, it is avoided. For example, as shown in the trunk type outdoor unit of FIG. 9, the casing 52 prevents the casing 52 from being disposed in the air passage. Reference numeral 62 denotes a compressor.

  In order to protect the electric circuit 14 from dust and moisture, the electric circuit 14 is covered with a resin. However, this increases the cost and labor of manufacturing and recycling the electric circuit 14.

  Patent Document 1 below discloses a method for cooling an apparatus using a plurality of semiconductor units. A fan is provided so that air always passes through the cooling fin. However, even if air passes through the cooling fins, it is unclear whether the semiconductor unit can be uniformly irradiated with air and cooled. Only some semiconductor units may not be cooled.

Japanese Patent Laid-Open No. 10-212949 (FIG. 1)

  An object of the present invention is to provide an electrical equipment for an air conditioner that is capable of efficiently radiating heat without being affected by dust or moisture.

  The electrical device of the present invention includes a sealed switch box, an electric circuit housed in the switch box, a fan housed in the switch box, and a partition plate that partitions the switch box. An air circulation path is formed in the switch box by the partition plate, and air in the switch box is circulated by the fan.

  The heat of the electric circuit is radiated to the surrounding air. As the air in the switch box circulates, the temperature of the switch box air becomes uniform. Heat is transferred to various parts of the switch box and air is cooled. The above steps are repeated.

  A plurality of the electric circuits are provided, and at least one electric circuit is attached to the partition plate. If the opening is not blocked when the electric circuit is attached to the partition plate, the air circulation path is maintained.

  Openings are provided at both ends of the partition plate. Air moves from one side of the partition plate to the other through one opening. Air moves from one side of the partition plate to the other through the other opening.

  Each side of the partition plate contacts the inner wall of the switch box to separate the switch box into two chambers, and air circulates through the two chambers by the fan through the opening. The switch box is separated into two chambers by the partition plate coming into contact with the inner wall, but air flows back and forth through the opening.

  The electric circuit has electronic parts mounted on a printed circuit board, and the electronic parts are not in contact with the inner wall and the partition board of the switch box, and the partition plate is attached at a position where the circulating air hits the electronic parts. The air circulation path is not divided by the electronic components and the like provided in the electric circuit, and the air hits all the electric circuits to be cooled.

  The electric circuit has electronic components mounted on a printed circuit board, and the partition plate and the printed circuit board are arranged in parallel. The partition plate and the printed circuit board are parallel to form an air circulation path.

  The partition plate and the printed board may face each other in parallel, and unevenness may be provided on the partition plate in accordance with the shape of the electronic component. An air circulation path is formed by the partition plate and the printed circuit board, and an electronic component is arranged in the middle. Reduce air not hitting electronic components.

  The switch box is installed in an air path generated in the casing of the outdoor unit of the air conditioner. Heat is radiated from the surface of the casing.

  Since the electrical equipment of the present invention seals the switch box, the electrical circuit is not affected by external dust or moisture. By forming the air circulation path with the partition plate and further circulating the air with the fan, the cooling capacity for the electronic components is not reduced. Since the air that does not hit the electronic components is reduced without dividing the air circulation path, the cooling capacity can be increased.

It is the figure which has arrange | positioned the electrical equipment in the casing of the outdoor unit of an air conditioner. It is a figure which shows the structure of an electrical equipment. It is a figure which shows a partition plate. It is the figure which has arrange | positioned the electrical equipment in the casing of a trunk type outdoor unit. It is a figure which shows the other structure of an electrical equipment. It is a figure which shows the other structure of an electrical equipment. It is a figure which shows the structure of the conventional electrical equipment. It is the figure which has arrange | positioned the conventional electrical equipment in the casing of the outdoor unit of an air conditioner. It is the figure which has arrange | positioned the conventional electrical equipment in the casing of a trunk type outdoor unit.

  The present invention will be described with reference to the drawings. In addition, the figure has shown typically and may differ from an actual magnitude | size.

  As shown in FIG. 1, the electrical device 10 is housed in a casing 40 of an outdoor unit of an air conditioner. As shown in FIG. 2, the electrical device 10 includes a switch box 12, an electric circuit 14, a partition plate 16, and a fan 18.

  The switch box 12 is hermetically sealed, and air does not enter and exit inside and outside the switch box 12. The switch box 12 is made of a metal having high heat conduction. The heat in the switch box 12 can be radiated from the surface of the switch box 12.

  Electric power for driving the electronic component 22 of the electric circuit 14 and the fan 18 is supplied from the outside of the switch box 12. Wiring is performed from the outside to the inside of the switch box 12 while keeping the sealed state of the switch box 12 by closely contacting the switch box 12 and the wiring.

  The electric circuit 14 is accommodated in the switch box 12. The electric circuit 14 is a printed circuit board 20 on which electronic components 22 such as power elements are mounted. An inverter circuit or the like is configured by the electronic component 22 or the like. Since the switch box 12 is sealed, it is not necessary to cover the electric circuit 14 with resin.

  A heat sink 24 is attached to an electronic component 22 that generates high heat, such as a power element. The heat sink 24 includes a heat transfer plate 26 attached to the electronic component 22, a pipe (not shown) through which the refrigerant circulates, and a refrigerant jacket 28 that is connected to the heat transfer plate 26 and through which the pipe passes. In order to attach the heat sink 24 to the electronic component 22, an opening 30 is provided in a part of the switch box 12. When the heat transfer plate 26 of the heat sink 24 and the like are brought into close contact with the outer wall of the switch box 12, the sealed state of the switch box 12 is maintained.

  A spacer 32 is provided between the printed board 20 and the inner wall of the switch box 12, and the printed board 20 is attached to the inner wall of the switch box 12 via the spacer 32.

  The partition plate 16 shown in FIG. 3 is accommodated in the switch box 12 as shown in FIG. The partition box 16 separates the switch box 12 into two rooms. The two rooms are connected to each other in at least two places, and air travels between the rooms. That is, the partition plate 16 forms an air circulation path in the switch box, as indicated by the arrow in FIG. Each side of the partition plate 16 is in contact with the inner wall of the switch box 12. The material of the partition plate 16 is not limited to metal, resin, or the like. In order to form an air circulation path, the partition plate 16 and the printed circuit board 20 are parallel to each other. The printed circuit board 20 and the inner wall of the switch box 12 are also parallel. By being parallel in this way, an air circulation path is formed, and the air hits the electronic component 22 in the middle.

  In FIG. 2, the partition plate 16 is disposed in the center of the switch box 12, but the position of the partition plate 16 may be changed as appropriate depending on the size of the electronic component 22. The position of the partition plate 16 is (A) a position where the electronic component 22 is not in contact with the inner wall of the switch box 12 or the partition plate 16, (B) a position where air circulation is not blocked by the electronic component 22, and (C) the circulating air is This is a position that satisfies the three conditions of the position corresponding to the electronic component 22. The distance between the electronic component 22 and the partition plate 16 and the distance between the electronic component 22 and the inner wall of the switch box 12 are preferably narrow so that a large amount of air hits the electronic component 22. Since the distance is narrow, the air that circulates without hitting the electronic component 22 can be reduced.

  Further, in order to reliably apply air to the electronic component 22, unevenness may be provided on the facing surface of the partition plate 16 facing the electric circuit 14. The unevenness corresponds to the shape of the electronic component 22. A portion of the printed circuit board 20 is a convex portion, and a portion of the electronic component 22 is a concave portion. The distance of the part where the partition plate 16 and the printed circuit board 20 face each other can be reduced to increase the amount of air toward the electronic component 22. Specifically, a narrow air circulation path is formed by the partition plate 16 and the printed circuit board 20, and an electronic component 22 is arranged in the middle. The distance between the printed board 20 and the electronic component 22 with respect to the partition plate 16 may be constant. Similar irregularities may be provided on the inner wall of the switch box 12 facing the electric circuit 14.

  In order to form an air circulation path, the partition plate 16 has openings 34a and 34b. The openings 34 a and 34 b are provided at opposite ends of the partition plate 16. 1 and 2, the partition plate 16 has openings 34 a and 34 b at the upper end portion and the lower end portion thereof. One opening 34a allows air to move from one of the partition plates 16 to the other, and the other opening 34b allows air to move from the other of the partition plates 16 to one. That is, air travels between the two chambers in the switch box 12 formed by the partition plate 16. The shape of the openings 34a and 34b in FIG. 3 is a square, but it may be a circle or the like.

  1 and 2, there are a plurality of electric circuits 14, and some of the electric circuits 14 are attached to the partition plate 16 via spacers 32. When the electric circuit 14 is attached to the partition plate 16, the openings 34 a and 34 b are not closed by the electric circuit 14. The plate 56 for attaching the conventional printed circuit board 20 is merely a mounting member, and no air circulation path is formed. For example, there is a hole 58 on the surface facing the printed circuit board 20, but in the present invention, a circulation path is formed. In addition, there is no hole on the surface of the partition plate 16 facing the printed circuit board 20. The electric circuit 14 is attached to the inner wall of the switch box 12 and the partition plate 16 so that the air flow is not blocked.

  The fan 18 is housed in the switch box 12. As the fan 18 rotates, air in the switch box 12 is circulated. Although the fan 18 is attached to the opening 34a, the position and number of the fans 18 are not limited as long as air can be circulated. For example, the fan 18 may be provided in the vicinity of the electronic component 22 that generates a large amount of heat, and the cooling capacity of the electronic component 22 may be increased, or the fan 18 may be provided in a position where the air does not easily flow to improve the air flow. . Furthermore, you may attach the fan 18 to both opening 34a, 34b. Examples of the type of fan 18 include various fans such as a propeller fan, a cross flow fan, and a sirocco fan.

  The switch box 12 is sealed. When the electronic component 22 generates heat, the heat of the electronic component 22 is radiated to the surrounding air. Hot air concentrates from the periphery of the electronic component 22 to the upper layer of the switch box 12. The temperature of the air decreases as it goes to the lower layer of the switch box 12. If this is the case, the heat of the electronic component 22 is transferred only to the upper layer of the switch box 12. There is a possibility that the heat radiation cannot catch up and the driving of the electronic component 22 becomes unstable.

  Therefore, the present invention makes the air temperature in the switch box 12 uniform by circulating air through the circulation path formed by the partition plate 16 by the fan 18. Heat is uniformly transferred to the entire inner wall of the switch box 12 by the air circulation. The heat transfer efficiency to the switch box 12 is good, the air for cooling the electronic component 22 is efficiently cooled, and the cooling efficiency of the electronic component 22 is also increased.

  As shown in FIG. 1, the switch box 12 is accommodated in the casing 40 of the outdoor unit of an air conditioner. When the fan 42 in the casing 40 is driven, an air passage that extends from the heat exchanger 44 to the fan 42 is formed in the casing 40 as indicated by an arrow in the figure. The switch box 12 is arranged in this air path. The heat transferred to the inner wall of the switch box 12 radiates heat from the outer wall of the switch box 12. For example, in the case of the trunk type outdoor unit casing 40b of FIG. 4, the plate 60 shown in FIG. 9 is omitted and the casing 40b is arranged in the air path indicated by the arrow in the figure.

  The heat dissipation method of the electrical equipment 10 is summarized in the following three stages. (1) When the electronic component 22 is driven and generates heat, the electronic component 22 is cooled by circulation of air in the switch box 12. (2) Heat is uniformly transferred to various locations on the inner wall of the switch box 12 by air circulation to the inner wall surface. (3) Heat is radiated from the outer wall of the switch box 12 by the air passage formed in the casing 40.

  As described above, the present invention can protect the electric circuit 22 from dust and moisture by sealing the switch box 12. Air is circulated by the partition plate 16 and the fan 18 in the switch box 12 to cool the electronic component 22.

  As mentioned above, although this invention was demonstrated, this invention is not limited to said embodiment. For example, as shown in FIG. 5, the electric circuit 14 may be attached to the inner wall of the switch box 12 without attaching the electric circuit 14 to the partition plate 16. The printed circuit board 20 is attached to the switch box 12 via the spacer 32. The electrical device 10 b in FIG. 5 includes an electrical circuit 14 attached to the heat sink 24 and an electrical circuit 14 attached to the inner wall of the switch box 12. The size of the switch box and the position of the partition plate 16 are appropriately set so that the air flow is not blocked by each electric circuit 14.

  If the number of electrical circuits 14 increases, the electrical circuits 14 may be attached to the inner wall of the switch box 12 while the electrical circuits 14 are attached to the partition plate 16.

  Further, if the electrical device 10c has a small number of electrical circuits 14, the electrical circuit 16 may not be attached to the partition plate 16 as shown in FIG. The electric circuit 14 is only the electric circuit 14 attached to the heat sink 24.

  In order to form the air circulation path, the openings 34 a and 34 b are provided in the partition plate 16, but a space may be provided in both ends of the partition plate 16 and the inner wall of the switch box 12 instead of the openings 34 a and 34 b.

  In addition, the present invention can be carried out in a mode in which various improvements, modifications, and changes are added based on the knowledge of those skilled in the art without departing from the gist thereof.

10: Electrical equipment 12: Switch box 14: Electric circuit 16: Partition plate 18, 42: Fan 20: Printed circuit board 22: Electronic component 24: Heat sink 26: Heat transfer plate 28: Refrigerant jackets 30, 34a, 34b: Opening 32: Spacer 40: Casing 44: Heat exchanger

Claims (8)

A sealed switch box,
An electrical circuit housed in the switch box;
A fan housed in the switch box;
A partition plate for partitioning the switch box;
With
An electrical equipment for forming an air circulation path by a partition plate in the switch box and circulating the air by a fan. The electrical equipment according to claim 1, comprising a plurality of the electrical circuits, wherein at least one electrical circuit is attached to the partition plate. The electrical equipment according to claim 1, wherein openings are provided at both ends of the partition plate. 4. The electrical device according to claim 3, wherein each side of the partition plate is in contact with an inner wall of the switch box to separate the switch box into two chambers, and air is circulated through the two chambers by a fan through the opening. The electronic circuit has an electronic component mounted on a printed circuit board, and the electronic component does not contact the inner wall and the partition plate of the switch box, and the partition plate is attached at a position where the circulating air hits the electronic component. Any one of the electrical equipment of 4. 6. The electrical device according to claim 5, wherein the electric circuit has electronic parts mounted on a printed board, and the partition plate and the printed board are arranged in parallel. The electrical device according to claim 6, wherein the partition plate and the printed circuit board face each other in parallel, and the partition plate is provided with irregularities according to the shape of the electronic component. The electrical equipment according to any one of claims 1 to 7, wherein the switch box is installed in an air path generated in a casing of an outdoor unit of the air conditioner.

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