JP2003314441A - Swash plate compressor - Google Patents

Swash plate compressor

Info

Publication number
JP2003314441A
JP2003314441A JP2002115742A JP2002115742A JP2003314441A JP 2003314441 A JP2003314441 A JP 2003314441A JP 2002115742 A JP2002115742 A JP 2002115742A JP 2002115742 A JP2002115742 A JP 2002115742A JP 2003314441 A JP2003314441 A JP 2003314441A
Authority
JP
Japan
Prior art keywords
mixed gas
swash plate
shaft
cylinder block
housing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2002115742A
Other languages
Japanese (ja)
Inventor
Shigeki Kato
茂樹 加藤
Tsuneo Yano
恒夫 矢野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
YUNIKURA J KK
Original Assignee
YUNIKURA J KK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by YUNIKURA J KK filed Critical YUNIKURA J KK
Priority to JP2002115742A priority Critical patent/JP2003314441A/en
Priority to PCT/JP2003/003620 priority patent/WO2003087577A1/en
Priority to TW92107465A priority patent/TW574473B/en
Publication of JP2003314441A publication Critical patent/JP2003314441A/en
Pending legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B27/00Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders
    • F04B27/08Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis
    • F04B27/10Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis having stationary cylinders
    • F04B27/1036Component parts, details, e.g. sealings, lubrication
    • F04B27/1045Cylinders
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B27/00Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders
    • F04B27/08Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis
    • F04B27/10Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis having stationary cylinders
    • F04B27/1036Component parts, details, e.g. sealings, lubrication
    • F04B27/1081Casings, housings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B27/00Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders
    • F04B27/08Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis
    • F04B27/10Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis having stationary cylinders
    • F04B27/12Multi-cylinder pumps specially adapted for elastic fluids and characterised by number or arrangement of cylinders having cylinders coaxial with, or parallel or inclined to, main shaft axis having stationary cylinders having plural sets of cylinders or pistons

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Compressors, Vaccum Pumps And Other Relevant Systems (AREA)
  • Compressor (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide a structure for leading a large amount of lubricating oil between the swash plate and the bearing members thereof of a wash plate compressor. <P>SOLUTION: This swash plate compressor 10 comprises: a housing 12; a cylinder block 14 in the housing; a shaft 16 rotatably supported on the cylinder block, a plurality of cylinders 20 installed in the cylinder block; pistons 22 arranged in the cylinders; hollows 58 and 60 provided in both the cylinder block and the pistons for accepting the swash plate 18 fixed to the shaft; a leading hole 30 for mixed gas provided in the housing; a hole accepting space 32 communicating with the leading hole; and two chambers 38 and 42. The compressor also comprises at least one opening 70 provided in the cylinder block and communicating with the accepting space (32) and the hollows 58 and 60, and a plurality of passages 72 communicating with the hollows and the chambers 38 and 42. <P>COPYRIGHT: (C)2004,JPO

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、自動車用空調シス
テムに用いられる斜板式圧縮機に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a swash plate compressor used in an air conditioning system for automobiles.

【0002】[0002]

【従来の技術】自動車用空調システムに組み込まれ、圧
縮仕事を行う圧縮機の一つである斜板式圧縮機では、そ
のハウジング内のシリンダブロックに回転可能に支承さ
れたシャフトが車載エンジンの回転動力を受けて回転駆
動される。シャフトの回転運動は、シャフトの周りに該
シャフトと平行な複数のシリンダ内のピストンの往復運
動に変換される。これに伴い、各シリンダの両端から交
互にその内部に低温低圧状態の冷媒と潤滑油との混合ガ
スが吸い込まれ、圧縮され、次いで高温高圧状態で吐出
される。2. Description of the Related Art In a swash plate type compressor, which is one of the compressors that is installed in an air conditioning system for automobiles and performs compression work, a shaft rotatably supported by a cylinder block in a housing of the swash plate compressor is a rotational power of an in-vehicle engine. It receives and is driven to rotate. The rotational movement of the shaft is transformed into a reciprocating movement of the piston around the shaft and in a plurality of cylinders parallel to the shaft. Along with this, the mixed gas of the low temperature and low pressure refrigerant and the lubricating oil is alternately sucked into the inside from both ends of each cylinder, compressed, and then discharged in the high temperature and high pressure state.

【0003】前記混合ガスは、前記ハウジングの上部に
設けられた導入孔から、前記ハウジングの頂部内に設け
られた通路、及び前記ハウジングの両端部にそれぞれ設
けられた2つのチャンバを経て前記シリンダに至る。The mixed gas is introduced into the cylinder from an introduction hole provided in an upper portion of the housing, a passage provided in a top portion of the housing, and two chambers provided at both ends of the housing. Reach

【0004】斜板式圧縮機では、シャフトの回転運動を
ピストンの往復運動に変換するため、シリンダブロック
から各ピストンにわたる空洞が設けられ、該空洞内に円
形の斜板が受け入れられている。シャフトに固定され該
シャフトと斜めに交差する斜板は、空洞に配置されたベ
アリング部材を介して、各ピストンに接している。In the swash plate compressor, in order to convert the rotational movement of the shaft into the reciprocating movement of the piston, a cavity extending from the cylinder block to each piston is provided, and a circular swash plate is received in the cavity. A swash plate fixed to the shaft and diagonally intersecting with the shaft is in contact with each piston via a bearing member arranged in the cavity.

【0005】ところで、斜板式圧縮機にあっては、その
運転が開始されると、前記混合ガスが前記空洞に入り込
み、前記混合ガス中の潤滑油成分が斜板とベアリング部
材との間の潤滑作用をなす。In the swash plate compressor, when the operation of the swash plate compressor is started, the mixed gas enters the cavity, and the lubricating oil component in the mixed gas lubricates the swash plate and the bearing member. Act.

【0006】しかし、実際には、斜板とベアリング部材
との間への潤滑油成分の供給量が十分でなく、このた
め、始動後の短時間に斜板とベアリング部材との間に焼
付きが生じ、斜板式圧縮機の運転が停止することがあっ
た。However, in reality, the supply amount of the lubricating oil component between the swash plate and the bearing member is not sufficient, so that seizure occurs between the swash plate and the bearing member in a short time after starting. Occasionally, the operation of the swash plate compressor was stopped.

【0007】このことから、従来、潤滑油成分の他の供
給ルートを追加することが提案された。この供給ルート
は、シャフトに設けられその一端に開放するねじ穴と、
該ねじ穴に連通し前記シャフトのスラストベアリングに
向けて開放する複数の孔からなる(特開平6−1016
41号)。From this, it has been conventionally proposed to add another supply route of the lubricating oil component. This supply route is provided on the shaft with a screw hole opened at one end,
It is composed of a plurality of holes communicating with the screw holes and opening toward the thrust bearing of the shaft (Japanese Patent Laid-Open No. 6-1016).
41).

【0008】これによれば、斜板式圧縮機の始動後、前
記混合ガスがシャフトの一端に開放するねじ穴に流れ込
み、該ねじ穴を流動する間にねじ山に付着して液状とな
った潤滑油成分が前記孔を経て、斜板とベアリング部と
の間に導かれ、供給される。しかし、これによっても潤
滑油の補給は十分でなく、焼付きが生じることがあっ
た。According to this, after the swash plate type compressor is started, the mixed gas flows into a screw hole opened at one end of the shaft, and while flowing through the screw hole, it adheres to a screw thread and becomes a liquid lubrication. The oil component is introduced and supplied between the swash plate and the bearing portion through the hole. However, even with this, replenishment of the lubricating oil was not sufficient, and seizure sometimes occurred.

【0009】[0009]

【発明が解決しようとする課題】本発明の目的は、斜板
式圧縮機の斜板とそのベアリング部材との間により多量
の潤滑油を導入するための構造を提供することにある。SUMMARY OF THE INVENTION An object of the present invention is to provide a structure for introducing a larger amount of lubricating oil between a swash plate of a swash plate type compressor and its bearing member.

【0010】[0010]

【課題を解決するための手段】本発明は、ハウジング
と、該ハウジング内に収容され前記ハウジングの軸線方
向へ伸びるシリンダブロックと、前記シリンダブロック
に回転可能に支承され該シリンダブロックの軸線方向へ
伸びるシャフトと、前記シリンダブロックに前記シャフ
トの周りに互いに間隔をおいて設けられた複数のシリン
ダ及び各シリンダ内に配置されたピストンと、前記シャ
フトに固定され該シャフトと共に回転可能である斜板を
受け入れる、前記シリンダブロック及び各ピストンの双
方に設けられた空洞と、前記ハウジングに設けられた冷
媒及び潤滑油の混合ガスの導入孔と、前記ハウジング内
に設けられ前記混合ガスの導入孔に連通する該混合ガス
の受け入れ空間と、前記ハウジング内に設けられた2つ
のチャンバであって、各シリンダにその両端から供給さ
れる前記混合ガスを受け入れる2つのチャンバとを備え
る斜板式圧縮機であって、さらに、前記シリンダブロッ
クに設けられ前記混合ガス受け入れ空間と前記空洞とに
連通する少なくとも1つの開口と、前記シリンダブロッ
クに設けられ前記空洞と各チャンバとに連通する複数の
通路とを備えることを特徴とする。According to the present invention, there is provided a housing, a cylinder block housed in the housing and extending in the axial direction of the housing, and a cylinder block rotatably supported by the cylinder block and extending in the axial direction of the cylinder block. A shaft, a plurality of cylinders provided in the cylinder block around the shaft and spaced from each other, a piston disposed in each cylinder, and a swash plate fixed to the shaft and rotatable with the shaft. A cavity provided in both the cylinder block and each piston, an introduction hole for a mixed gas of refrigerant and lubricating oil provided in the housing, and a communication hole provided in the housing for communicating with the introduction hole for the mixed gas, A mixed gas receiving space and two chambers provided in the housing, A swash plate compressor including two chambers for receiving the mixed gas supplied to both ends of each cylinder, further comprising at least one communication chamber provided in the cylinder block and communicating with the mixed gas receiving space and the cavity. One opening and a plurality of passages provided in the cylinder block and communicating with the cavity and each chamber are provided.

【0011】好ましくは、前記混合ガス通路は、前記シ
ャフトの周りに互いに間隔をおいて前記シャフトと前記
ピストンとの間に配置する。Preferably, the mixed gas passage is arranged between the shaft and the piston at a distance from each other around the shaft.

【0012】[0012]

【発明の作用および効果】本発明によれば、斜板式圧縮
機の運転に伴って前記ハウジングの導入孔を経てその内
部の受け入れ空間に導入された混合ガスは、従来と異な
り、前記シリンダブロックに設けられた開口を通して、
前記斜板を受け入れている空洞に導かれ、該空洞から、
前記シリンダブロックに設けられた通路を経て、前記シ
リンダの両端に位置する2つのチャンバ内に供給され
る。According to the present invention, the mixed gas introduced into the receiving space inside the housing through the introduction hole of the housing in accordance with the operation of the swash plate compressor is different from the conventional one in the cylinder block. Through the opening provided,
Is guided to a cavity receiving the swash plate, and from the cavity,
It is supplied into two chambers located at both ends of the cylinder through a passage provided in the cylinder block.

【0013】前記混合ガスが前記空洞を流通し、さら
に、前記空洞への流入に伴う前記混合ガスの膨張により
前記混合ガス中の冷媒と潤滑油成分との相互結合力が低
下することから、前記混合ガスに曝される前記空洞内の
斜板の支持ベアリング部材のほか、さらに前記シャフト
の支持ベアリング部材に前記混合ガス中の潤滑油成分が
多量に付着し、これらのベアリング部材に対する潤滑を
良好にすることができる。The mixed gas flows through the cavity, and further, the expansion of the mixed gas accompanying the inflow into the cavity reduces the mutual coupling force between the refrigerant and the lubricating oil component in the mixed gas. A large amount of the lubricating oil component in the mixed gas adheres to the supporting bearing member of the swash plate in the cavity exposed to the mixed gas, and further to the supporting bearing member of the shaft, thereby improving the lubrication of these bearing members. can do.

【0014】また、前記シャフトの周面には前記混合ガ
スが接し、該混合ガス中の潤滑油成分が付着する。付着
した潤滑油成分は、前記チャンバからの混合ガスの漏出
を防止するために前記シャフトの周囲に配置されたシー
ル部材と前記シャフトとの間に油膜を形成し、前記シー
ル部材のシール性を高める作用をなす。The mixed gas is in contact with the peripheral surface of the shaft, and the lubricating oil component in the mixed gas adheres thereto. The attached lubricating oil component forms an oil film between the shaft and the seal member arranged around the shaft to prevent leakage of the mixed gas from the chamber, thereby enhancing the sealing performance of the seal member. Act.

【0015】前記空洞から前記チャンバに前記混合ガス
を導く前記通路の配置位置を、前記シャフトと前記ピス
トンとの間とするときは、比較的低温状態にある前記混
合ガスにより、斜板式圧縮機の運転により高温状態とな
っている前記ピストン及び前記シリンダブロックを冷却
することができる。When the arrangement position of the passage for guiding the mixed gas from the cavity to the chamber is between the shaft and the piston, the mixed gas at a relatively low temperature causes the swash plate compressor to move. It is possible to cool the piston and the cylinder block which are in a high temperature state by the operation.

【0016】[0016]

【発明の実施の形態】図1および図2を参照すると、自
動車に搭載される斜板式圧縮機が全体に符号10で示さ
れている。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Referring to FIGS. 1 and 2, a swash plate compressor mounted on a vehicle is generally designated by the numeral 10.

【0017】斜板式圧縮機10は、ハウジング12と、
ハウジング12が規定する内部空間に収容されたシリン
ダブロック14と、シリンダブロック14に回転可能に
支承されたシャフト16と、シャフト16に固定された
斜板18と、シリンダブロック14に設けられその軸線
方向に伸びる複数(図示の例では5つ)のシリンダ20
内にそれぞれ配置された複数のピストン22とを備え
る。The swash plate type compressor 10 includes a housing 12 and
A cylinder block 14 housed in the internal space defined by the housing 12, a shaft 16 rotatably supported by the cylinder block 14, a swash plate 18 fixed to the shaft 16, and an axial direction of the cylinder block 14. A plurality of cylinders 20 (five in the illustrated example)
And a plurality of pistons 22 respectively disposed therein.

【0018】斜板式圧縮機10は、車載エンジン(図示
せず)の回転動力を受けて駆動される。前記回動動力は
ベルト(図示せず)を介してシャフト16に伝達され、
該シャフトが回転する。シャフト16への前記回転動力
の伝達およびその解除のため、シャフト16の先端部に
クラッチ(図示せず)が取り付けられる。The swash plate type compressor 10 is driven by the rotational power of an on-vehicle engine (not shown). The rotation power is transmitted to the shaft 16 via a belt (not shown),
The shaft rotates. A clutch (not shown) is attached to the tip of the shaft 16 for transmitting and releasing the rotational power to the shaft 16.

【0019】シャフト16の回転運動は、斜板18を介
して、各シリンダ20内のピストン22をその軸線方向
に往復運動させる直線運動に変換される。その結果、シ
リンダ20内にその両端から冷媒と潤滑油との混合ガス
が交互に吸引され(その移動経路の概略を示す実線の矢
印参照)、該混合ガスはシリンダ20内で圧縮され、そ
の後シリンダ20の両端からその外部に交互に吐出され
る(その移動経路の概略を示す鎖線の矢印参照)。この
過程において、斜板式圧縮機10は自動車用空調システ
ムにおける圧縮仕事を行う。The rotational movement of the shaft 16 is converted via the swash plate 18 into a linear movement that reciprocates the piston 22 in each cylinder 20 in the axial direction thereof. As a result, the mixed gas of the refrigerant and the lubricating oil is alternately sucked into the cylinder 20 from both ends thereof (see the solid line arrow showing the outline of the moving path), the mixed gas is compressed in the cylinder 20, and then the cylinder 20 is compressed. It is alternately discharged from both ends of 20 to the outside thereof (see a chain line arrow showing an outline of the movement route). In this process, the swash plate compressor 10 performs the compression work in the air conditioning system for automobiles.

【0020】ハウジング12は、シリンダブロック14
の収容空間を規定する、全体に円筒状の内面を有する本
体24と、本体24の軸線方向に関する一端部に連な
り、該一端部から突出する、シャフト16の前記先端部
の周囲を取り巻く減径管部26と、本体24の開放端部
(他端部)に固定されこれを覆うキャップ28とからな
る。The housing 12 has a cylinder block 14
Body 24 having a cylindrical inner surface as a whole, which defines the housing space of the body 24, and a diameter-reducing pipe that is continuous with one end of the body 24 in the axial direction and that projects from the one end and surrounds the tip of the shaft 16. It comprises a part 26 and a cap 28 fixed to the open end (the other end) of the body 24 and covering the same.

【0021】ハウジング本体24は前記混合ガスのため
の導入孔30を有し、また、その上部に、前記シリンダ
ブロック14の収容空間に連なる空間32を有する。導
入孔30及び空間32はそれぞれ本体24の両端部間の
ほぼ中間にあって、シリンダブロック14の直上に位置
し、また、互いに連通している。したがって、前記混合
ガスは導入孔30を経て、空間32に受け入れられる。The housing body 24 has an introduction hole 30 for the mixed gas, and has a space 32 at the upper part thereof which is continuous with the accommodation space of the cylinder block 14. The introducing hole 30 and the space 32 are located approximately in the middle between both ends of the main body 24, are located directly above the cylinder block 14, and communicate with each other. Therefore, the mixed gas is received in the space 32 through the introduction hole 30.

【0022】本発明に係る斜板圧縮機10にあっては、
空間32に受け入れられた前記混合ガスは、後記開口7
0、空洞58,60、通路72およびチャンバ38,4
2を通して、各シリンダ20内に供給される。In the swash plate compressor 10 according to the present invention,
The mixed gas received in the space 32 is transferred to the opening 7 described later.
0, cavities 58, 60, passages 72 and chambers 38, 4
2 and is supplied into each cylinder 20.

【0023】シリンダブロック14は互いに突き合わさ
れた一対のブロック部分からなるが、図の簡略を目的と
して、便宜上、単一のものとして表されている。The cylinder block 14 is composed of a pair of block portions abutted against each other, but is shown as a single unit for convenience of illustration.

【0024】シリンダブロック14に設けられた複数の
シリンダ20は、シャフト16の周り、すなわちシリン
ダブロック14の軸線の周りに互いに間隔をおいて配置
されている。各シリンダ20は、シリンダブロック14
の両端で開放し、シリンダ20の両端すなわちシリンダ
ブロック14の両端は、それぞれ、一対のバルブプレー
ト34,36を介してハウジングのキャップ28および
その本体24の一端部に接している。The plurality of cylinders 20 provided in the cylinder block 14 are arranged around the shaft 16, that is, around the axis of the cylinder block 14 at intervals. Each cylinder 20 has a cylinder block 14
Open at both ends of the cylinder 20, and both ends of the cylinder 20, that is, both ends of the cylinder block 14, are in contact with the cap 28 of the housing and one end of the body 24 thereof via the pair of valve plates 34 and 36, respectively.

【0025】ハウジング本体24の一端部およびキャッ
プ28には、それぞれ、両バルブプレート34,36に
相対する2対の同心的な環状空間であるチャンバ38,
40及び42,44が設けられている。At one end of the housing body 24 and the cap 28, there are two pairs of concentric annular spaces 38, 38 facing the valve plates 34, 36, respectively.
40 and 42,44 are provided.

【0026】前記チャンバのうちの内側のチャンバ3
8,42は、シリンダ20内に供給される低温低圧の前
記混合ガスを受け入れることができる。他方、外側のチ
ャンバ40,44は、シリンダ20外に吐出される高温
高圧の混合ガスを受け入れることができる。参考のた
め、供給側の両チャンバ38,42及び吐出側の両チャ
ンバ38,42に、それぞれ、低圧を意味する符号L及
び高圧を意味する符号Hを付した。Inside chamber 3 of the above chambers
8, 42 can receive the low temperature low pressure mixed gas supplied into the cylinder 20. On the other hand, the outer chambers 40 and 44 can receive the high temperature and high pressure mixed gas discharged to the outside of the cylinder 20. For reference, both the supply-side chambers 38 and 42 and the discharge-side chambers 38 and 42 are denoted by the reference symbol L indicating low pressure and the reference symbol H indicating high pressure, respectively.

【0027】両バルブプレート34,36には、低圧側
のチャンバ(L)から各シリンダへの供給混合ガスの移
動を許す2つの孔46,48、及び各シリンダから高圧
側のチャンバ(H)への吐出混合ガスの移動を許す2つ
の孔50,52が設けられている。各孔は、各バルブプ
レートに貼り付けられた、前記混合ガスの移動制御のた
めの逆止弁であるサクションプレート(図示せず)で覆
われている。The two valve plates 34, 36 have two holes 46, 48 for allowing the feed mixed gas to move from the low pressure side chamber (L) to each cylinder, and each cylinder to the high pressure side chamber (H). Two holes 50 and 52 are provided to allow the movement of the discharged mixed gas of. Each hole is covered with a suction plate (not shown) which is a check valve attached to each valve plate for controlling the movement of the mixed gas.

【0028】なお、ハウジング本体24の両端部の高圧
側(H)の両チャンバ40,44は、シャフト16に近
接してシリンダブロック14をその軸線方向に貫通する
孔54に通された管(図示せず)を介して互いに連通し
ている。したがって、高圧側の両チャンバに吐出された
混合ガスは、キャップ28に設けられ該キャップ側のチ
ャンバ44に連なる吐出口56からハウジング12外に
排出される。Both chambers 40, 44 on the high-pressure side (H) at both ends of the housing body 24 are provided with a pipe passing through a hole 54 penetrating the cylinder block 14 in the axial direction thereof in the vicinity of the shaft 16 (see FIG. They are in communication with each other via (not shown). Therefore, the mixed gas discharged to both the high pressure side chambers is discharged to the outside of the housing 12 from the discharge port 56 provided in the cap 28 and connected to the chamber 44 on the cap side.

【0029】シリンダブロック14には各シリンダ20
に連なる空洞部58が設けられている。空洞部58は各
シリンダ20の軸線方向におけるほぼ中央部に位置す
る。また、各ピストン22に空洞部60が設けられてい
る。空洞部58及び各空洞部60は互いに連通してい
る。各ピストンの空洞部60はその往復運動中において
もシリンダブロックの空洞部58との連通を維持され
る。したがって、空洞部58と各空洞部60とは1つの
空洞をなす。Each cylinder 20 is mounted on the cylinder block 14.
Is provided with a cavity 58. The cavity portion 58 is located substantially at the center of each cylinder 20 in the axial direction. A hollow portion 60 is provided in each piston 22. The cavity 58 and each cavity 60 communicate with each other. The cavity 60 of each piston is maintained in communication with the cavity 58 of the cylinder block even during its reciprocating motion. Therefore, the cavity 58 and each cavity 60 form one cavity.

【0030】シャフト16は、斜板18の両側に配置さ
れた一対のスラストベアリング62と、シャフト16の
両端部に配置された一対のラジアルベアリング64とに
支持されている。The shaft 16 is supported by a pair of thrust bearings 62 arranged on both sides of the swash plate 18 and a pair of radial bearings 64 arranged on both ends of the shaft 16.

【0031】シャフト16の回転運動を各ピストン22
の往復運動に変換する斜板18は、空洞58,60内に
受け入れられ、シャフト16に対して傾斜している。こ
のため、前記空洞内の斜板18がシャフト16と共に回
転するとき、各ピストン22は斜板18から軸線方向力
を受ける。The rotational movement of the shaft 16 is controlled by each piston 22.
The swash plate 18, which converts the reciprocating motion of the swash plate into the cavities 58 and 60, is inclined with respect to the shaft 16. Therefore, when the swash plate 18 in the cavity rotates together with the shaft 16, each piston 22 receives an axial force from the swash plate 18.

【0032】各空洞部60内には、斜板18の各面に接
するベアリング部材である円板状のシュー66と、シュ
ー66と空洞部60を規定するピストン22の壁面とに
回転可能に保持されたボール68とが配置されている。
斜板18は、これらのシュー66およびボール68を介
して、各ピストン22に接している。In each cavity 60, a disc-shaped shoe 66 which is a bearing member in contact with each surface of the swash plate 18, and a wall surface of the piston 22 defining the cavity 66 and the cavity 60 are rotatably held. The ball 68 that has been formed.
The swash plate 18 is in contact with each piston 22 via the shoes 66 and the balls 68.

【0033】本発明にあっては、シリンダブロック14
に2つの開口70と、前記低圧低温の混合ガスのための
複数(図示の例では10)の通路72とが設けられてい
る。In the present invention, the cylinder block 14
There are two openings 70 and a plurality (10 in the illustrated example) of passages 72 for the low-pressure low-temperature mixed gas.

【0034】両開口70は、図2で見て最上方に位置す
るシリンダ20の両側に設けられ、シリンダブロックの
空洞部58に連通している。したがって、両開口70は
各ピストンの空洞部60とも連通している。開口70
は、図示の例に代えて、1つとすることもできる。ま
た、図示の開口70の形状は横長の長円形であるが、こ
れに限らず、他の形状を採用することは任意である。Both openings 70 are provided on both sides of the cylinder 20 located at the top in FIG. 2 and communicate with the cavity 58 of the cylinder block. Therefore, both openings 70 communicate with the cavity 60 of each piston. Opening 70
May be one instead of the example shown. Further, although the shape of the opening 70 shown in the drawing is a horizontally long oval, the shape is not limited to this, and other shapes may be adopted.

【0035】また、複数の通路72は、シャフト16の
周りに互いに間隔をおいて配置され、空洞部58と連通
している。複数の通路72の内の半数(5つ)は空洞部
58から一方の低圧側のチャンバ38に向けて伸び、残
りの半数(5つ)は空洞部58から他方の低圧側のチャ
ンバ42に向けて伸びている。これらの通路72は、さ
らに、各バルブプレート34,36に設けられた複数
(5つ)の孔74,76を介して、各チャンバ38,4
2に連通している。The plurality of passages 72 are arranged around the shaft 16 at a distance from each other and communicate with the cavity portion 58. Half (5) of the plurality of passages 72 extend from the cavity 58 toward one low-pressure side chamber 38, and the remaining half (5) extend from the cavity 58 toward the other low-pressure side chamber 42. Is growing. These passages 72 are further connected to the respective chambers 38, 4 through a plurality (five) of holes 74, 76 provided in the respective valve plates 34, 36.
It communicates with 2.

【0036】したがって、ハウジング上部の導入孔30
を通して受け入れ空間32に導入された混合ガスは、空
間32に連通する両開口70を介して前記空洞内に流動
し、該空洞から各通路72を経て、各チャンバ38,4
2に送り込まれる。Therefore, the introduction hole 30 in the upper part of the housing
The mixed gas introduced into the receiving space 32 through the above flows into the cavity through both openings 70 communicating with the space 32, passes through the passages 72 from the cavity, and enters into the chambers 38 and 4.
Sent to 2.

【0037】本発明によれば、前記混合ガスが前記空洞
を流動する間、空洞部60内のシュー66及びボール6
8(ベアリング部材)及び斜板18と、空洞部58内の
ベアリング62,64とが前記混合ガスに曝され、これ
らに前記混合ガス中の潤滑油成分が付着する。According to the present invention, while the mixed gas flows through the cavity, the shoe 66 and the ball 6 inside the cavity 60 are formed.
8 (bearing member) and the swash plate 18 and the bearings 62 and 64 in the cavity 58 are exposed to the mixed gas, and the lubricating oil component in the mixed gas adheres to these.

【0038】また、前記混合ガスが前記空洞に流入する
ときに膨張し、これに伴って前記混合ガス中の冷媒と潤
滑油成分との相互結合力が低下する。このため、前記潤
滑油成分は前記冷媒から分離しやすく、前記ベアリング
部材、斜板、ベアリング等により多量の潤滑油成分が付
着する。その結果、ベアリング部材66,68、斜板1
8及びベアリング62,64が十分に潤滑され、斜板式
圧縮機10の潤滑不足とこれに伴う斜板18とシュー6
6との間の焼付きとが解消される。Further, the mixed gas expands when it flows into the cavity, and the mutual coupling force between the refrigerant and the lubricating oil component in the mixed gas decreases accordingly. Therefore, the lubricating oil component is easily separated from the refrigerant, and a large amount of the lubricating oil component adheres to the bearing member, the swash plate, the bearing and the like. As a result, the bearing members 66 and 68, the swash plate 1
8 and the bearings 62 and 64 are sufficiently lubricated, the swash plate compressor 10 is insufficiently lubricated, and the swash plate 18 and the shoe 6 are accompanied by the insufficient lubrication.
The seizure between 6 and 6 is eliminated.

【0039】また、図示の例では、通路72がシャフト
16とピストン22との間に配置されピストン22に近
接していることから、通路72を流れる低温の前記混合
ガスが、往復運動により高温状態となっているピストン
22の冷却に寄与する。Further, in the illustrated example, since the passage 72 is arranged between the shaft 16 and the piston 22 and is close to the piston 22, the low temperature mixed gas flowing in the passage 72 is in a high temperature state due to the reciprocating motion. Contributes to the cooling of the piston 22.

【0040】さらに、前記空洞内の前記混合ガス中の潤
滑油成分がシャフト16の表面に付着し、シャフト16
の表面に油膜が形成される。特に、チャンバ38に連通
するハウジングの減径管部26からの前記混合ガスの漏
出を防止するために設けられた例えばメカニカルシー
ル、リップシールのようなシール部材78が取り巻くシ
ャフト16の周囲に生じる油膜は、シャフト16のその
周りのシール部材78との間にオイルシールを形成し、
シール部材78のシール性能をより一層高める作用をな
す。符号80及び82は、それぞれ、シール部材78の
両側にあって該シール部材をハウジング12に固定する
ためにシャフト16の周囲に配置されたスナップリング
及びO−リングを示す。Further, the lubricating oil component in the mixed gas in the cavity adheres to the surface of the shaft 16,
An oil film is formed on the surface of the. In particular, an oil film formed around the shaft 16 surrounded by a seal member 78 such as a mechanical seal or a lip seal provided to prevent leakage of the mixed gas from the reduced diameter pipe portion 26 of the housing communicating with the chamber 38. Forms an oil seal between the shaft 16 and the seal member 78 around the shaft 16,
This serves to further enhance the sealing performance of the sealing member 78. Reference numerals 80 and 82 respectively indicate a snap ring and an O-ring arranged on both sides of the seal member 78 and around the shaft 16 for fixing the seal member to the housing 12.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明に係る斜板式圧縮機の縦断面図である。FIG. 1 is a vertical cross-sectional view of a swash plate compressor according to the present invention.

【図2】図1の線2−2に沿って得た断面図である。2 is a cross-sectional view taken along line 2-2 of FIG.

【符号の説明】[Explanation of symbols]

10 斜板式圧縮機 12 ハウジング 14 シリンダブロック 16 シャフト 18 斜板 20 シリンダ 22 ピストン 24 ハウジング本体 30,32 混合ガスの導入孔および受け入れ空間 38,42 チャンバ 58,60 空洞部(空洞) 70 開口 72 通路 10 Swash plate type compressor 12 housing 14 cylinder block 16 shafts 18 swash plate 20 cylinders 22 pistons 24 Housing body 30, 32 Mixed gas inlet and receiving space 38, 42 chambers 58,60 Cavity (cavity) 70 opening 72 passage

───────────────────────────────────────────────────── フロントページの続き Fターム(参考) 3H076 AA07 BB17 CC12 CC20 CC28 CC33 CC36 CC69    ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 3H076 AA07 BB17 CC12 CC20 CC28                       CC33 CC36 CC69

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】ハウジングと、 該ハウジング内に収容され前記ハウジングの軸線方向へ
伸びるシリンダブロックと、 前記シリンダブロックに回転可能に支承され該シリンダ
ブロックの軸線方向へ伸びるシャフトと、 前記シリンダブロックに前記シャフトの周りに互いに間
隔をおいて設けられた複数のシリンダ及び各シリンダ内
に配置されたピストンと、 前記シャフトに固定され該シャフトと共に回転可能であ
る斜板を受け入れる、前記シリンダブロック及び各ピス
トンの双方に設けられた空洞と、 前記ハウジングに設けられた、冷媒と潤滑油との混合ガ
スのための導入孔と、 前記ハウジング内に設けられ前記混合ガスの導入孔に連
通する前記混合ガスの受け入れ空間と、 前記ハウジング内に設けられた2つのチャンバであっ
て、各シリンダにその両端から供給される前記混合ガス
を受け入れる2つのチャンバとを備える斜板式圧縮機で
あって、さらに、 前記シリンダブロックに設けられ前記混合ガスの受け入
れ空間と前記空洞とに連通する少なくとも1つの開口
と、 前記シリンダブロックに設けられ前記空洞と各チャンバ
とに連通する、前記混合ガスのための複数の通路とを備
える、斜板式圧縮機。1. A housing, a cylinder block housed in the housing and extending in the axial direction of the housing; a shaft rotatably supported by the cylinder block and extending in the axial direction of the cylinder block; A plurality of cylinders spaced apart from each other around a shaft and pistons arranged in each cylinder; and a cylinder block and each piston for receiving a swash plate fixed to the shaft and rotatable with the shaft. A cavity provided on both sides, an introduction hole for the mixed gas of the refrigerant and the lubricating oil, which is provided in the housing, and the reception of the mixed gas in communication with the introduction hole of the mixed gas, which is provided in the housing A space and two chambers in the housing, each cylinder A swash plate type compressor provided with two chambers for receiving the mixed gas supplied from both ends thereof, further comprising at least one communication space provided in the cylinder block and communicating with the mixed gas receiving space and the cavity. A swash plate compressor comprising: an opening; and a plurality of passages, which are provided in the cylinder block and communicate with the cavity and each chamber, for the mixed gas. 【請求項2】前記混合ガスの通路は、前記シャフトの周
りに互いに間隔をおいて前記シャフトと前記ピストンと
の間に設けられている、請求項1に記載の斜板式圧縮
機。2. The swash plate compressor according to claim 1, wherein the passages for the mixed gas are provided between the shaft and the piston at intervals around the shaft.
JP2002115742A 2002-04-18 2002-04-18 Swash plate compressor Pending JP2003314441A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
JP2002115742A JP2003314441A (en) 2002-04-18 2002-04-18 Swash plate compressor
PCT/JP2003/003620 WO2003087577A1 (en) 2002-04-18 2003-03-25 Swash plate type compressor
TW92107465A TW574473B (en) 2002-04-18 2003-04-02 Swash plate type compressor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2002115742A JP2003314441A (en) 2002-04-18 2002-04-18 Swash plate compressor

Publications (1)

Publication Number Publication Date
JP2003314441A true JP2003314441A (en) 2003-11-06

Family

ID=29243434

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2002115742A Pending JP2003314441A (en) 2002-04-18 2002-04-18 Swash plate compressor

Country Status (3)

Country Link
JP (1) JP2003314441A (en)
TW (1) TW574473B (en)
WO (1) WO2003087577A1 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100424345C (en) * 2003-12-23 2008-10-08 Meta发动机和能量技术公司 Piston compressor
WO2008147042A1 (en) * 2007-06-01 2008-12-04 Halla Climate Control Corp. Swash plate type compressor
KR20150117872A (en) * 2014-04-11 2015-10-21 한온시스템 주식회사 Double-headed swash plate type compressor

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5126168B2 (en) * 1972-05-10 1976-08-05
JPS59145378A (en) * 1983-02-07 1984-08-20 Toyoda Autom Loom Works Ltd Coupling construction for two-head type piston of compressor with swash plate
JPS63174579U (en) * 1987-04-17 1988-11-11
JPH0528393Y2 (en) * 1987-04-20 1993-07-21
JPH0744765Y2 (en) * 1989-05-18 1995-10-11 株式会社豊田自動織機製作所 Swash plate type compressor

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100424345C (en) * 2003-12-23 2008-10-08 Meta发动机和能量技术公司 Piston compressor
WO2008147042A1 (en) * 2007-06-01 2008-12-04 Halla Climate Control Corp. Swash plate type compressor
KR101037177B1 (en) 2007-06-01 2011-05-26 한라공조주식회사 Swash plate type compressor
US8303263B2 (en) 2007-06-01 2012-11-06 Halla Climate Control Corp. Swash plate type compressor
KR20150117872A (en) * 2014-04-11 2015-10-21 한온시스템 주식회사 Double-headed swash plate type compressor
KR102027178B1 (en) * 2014-04-11 2019-11-04 한온시스템 주식회사 Double-headed swash plate type compressor

Also Published As

Publication number Publication date
TW574473B (en) 2004-02-01
TW200305685A (en) 2003-11-01
WO2003087577A1 (en) 2003-10-23

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