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JP5416388B2 - Inverter-integrated electric compressor - Google Patents

Inverter-integrated electric compressor Download PDF

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Publication number
JP5416388B2
JP5416388B2 JP2008287719A JP2008287719A JP5416388B2 JP 5416388 B2 JP5416388 B2 JP 5416388B2 JP 2008287719 A JP2008287719 A JP 2008287719A JP 2008287719 A JP2008287719 A JP 2008287719A JP 5416388 B2 JP5416388 B2 JP 5416388B2
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Japan
Prior art keywords
inverter
integrated electric
electric compressor
motor drive
drive circuit
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Expired - Fee Related
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JP2008287719A
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Japanese (ja)
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JP2010112338A (en
Inventor
英介 藤村
誠 渋谷
淳 齋藤
水野  淳
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Sanden Corp
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Sanden Corp
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Priority to JP2008287719A priority Critical patent/JP5416388B2/en
Priority to DE112009002720.2T priority patent/DE112009002720B4/en
Priority to PCT/JP2009/005980 priority patent/WO2010052936A1/en
Priority to CN2009801454314A priority patent/CN102209850A/en
Priority to US13/128,618 priority patent/US20110217191A1/en
Publication of JP2010112338A publication Critical patent/JP2010112338A/en
Application granted granted Critical
Publication of JP5416388B2 publication Critical patent/JP5416388B2/en
Expired - Fee Related legal-status Critical Current
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B39/00Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups F04B25/00 - F04B37/00
    • F04B39/12Casings; Cylinders; Cylinder heads; Fluid connections
    • F04B39/121Casings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C23/00Combinations of two or more pumps, each being of rotary-piston or oscillating-piston type, specially adapted for elastic fluids; Pumping installations specially adapted for elastic fluids; Multi-stage pumps specially adapted for elastic fluids
    • F04C23/008Hermetic pumps
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C18/00Rotary-piston pumps specially adapted for elastic fluids
    • F04C18/02Rotary-piston pumps specially adapted for elastic fluids of arcuate-engagement type, i.e. with circular translatory movement of co-operating members, each member having the same number of teeth or tooth-equivalents
    • F04C18/0207Rotary-piston pumps specially adapted for elastic fluids of arcuate-engagement type, i.e. with circular translatory movement of co-operating members, each member having the same number of teeth or tooth-equivalents both members having co-operating elements in spiral form
    • F04C18/0215Rotary-piston pumps specially adapted for elastic fluids of arcuate-engagement type, i.e. with circular translatory movement of co-operating members, each member having the same number of teeth or tooth-equivalents both members having co-operating elements in spiral form where only one member is moving
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C2240/00Components
    • F04C2240/80Other components
    • F04C2240/803Electric connectors or cables; Fittings therefor
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C2240/00Components
    • F04C2240/80Other components
    • F04C2240/808Electronic circuits (e.g. inverters) installed inside the machine

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Compressor (AREA)
  • Applications Or Details Of Rotary Compressors (AREA)

Description

本発明は、インバータを含むモータ駆動回路が圧縮機内に組み付けられたインバータ一体型電動圧縮機に関し、とくに、インバータ部がウレタン樹脂等でモールドされたインバータ一体型電動圧縮機に関する。   The present invention relates to an inverter-integrated electric compressor in which a motor drive circuit including an inverter is assembled in a compressor, and particularly to an inverter-integrated electric compressor in which an inverter portion is molded with urethane resin or the like.

インバータを含むモータ駆動回路が圧縮機内に組み付けられたインバータ一体型電動圧縮機の構造として、モータ駆動回路が絶縁用樹脂モールド材によって被覆され、該樹脂モールド材中に埋設されるようにした構造が知られている(例えば、特許文献1)。このような圧縮機のインバータ部に高電圧を入力するためのリード線は、例えば、圧着端子からなる高電圧用コネクタ(HVコネクタ)を介してインバータ部の回路基板にビス接続されることによりインバータ部と接続される。
特開2002−70743号公報
As a structure of an inverter-integrated electric compressor in which a motor drive circuit including an inverter is assembled in a compressor, a structure in which the motor drive circuit is covered with an insulating resin mold material and embedded in the resin mold material. Known (for example, Patent Document 1). The lead wire for inputting a high voltage to the inverter part of such a compressor is connected to the circuit board of the inverter part via a high voltage connector (HV connector) composed of a crimp terminal, for example. Connected with the part.
JP 2002-70743 A

特許文献1に記載されるインバータ一体型電動圧縮機においては、インバータ部を構成する部品等を熱や振動から保護するために、モータ駆動回路を収容する空間にウレタン樹脂等のモールド材が充填されている。しかし、この充填作業の際に、HVコネクタのカシメ部における導線の間隙にモールド材が流入してしまうと、圧縮機の運転状態が変動することに伴うHVコネクタの温度変化によって、モールド材が膨張、収縮を繰り返し、HVコネクタのカシメ部における接続信頼性が低下するおそれがある。   In the inverter-integrated electric compressor described in Patent Document 1, a molding material such as urethane resin is filled in the space that houses the motor drive circuit in order to protect the components that constitute the inverter unit from heat and vibration. ing. However, if the molding material flows into the gap between the conductive wires in the caulking portion of the HV connector during this filling operation, the molding material expands due to a change in the temperature of the HV connector due to a change in the operating state of the compressor. There is a risk that the connection reliability at the crimped portion of the HV connector is lowered due to repeated contraction.

そこで本発明の課題は、インバータ部がウレタン樹脂等でモールドされており、かつ、電気的接続部の接合信頼性に優れたインバータ一体型電動圧縮機を提供することにある。   SUMMARY OF THE INVENTION An object of the present invention is to provide an inverter-integrated electric compressor in which an inverter part is molded with urethane resin or the like and which has excellent electrical connection part joining reliability.

上記課題を解決するために、本発明に係るインバータ一体型電動圧縮機は、モータが内蔵され、インバータを含むモータ駆動回路が圧縮機ハウジングで囲まれた収容空間内に設けられ、車両に搭載されるインバータ一体型電動圧縮機において、前記インバータに接続された導線の端子のカシメ部が、前記収容空間に充填される樹脂によってインバータごとモールドされており、該カシメ部における外部への開放間隙が、予め、半田からなる間隙封止材により被覆、封止され、前記導線の先端断面部が、前記間隙封止材で被覆されていることを特徴とするものからなる。 In order to solve the above-described problems, an inverter-integrated electric compressor according to the present invention includes a motor, and a motor drive circuit including the inverter is provided in a housing space surrounded by the compressor housing, and is mounted on a vehicle. In the inverter-integrated electric compressor, the crimping portion of the terminal of the conductive wire connected to the inverter is molded together with the inverter by the resin filled in the housing space, and the open clearance to the outside in the crimping portion is It is previously coated and sealed with a gap sealing material made of solder, and the tip cross-sectional portion of the conducting wire is covered with the gap sealing material .

本発明のインバータ一体型電動圧縮機は、インバータに接続された導線の端子のカシメ部における外部への開放間隙が間隙封止材で被覆または封止された状態で、インバータごとモールドされているので、カシメ部の内部間隙にモールド材が流入することがなく、カシメ部の接続信頼性が確保されている。上記間隙封止材としては、HVコネクタの温度変化によって膨張または収縮する度合が小さい材料を用いることが好ましい。このような材料を用いることにより、上記カシメ部の接続信頼性を十分に確保することが可能となる。   The inverter-integrated electric compressor of the present invention is molded together with the inverter in a state in which the open gap to the outside of the crimped portion of the terminal of the lead wire connected to the inverter is covered or sealed with a gap sealing material. The molding material does not flow into the internal gap of the crimping portion, and the connection reliability of the crimping portion is ensured. As the gap sealing material, it is preferable to use a material having a small degree of expansion or contraction due to a temperature change of the HV connector. By using such a material, it is possible to sufficiently secure the connection reliability of the caulking portion.

また、上記開放間隙内が上記間隙封止材によって効率的に被覆、封止されるようにするために、間隙封止材としては、加熱等によって一時的に流動状態を呈し、冷却等によって固化する材料を用いる。具体的には、半田からなる間隙封止材が好適に利用可能である。例えば、加熱した半田ごてにより半田を一時的に流動状態とし、この状態で半田を上記開放間隙内に流入させ、自然冷却又は強制冷却によって半田を固化させることにより、カシメ部における外部への開放間隙の被覆および封止を効率的に達成することが可能である。 Further, in order to efficiently cover and seal the inside of the open gap with the gap sealing material, the gap sealing material is temporarily in a fluid state by heating or the like and solidified by cooling or the like. a material that Ru using. Specifically, a gap sealing material made of solder can be suitably used. For example, the solder is temporarily made to flow with a heated soldering iron, and in this state, the solder is allowed to flow into the opening gap, and the solder is solidified by natural cooling or forced cooling. It is possible to efficiently achieve gap covering and sealing.

また、本発明において、上記開放間隙の内部が被覆、封止されたとしても、導線の先端断面部が露出していると、その先端断面部の凹凸に付着したモールド材が膨張および収縮を繰り返すことにより、導線の先端に応力がかかり、上記カシメ部の接続信頼性が低下するおそれがある。そこで、導線の先端断面部の凹凸を覆い隠すように、上記導線の先端断面部が上記間隙封止材によって被覆される。 In the present invention, even if the inside of the open gap is covered and sealed, if the tip cross-sectional portion of the conducting wire is exposed, the molding material attached to the irregularities of the tip cross-sectional portion repeatedly expands and contracts. As a result, stress is applied to the tip of the conducting wire, and the connection reliability of the caulking portion may be reduced. Therefore, so as to cover the irregularities of the distal section of the wire, the tip cross-section of the conductors Ru covered by the gap sealing material.

本発明に係るインバータ一体型電動圧縮機は、実質的にあらゆるタイプの圧縮機に適用可能であるが、とくに、狭いスペースに搭載されることが多く、モータ駆動回路が熱や振動の影響を受けやすい、車両に搭載される圧縮機として用る。 The inverter-integrated electric compressor according to the present invention can be applied to virtually any type of compressor, but is often mounted in a narrow space, and the motor drive circuit is affected by heat and vibration. cheap, Ru have use as a compressor, which is mounted on a vehicle.

本発明に係るインバータ一体型電動圧縮機によれば、インバータに接続された導線の端子のカシメ部における外部への開放間隙が予め間隙封止材で被覆、封止された状態にて、圧縮機ハウジングで囲まれた収容空間がインバータごとモールドされているので、インバータに接続された導線の端子のカシメ部の内部にモールド材が入り込むことがなくなり、カシメ部の接続安定性、接続信頼性を確保することが可能である。   According to the inverter-integrated electric compressor according to the present invention, the compressor is configured in such a manner that the open gap to the outside of the crimped portion of the terminal of the conductive wire connected to the inverter is covered and sealed with the gap sealing material in advance. Since the housing space surrounded by the housing is molded with the inverter, the molding material will not enter the crimped part of the terminal of the lead wire connected to the inverter, ensuring the connection stability and connection reliability of the crimped part. Is possible.

以下に、本発明の望ましい実施の形態を、図面を参照して説明する。
図1は、本発明の一実施態様に係るインバータ一体型電動圧縮機1の基本構成として、車両空調装置用のスクロール型電動圧縮機の例を示している。図1において、2は、固定スクロール3と可動スクロール4からなる圧縮機構を示している。可動スクロール4は、ボールカップリング5を介して自転が阻止された状態で、固定スクロール3に対して旋回されるようになっている。圧縮機ハウジング(センターハウジング)6内には、モータ7が組み込まれており、この内蔵モータ7によって主軸8(回転軸)が回転駆動される。主軸8の一端側に配設された偏心ピン9、それに対して回転自在に係合された偏心ブッシュ10を介して、主軸8の回転運動が可動スクロール4の旋回運動に変換されるようになっている。本実施態様では、被圧縮流体としての冷媒を吸入する吸入ポート11が圧縮機ハウジング(フロントハウジング)12に設けられており、吸入された冷媒は、モータ7配置部を通して圧縮機構2へと導かれ、圧縮機構2で圧縮された冷媒は、吐出孔13、吐出室14、圧縮機ハウジング(リアハウジング)15に設けられた吐出ポート16を通して外部回路に送られる。
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an example of a scroll-type electric compressor for a vehicle air conditioner as a basic configuration of an inverter-integrated electric compressor 1 according to an embodiment of the present invention. In FIG. 1, reference numeral 2 denotes a compression mechanism composed of a fixed scroll 3 and a movable scroll 4. The movable scroll 4 is turned with respect to the fixed scroll 3 in a state in which the rotation is prevented via the ball coupling 5. A motor 7 is incorporated in the compressor housing (center housing) 6, and the main shaft 8 (rotary shaft) is rotationally driven by the built-in motor 7. The rotational motion of the main shaft 8 is converted into the turning motion of the movable scroll 4 via the eccentric pin 9 disposed on one end side of the main shaft 8 and the eccentric bush 10 rotatably engaged with the eccentric pin 9. ing. In this embodiment, a suction port 11 for sucking refrigerant as a fluid to be compressed is provided in the compressor housing (front housing) 12, and the sucked refrigerant is guided to the compression mechanism 2 through the motor 7 arrangement portion. The refrigerant compressed by the compression mechanism 2 is sent to the external circuit through the discharge port 13, the discharge chamber 14, and the discharge port 16 provided in the compressor housing (rear housing) 15.

上記モータ7の駆動用回路21は、圧縮機ハウジング12(フロントハウジング)内に設けられており、より詳しくは、圧縮機ハウジング12に形成された冷媒吸入経路側との仕切壁22の外面側にモータ駆動回路21が設けられている。モータ駆動回路21は、仕切壁22を貫通させて取り付けられた密封端子23(モータ駆動回路21の出力端子)、リード線24を介してモータ7に給電し、密封端子23設置部では、冷媒吸入経路側とモータ駆動回路21設置側とがシールされている。モータ駆動回路21を仕切壁22の外面側に設けることによって、仕切壁22を介して、モータ駆動回路21を含む電気部品の少なくとも一部が、吸入冷媒と熱交換可能となっており、吸入冷媒によって冷却可能となっている。   The driving circuit 21 for the motor 7 is provided in the compressor housing 12 (front housing), and more specifically, on the outer surface side of the partition wall 22 with the refrigerant suction path side formed in the compressor housing 12. A motor drive circuit 21 is provided. The motor drive circuit 21 supplies power to the motor 7 via a sealed terminal 23 (an output terminal of the motor drive circuit 21) attached through the partition wall 22 and a lead wire 24. The path side and the motor drive circuit 21 installation side are sealed. By providing the motor drive circuit 21 on the outer surface side of the partition wall 22, at least a part of the electrical components including the motor drive circuit 21 can exchange heat with the suction refrigerant via the partition wall 22. The cooling is possible.

モータ駆動回路21は、インバータ機能を有するIPM(Intelligent Power Module)25と制御回路26とを含んでおり、それとは別体にあるいは一体にコンデンサ27等の電気部品が設けられている。このモータ駆動回路21は、入力端子としてのコネクタ28を介して外部電源(図示略)と接続される。これらモータ駆動回路21を含む電気部品を実装した圧縮機ハウジング12の外部への開口側は、蓋部材29でシールされた状態で覆われており、これら電気部品が蓋部材29により保護されている。   The motor drive circuit 21 includes an IPM (Intelligent Power Module) 25 having an inverter function and a control circuit 26, and an electrical component such as a capacitor 27 is provided separately or integrally therewith. The motor drive circuit 21 is connected to an external power source (not shown) via a connector 28 as an input terminal. The opening side to the outside of the compressor housing 12 on which the electric parts including the motor drive circuit 21 are mounted is covered in a state of being sealed with a lid member 29, and these electric parts are protected by the lid member 29. .

上記のような構成を電気回路的に示すと、例えば図2のようになる。図2において、電動圧縮機1にはモータ駆動回路21が設けられており、モータ駆動回路21からの出力が密封端子23、リード線24を介して内蔵モータ7の各モータ巻線41に給電されることによりモータ7が回転駆動され、圧縮機構2による圧縮が行われる。モータ駆動回路21は、モータ駆動用高電圧回路30と、モータ駆動用高電圧回路30内のインバータ42の各パワー素子43(スイッチング素子)を制御するためのモータ制御回路44を備えた制御用低電圧回路45を有しており、この制御用低電圧回路45が図1に示した制御回路26内に構成されている。外部電源46(例えば、バッテリー)からの電力が、高電圧用コネクタ47を通してモータ駆動用高電圧回路30へ給電され、ノイズフィルタ37、平滑用のコンデンサ27を介してインバータ42に供給され、インバータ42で電源46からの直流が疑似三相交流に変換された後、モータ7へと供給される。モータ制御回路44へは、例えば、車両の空調制御装置48から、低電圧の電力が制御信号用コネクタ49を介して供給される。図2では、この制御信号用コネクタ49と、高電圧用コネクタ47とは、離れた位置に図示してあるが、実際には、図1に示した同一のコネクタ28内に装備されている。制御回路26に、シールドプレート31が固定され、このシールドプレート31が、図2に示すように、モータ駆動用高電圧回路30と制御用低電圧回路45を備えた制御回路26との間に介在され、モータ駆動用高電圧回路30を極力広い範囲にわたって覆い、モータ駆動用高電圧回路30から制御用低電圧回路45側へのノイズの影響を抑制している。   An example of the configuration as described above is shown in FIG. In FIG. 2, the electric compressor 1 is provided with a motor drive circuit 21, and an output from the motor drive circuit 21 is fed to each motor winding 41 of the built-in motor 7 via a sealing terminal 23 and a lead wire 24. As a result, the motor 7 is rotationally driven, and the compression mechanism 2 performs compression. The motor drive circuit 21 includes a motor drive high voltage circuit 30 and a control low circuit provided with a motor control circuit 44 for controlling each power element 43 (switching element) of the inverter 42 in the motor drive high voltage circuit 30. A voltage circuit 45 is provided, and the control low voltage circuit 45 is configured in the control circuit 26 shown in FIG. Electric power from an external power supply 46 (for example, a battery) is supplied to the motor driving high voltage circuit 30 through the high voltage connector 47 and supplied to the inverter 42 via the noise filter 37 and the smoothing capacitor 27. Then, the direct current from the power source 46 is converted into a pseudo three-phase alternating current and then supplied to the motor 7. For example, low voltage power is supplied to the motor control circuit 44 via a control signal connector 49 from an air conditioning control device 48 of the vehicle. In FIG. 2, the control signal connector 49 and the high voltage connector 47 are illustrated at positions apart from each other, but actually they are provided in the same connector 28 shown in FIG. 1. A shield plate 31 is fixed to the control circuit 26, and the shield plate 31 is interposed between the motor driving high voltage circuit 30 and the control circuit 26 having the control low voltage circuit 45 as shown in FIG. Thus, the motor driving high voltage circuit 30 is covered as much as possible to suppress the influence of noise from the motor driving high voltage circuit 30 to the control low voltage circuit 45 side.

図3は、図1の圧縮機1において、圧縮機ハウジング(フロントハウジング)12で囲まれた収容空間60内にモータ駆動回路21が収容されている状態を示す斜視図である。収容空間60内にはケース部材58とIPM25が収められている。また、圧着端子からなる高電圧用コネクタ47は、リード線24の先端にカシメ接続されている。高電圧用コネクタ47は、ケース部材58にビスで固定されており、ケース部材58の裏面に設置されたノイズフィルタ37とコンデンサ27との間で電気的に接続されている。   FIG. 3 is a perspective view showing a state in which the motor drive circuit 21 is housed in the housing space 60 surrounded by the compressor housing (front housing) 12 in the compressor 1 of FIG. 1. A case member 58 and an IPM 25 are accommodated in the accommodation space 60. A high voltage connector 47 formed of a crimp terminal is caulked to the tip of the lead wire 24. The high voltage connector 47 is fixed to the case member 58 with screws, and is electrically connected between the noise filter 37 and the capacitor 27 installed on the back surface of the case member 58.

図4は、図3の高電圧用コネクタ47とリード線24を接続するカシメ部を示しており、(A)はカシメ部を被覆していない状態の斜視図、(B)はカシメ部を半田で被覆した状態の斜視図である。図4(A)において、高電圧用コネクタ47はリード線24にカシメ接続されている。カシメ部61において、リード線24の被覆により束ねられた複数の導線62は、外部への開放間隙63を形成しており、この開放間隙63にウレタン樹脂等からなるモールド材が入り込むと、カシメ部61の接続信頼性が低下する。そこで、図4(B)に示されるように、開放間隙63に間隙封止材としての半田64を流入させ、この状態にてモールド材を図3の収容空間60内に充填させてインバータ42ごとモールドすることにより、カシメ部61へのモールド材の流入が防止される。とくに、図4(B)のように導線62の先端断面部を半田64で完全に被覆することにより、この部分にモールド材が付着した場合にも、カシメ部61の接続信頼性を十分に確保することが可能となる。   4A and 4B show a caulking portion for connecting the high voltage connector 47 and the lead wire 24 shown in FIG. 3. FIG. 4A is a perspective view showing a state in which the caulking portion is not covered, and FIG. It is a perspective view of the state coat | covered with. In FIG. 4A, the high voltage connector 47 is caulked to the lead wire 24. In the caulking portion 61, the plurality of conductive wires 62 bundled by covering the lead wires 24 form an open gap 63 to the outside, and when a molding material made of urethane resin or the like enters the open gap 63, the caulking portion The connection reliability of 61 is lowered. Therefore, as shown in FIG. 4B, solder 64 as a gap sealing material is caused to flow into the open gap 63, and in this state, the molding material is filled into the accommodation space 60 of FIG. By molding, the molding material is prevented from flowing into the caulking portion 61. In particular, as shown in FIG. 4B, the tip cross-section portion of the conducting wire 62 is completely covered with the solder 64 so that the connection reliability of the caulking portion 61 is sufficiently ensured even when the molding material adheres to this portion. It becomes possible to do.

本発明に係るインバータ一体型電動圧縮機は、実質的にあらゆるタイプの圧縮機に適用可能であるが、とくに、狭いスペースに搭載されることが多く、モータ駆動回路が熱や振動の影響を受けやすい、車両に搭載される圧縮機として好適に用いることができる。   The inverter-integrated electric compressor according to the present invention can be applied to virtually any type of compressor, but is often mounted in a narrow space, and the motor drive circuit is affected by heat and vibration. It is easy to use as a compressor mounted on a vehicle.

本発明の一実施態様に係るインバータ一体型電動圧縮機の基本構成を示す概略縦断面図である。It is a schematic longitudinal cross-sectional view which shows the basic composition of the inverter integrated electric compressor which concerns on one embodiment of this invention. 図1の圧縮機を含む空調制御機構を電気回路的に示した構成図である。It is the block diagram which showed the air-conditioning control mechanism containing the compressor of FIG. 図1のフロントハウジングで囲まれた収容空間内にモータ駆動回路が収容された状態を示す斜視図である。It is a perspective view which shows the state in which the motor drive circuit was accommodated in the accommodation space enclosed with the front housing of FIG. 図3のHVコネクタとリード線を接続するカシメ部を示し、(A)は未被覆状態の斜視図、(B)は被覆状態の斜視図である。FIGS. 3A and 3B show a caulking portion that connects the HV connector of FIG. 3 and a lead wire, FIG. 3A is a perspective view in an uncovered state, and FIG.

符号の説明Explanation of symbols

1 インバータ一体型電動圧縮機
2 圧縮機構
3 固定スクロール
4 可動スクロール
5 ボールカップリング
6 圧縮機ハウジング(センターハウジング)
7 モータ
8 主軸
9 偏心ピン
10 偏心ブッシュ
11 吸入ポート
12 圧縮機ハウジング(フロントハウジング)
13 吐出孔
14 吐出室
15 圧縮機ハウジング(リアハウジング)
16 吐出ポート
21 モータ駆動回路
22 仕切壁
23 密封端子
24 リード線
25 IPM
26 制御回路
27 コンデンサ
28 コネクタ
29 蓋部材
30 モータ駆動用高電圧回路
31 シールドプレート
37 ノイズフィルタ
41 モータ巻線
42 インバータ
43 パワー素子
44 モータ制御回路
45 制御用低電圧回路
46 外部電源
47 高電圧用コネクタ(HVコネクタ)
48 空調制御装置
49 制御信号用コネクタ
58 ケース部材
60 収容空間
61 カシメ部
62 導線
63 開放間隙
64 間隙封止材としての半田
DESCRIPTION OF SYMBOLS 1 Inverter integrated electric compressor 2 Compression mechanism 3 Fixed scroll 4 Movable scroll 5 Ball coupling 6 Compressor housing (center housing)
7 Motor 8 Main shaft 9 Eccentric pin 10 Eccentric bush 11 Suction port 12 Compressor housing (front housing)
13 Discharge hole 14 Discharge chamber 15 Compressor housing (rear housing)
16 Discharge port 21 Motor drive circuit 22 Partition wall 23 Sealed terminal 24 Lead wire 25 IPM
26 Control circuit 27 Capacitor 28 Connector 29 Lid member 30 Motor drive high voltage circuit 31 Shield plate 37 Noise filter 41 Motor winding 42 Inverter 43 Power element 44 Motor control circuit 45 Control low voltage circuit 46 External power supply 47 High voltage connector (HV connector)
48 Air-conditioning control device 49 Control signal connector 58 Case member 60 Accommodating space 61 Caulking portion 62 Lead wire 63 Opening gap 64 Solder as gap sealing material

Claims (2)

モータが内蔵され、インバータを含むモータ駆動回路が圧縮機ハウジングで囲まれた収容空間内に設けられ、車両に搭載されるインバータ一体型電動圧縮機において、前記インバータに接続された導線の端子のカシメ部が、前記収容空間に充填される樹脂によってインバータごとモールドされており、該カシメ部における外部への開放間隙が、予め、半田からなる間隙封止材により被覆、封止され、前記導線の先端断面部が、前記間隙封止材で被覆されていることを特徴とするインバータ一体型電動圧縮機。 In an inverter-integrated electric compressor mounted in a vehicle, in which a motor drive circuit including an inverter is provided and a motor drive circuit including an inverter is provided in a housing space surrounded by a compressor housing, caulking of terminals of conductive wires connected to the inverter And the inverter is molded with the resin filled in the housing space, and the open gap to the outside of the crimped portion is previously covered and sealed with a gap sealing material made of solder, and the tip of the conducting wire An inverter-integrated electric compressor characterized in that a cross-sectional portion is covered with the gap sealing material . 前記導線の外周が前記端子のカシメ部およびリード線の被覆部によって被覆されており、該導線の先端断面部および前記カシメ部における外部への開放間隙が、前記間隙封止材によって完全に被覆されている、請求項1に記載のインバータ一体型電動圧縮機。The outer periphery of the conducting wire is covered with the crimping portion of the terminal and the covering portion of the lead wire, and the open cross section of the leading end of the conducting wire and the open clearance to the outside are completely covered with the gap sealing material. The inverter-integrated electric compressor according to claim 1.
JP2008287719A 2008-11-10 2008-11-10 Inverter-integrated electric compressor Expired - Fee Related JP5416388B2 (en)

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JP2008287719A JP5416388B2 (en) 2008-11-10 2008-11-10 Inverter-integrated electric compressor
DE112009002720.2T DE112009002720B4 (en) 2008-11-10 2009-11-10 Electric compressor with integrated inverter
PCT/JP2009/005980 WO2010052936A1 (en) 2008-11-10 2009-11-10 Electric compressor integral with inverter
CN2009801454314A CN102209850A (en) 2008-11-10 2009-11-10 Electric compressor integral with inverter
US13/128,618 US20110217191A1 (en) 2008-11-10 2009-11-10 Inverter-Integrated Electric Compressor

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JP2008287719A JP5416388B2 (en) 2008-11-10 2008-11-10 Inverter-integrated electric compressor

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CN102209850A (en) 2011-10-05
JP2010112338A (en) 2010-05-20
DE112009002720B4 (en) 2020-08-06
US20110217191A1 (en) 2011-09-08
DE112009002720T5 (en) 2013-02-07

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