JP2009068428A - Potting structure for inverter integrated type electric compressor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a potting method and a potting structure for an inverter integrated type electric compressor capable of forming a hole for an aeration hole in silicone gel as potting material. <P>SOLUTION: In the potting structure for the inverter integrated type electric compressor having silicone gel filled in a housing storing components for drive circuits of a compressor including an inverter, a through hole in the cylindrical body is formed as the aeration hole from an inside of the housing by providing a cylindrical body in the silicone gel. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electric compressor used in a vehicle air conditioner or the like, and in particular, a potting structure for an inverter-integrated electric compressor in which a drive circuit component including an inverter is housed in a housing and integrated with the compressor. And a potting method.

  2. Description of the Related Art Conventionally, an electric compressor used in a vehicle air conditioner or the like, and an inverter-integrated electric compressor in which a drive circuit component including an inverter is housed in a housing and integrated with the compressor is well known. Yes. In such a compressor, potting is performed to protect a compressor driving circuit including an inverter or the like housed in the compressor from vibration, moisture, and the like (for example, Patent Document 1).

  Generally, as a potting material for potting an electric circuit, characteristics such as heat resistance and insulation are required, and therefore, urethane resin, epoxy resin, silicone resin and the like are used. In particular, a silicone resin has transparency and flexibility in addition to the above properties, and has excellent properties as a potting material.

However, in the potting of the inverter-integrated electric compressor, since it is necessary to form aeration holes from the housing, silicone gel cannot be used. That is, even if a hole for forming an aeration hole from the housing is formed in the silicone gel, the silicone gel may collapse from the periphery of the hole due to its own weight or vibration, and the hole may be blocked.
JP 2002-70743 A

  Therefore, an object of the present invention is to provide a potting structure and a potting method for an inverter-integrated electric compressor capable of forming a hole for aeration holes in a silicone gel as a potting material.

  In order to solve the above-mentioned problems, the potting structure for an inverter-integrated electric compressor according to the present invention includes an inverter-integrated electric compressor in which a silicone gel is filled in a housing that houses a drive circuit component of the compressor including the inverter. In this potting structure, the cylindrical body is provided in the silicone gel, whereby the through hole in the cylindrical body is formed as an aeration hole from the inside of the housing. In such a configuration, by providing a cylindrical body in the silicone gel in advance, the through hole in the cylindrical body can be formed as an aeration hole from the inside of the housing. The collapse of the silicone gel at the periphery of the hole can be prevented, and the blockage of the aeration hole can be surely prevented. Therefore, a potting structure using silicone gel having excellent characteristics as a potting material can be applied to an inverter-integrated electric compressor.

  In order to solve the above-mentioned problem, the potting method for an inverter-integrated electric compressor according to the present invention is potted by filling a silicone gel into a housing containing drive circuit components of a compressor including an inverter. At this time, the cylindrical body held by the rod-shaped jig is placed in the housing, and after the silicone gel is injected around the cylindrical body in the housing, only the rod-shaped jig is pulled out and the through hole of the cylindrical body is opened from the inside of the housing. The method is characterized by forming as aeration holes. In such a configuration, the cylindrical body held by the rod-shaped jig is placed in the housing, and after the silicone gel is injected around the cylindrical body in the housing, only the rod-shaped jig is pulled out. A potting structure in which a cylindrical body is provided and through holes of the cylindrical body are formed as aeration holes can be easily formed.

  The shape of the cylindrical body is not particularly limited, and any of a cylindrical shape and a polygonal cross section can be adopted.

  Although the said cylindrical body is not specifically limited, Although it can form from metals (for example, aluminum etc.), resin (for example, thermosetting resin, thermoplastic resin), rubber | gum, a film, etc., especially It is preferably formed from a silicone rubber tube. Since the silicone rubber can be firmly bonded to the silicone gel, the silicone rubber tube can be reliably disposed at a predetermined position of the potting material made of the silicone gel.

  The rod-shaped jig is preferably coated. In particular, in the present invention in which a silicone rubber tube is suitable as the cylindrical body, it is preferable that a Teflon coating (Teflon: registered trademark, hereinafter the same) is applied. By applying the coating to the rod-shaped jig, the resistance at the time of pulling out the jig from the cylindrical body can be reduced, so that it is possible to prevent the displacement of the cylindrical body due to the jig being pulled out. .

  According to the potting structure and potting method of the inverter-integrated electric compressor according to the present invention, the cylindrical body can be surely disposed at a predetermined position of the potting material made of silicone gel, and the through hole of the cylindrical body is formed as an aeration hole. Therefore, the potting structure of the inverter-integrated electric compressor can be formed of a silicone gel having excellent characteristics as a potting material.

  In addition, the cylindrical body can be formed in a cylindrical shape or a polygonal cross section, and the cylindrical body can be formed of metal, resin, rubber, or film, so that it can be easily used in an existing inverter-integrated electric compressor. Can be applied to.

Hereinafter, a potting structure and a potting method for an inverter-integrated electric compressor according to the present invention will be described with reference to the drawings.
FIG. 1 shows an inverter-integrated electric compressor to which the inverter-integrated electric compressor potting structure according to an embodiment of the present invention is applied. In FIG. 1, reference numeral 1 denotes an inverter-integrated electric compressor (hereinafter simply referred to as an electric compressor). The electric compressor 1 has a housing 2. The housing 2 is formed of a compression mechanism housing portion 3 in which a compression mechanism (not shown) is housed, and a drive circuit component housing portion 4 in which a drive circuit component including an inverter is housed. In this embodiment, the compression mechanism housing 3 and the drive circuit component housing 4 are integrally formed by the single housing 2, but may be formed separately.

  A drive circuit component 5 including an inverter is accommodated in the drive circuit component accommodating portion 4. Further, a lid 6 is provided at one end of the drive circuit component accommodating portion 4.

  A silicone gel 7 is filled in the drive circuit component accommodating portion 4 of the housing 2, and the potting structure of the present invention is formed using the silicone gel 7 as a potting material. A cylindrical body 8 is provided in the silicone gel 7. In this embodiment, the cylindrical body 8 is formed from a silicone rubber tube formed in a cylindrical shape, and an aeration hole 10 from the housing 2 is formed by the through hole 9 of the cylindrical body 8. . In the present embodiment, the cylindrical body 8 is formed in a cylindrical shape, but may be formed in a polygonal cross section (for example, a triangular shape, a quadrangular shape, a pentagonal shape, a hexagonal shape or more). . Further, in this embodiment, the cylindrical body 8 is formed from a silicone rubber tube, but it can also be formed from, for example, a metal such as aluminum, a resin, a rubber other than silicone rubber, or a film.

  An aeration valve 11 is provided at one end of the aeration hole 10 so that aeration is performed from within the housing 2. The aeration valve 11 is mounted in a recess 12 provided in the drive circuit component housing portion 4 of the housing 2.

  The potting structure as described above can be formed as follows. First, a rod-shaped jig 14 having a surface coated with Teflon is inserted into the cylindrical body 8 and disposed at a predetermined position in the drive circuit component accommodating portion 4. Next, the silicone gel 7 is filled into the drive circuit component accommodating portion 4 (FIG. 3A), and when the silicone gel 7 is solidified, only the rod-shaped jig 14 is pulled out (FIG. 3B), and the lid Wear 6 In the present embodiment, since the surface of the rod-shaped jig 14 is coated with Teflon, when the rod-shaped jig 14 is pulled out from the silicone gel 7, the inconvenience that the cylindrical body 8 is also pulled out is ensured. Only the rod-shaped jig 14 can be easily pulled out.

  In the potting structure of the inverter-integrated electric compressor formed by such a method, by providing the cylindrical body 8 in the silicone gel 7 in advance, the through hole 9 in the cylindrical body 8 is formed in the housing 2. Since it can form as the aeration hole 10 from the inside, collapse of the silicone gel 7 of the periphery of the aeration hole 10 accompanying dead weight and vibration can be prevented, and obstruction | occlusion of the aeration hole 10 can be prevented reliably. Therefore, a potting structure using the silicone gel 7 having excellent properties as a potting material can be realized in the inverter-integrated electric compressor.

  Further, since the cylindrical body 8 is formed of a silicone rubber tube, the silicone rubber tube can be firmly bonded to the silicone gel, and the cylindrical body 8 is reliably disposed at a predetermined position of the silicone gel 7. be able to.

  The potting structure and potting method of the inverter-integrated electric compressor according to the present invention can be widely applied to the inverter-integrated electric compressor, and in particular, the potting structure and potting of the inverter-integrated electric compressor used in the vehicle air conditioner. It is suitable as a method.

1 is a perspective view of an inverter-integrated electric compressor to which a potting structure for an inverter-integrated electric compressor according to an embodiment of the present invention is applied. It is sectional drawing which shows the potting structure of the compressor of FIG. It is a schematic process figure at the time of performing the parts potting for drive circuits of the compressor of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Inverter integrated electric compressor 2 Housing 3 Compression mechanism accommodating part 4 Drive circuit component accommodating part 5 Drive circuit part 6 Lid 7 Silicone gel 8 Cylindrical body 9 Through-hole 10 Aeration hole 11 Aeration valve 12 Recessed part 14 Rod-shaped jig

Claims (9)

  In a potting structure of an inverter-integrated electric compressor in which a silicone gel is filled in a housing containing a drive circuit component of a compressor including an inverter, the cylindrical body is provided in the silicone gel by providing a cylindrical body in the silicone gel. A potting structure for an inverter-integrated electric compressor, wherein a through hole in the body is formed as an aeration hole from the inside of the housing.   The potting structure for an inverter-integrated electric compressor according to claim 1, wherein the cylindrical body is formed in a cylindrical shape or a polygonal cross section.   The potting structure for an inverter-integrated electric compressor according to claim 1 or 2, wherein the cylindrical body is made of any one of metal, resin, rubber, and film.   The potting structure for an inverter-integrated electric compressor according to claim 1, wherein the cylindrical body is made of a silicone rubber tube.   When potting by filling silicone gel into the housing containing the drive circuit components of the compressor including the inverter, the cylindrical body held by the rod-shaped jig is placed in the housing, and the cylindrical body in the housing is surrounded. A potting method for an inverter-integrated electric compressor characterized in that after the silicone gel is injected into the tube, only the rod-shaped jig is pulled out and the through hole of the cylindrical body is formed as an aeration hole from the inside of the housing.   The potting method for an inverter-integrated electric compressor according to claim 5, wherein the rod-shaped jig is coated with Teflon coating.   The potting method for an inverter-integrated electric compressor according to claim 5 or 6, wherein the cylindrical body is formed in a cylindrical shape or a polygonal cross section.   The potting method for an inverter-integrated electric compressor according to any one of claims 5 to 7, wherein the cylindrical body is made of any of metal, resin, rubber, and film. The potting method for an inverter-integrated electric compressor according to claim 5, wherein the cylindrical body is made of a silicone rubber tube.

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