子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Element, umfassend zwei Elektroden aus nanoskaligen porösen Metallen, Anordnung, die mehrere Elemente umfasst, und deren Verwendung | EP05016059.7 | 2005-07-23 | EP1621875B1 | 2007-10-17 | Kramer, Dominik Dr. |
| 42 | OIL PUMP | EP03764116 | 2003-06-11 | EP1553298A4 | 2006-06-07 | YAMAUCHI KENTARO; KONDO SATOSHI; KAWABATA NOBUYUKI; IMANISHI TAKASHI; SUEMOTO HIROMICHI |
| An oil pump, comprising a rotor (3) performing a pump action for sucking oil in a suction passage (24) from suction ports (27) and feeding the oil to a delivery passage through delivery ports (19) according to the rotation thereof and an oil control valve for returning excess oil as a return flow to the suction passage (24) through a bypass passage (29) when the flow of the oil in the delivery passage (28) is excessively high, wherein an erosion resistant member (9) having an erosion resistance is installed on the inner wall surface of at least one of the suction passage (24) and the bypass passage (29) at a position opposed to the return flow of the oil, and the erosion resistant member (9) is formed in a discontinuous shape (for example, V-shape or U-shape) around a centerline (P1) in a cross section orthogonal to the centerline (P1). | ||||||
| 43 | COMPRESSOR | EP94916346.3 | 1994-06-02 | EP0704023B1 | 1998-09-02 | McGRATH, Michael Alan |
| An electromagnetic linear compressor has a linearly reciprocating piston (10) biassed in one direction by a helical coil spring. A rotational bearing (40) supports one end of the spring (20a, 20b). To avoid uneven wear due to forces applied by the spring, the spring is replaced by a spring system comprising two helical coil springs (20a, 20b) acting in series to bias the piston (10), and the rotational bearing (40) transmits thrust between the two springs while permitting relative rotation of the two springs about their axis. The compressor also has turbine means (30) for exerting a unidirectional rotational force to rotate the piston (10) about its axis gradually during operation of the compressor. | ||||||
| 44 | COMPRESSOR | EP94916348.9 | 1994-06-02 | EP0706613B1 | 1997-08-27 | MCGRATH, Michael Alan |
| An electromagnetic reciprocating compressor has a body (1, 2), a piston (10) reciprocating in a cylinder (12) in the body and a piston guide (14) in the form of an insert which is radially located relative to the axis of the cylinder (12) by fitting against a registration surface (25a), the registration surface is on a body part (1) which also provides the internal cylinder surface (12a) of said cylinder. To improve the alignment of the insert (14), the registration surface (25a) and the internal cylinder surface (12a) are formed to their respective final diameters in the same machining operation by reference to a common axis. The piston guide (14) is axially located related to the cylinder (12) by being resiliently clamped between the stator (23) and an end portion (27a) of the body (1, 2) opposed to the stator (23) with a resilient member (27) interposed between the body end portion (27a) and the piston guide (14). | ||||||
| 45 | ROTARY COMPRESSOR | EP92908527.2 | 1992-04-13 | EP0533957A1 | 1993-03-31 | SUNAGA, Takashi; KOMATSUBARA, Takeo; IWAHASHI, Itsuo; TAKAHASHI, Yasuki |
A rotary compressor in which 1,1,1,2-tetrafluoroethane is used as a refrigerant and polyol ester which is compatible with the above refrigerant is used as an oil, in which a roller is formed of an iron material, and a vane of a carbon-containing composite aluminium material, and in which the corrosion of the roller and/or vane due to hydrolysis of polyol ester oil is prevented by restraining the generation of sliding friction heat between the roller and vane, thereby reducing the risk of the roller and/or vane being worn. |
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| 46 | 水ポンプ | JP2018002865 | 2018-07-25 | JP3218747U | 2018-11-08 | ロ・ビウンド,ジュゼッペ; パランテ,フランチェスコ |
| 【課題】水ポンプ及びそれを備えた内燃エンジンの冷却回路を提供する。 【解決手段】水ポンプ10は、ステータ12と、ステータ12の内側に規定されたチャンバ13と、チャンバ13の内側に配置され、ステータ12の径方向内側表面12aと接触している径方向外側表面23bを有するリング23と、リング23の内側に配置され、回転軸O周りに回転可能であるロータ14と、を備えている。ロータ14には、それぞれの径方向に沿って移動可能であり、リング23の径方向内側表面23aと接触したそれぞれの径方向外側端部18aを有している、複数のベーン18が設けられている。リング23は、金属材料の摩擦係数より低い摩擦係数を有する材料で形成されている。 【選択図】図1 |
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| 47 | スクロール圧縮機 | JP2016015829 | 2016-01-29 | JP2017133466A | 2017-08-03 | 山下 拓馬; 舘石 太一; 金井 暉裕; 佐藤 創; 木全 央幸; 高須 洋悟; 高橋 一樹 |
| 【課題】オルダムリンクのキーおよびキーが摺動するキー溝の摩耗を低減すること。 【解決手段】スクロール圧縮機1は、固定スクロール2と、固定スクロール2に対して公転旋回される旋回スクロール3と、ハウジング8に固定され、旋回スクロール3を支持する軸受6と、旋回スクロール3と軸受6との間に介在して旋回スクロール3の自転を規制するオルダムリンク10とを備える。オルダムリンク10は、旋回スクロール3に備えられたキー溝20の壁21に対して回転軸5の径方向に摺動する第1キー11と、軸受6に備えられた他のキー溝30の壁31に対して回転軸5の径方向に摺動する第2キー12とを有する。キー溝20の壁21に平坦な基準面210を想定すると、キー溝20の外周側端部20Aおよび内周側端部20Bの少なくとも一方に向かうにつれて基準面210に対して漸次オフセットしているオフセット部21Aを有する。 【選択図】図5 |
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| 48 | pump | JP2013549881 | 2012-01-17 | JP2014503049A | 2014-02-06 | スティーブン エドワード ダウナム; ディヴィッド ポール マンソン; フー ポーウェル |
| 本発明は、ロータ装置(64)及びステータ装置(66)を有する真空ポンプ(62)に関する。 ステータ装置は、耐食性材料で作られた第1の部分(68)を有し、第1の部分は、流体をステータ装置の入口(72)から出口(74)に圧送するために使用中、ロータ装置によって掃過される容積部(70)を画定している。 ステータ装置の第2の部分(76)が熱伝導性材料で作られ、第2の部分は、第1の部分内で生じた熱を第1の部分と第2の部分との間のインターフェース表面(78)で第2の部分に伝達することができるよう第1の部分を包囲している。 第2の部分(76)中には、ステータ装置を冷却するために第2の部分を通って液体冷却剤を運んで熱を第2の部分から液体冷却剤に伝達することができるようにする少なくとも1本のダクト(80)が形成されている。 | ||||||
| 49 | Compressive functional member and method for manufacturing the same | JP2012089181 | 2012-04-10 | JP2013217308A | 2013-10-24 | HIRAWATARI MATSUJI; KOWADA YOSHIO |
| PROBLEM TO BE SOLVED: To provide a compressive functional member which is light-weight and inexpensive and has a high mechanical strength and to provide a method for manufacturing the compressive functional member.SOLUTION: A method for manufacturing a compressive functional member includes: an alloy forming step of forming a casting magnesium alloy material (32) which comprises, in mass% relative to the total amount, 0.2-15% of aluminum, 0.3-10% of calcium, 0.05-1.5% of manganese and unavoidable impurities; a casting step of casting the casting magnesium alloy material to produce an extruding magnesium alloy material (34); an extruding step of subjecting the extruding magnesium alloy material to an extruding processing at a temperature ranging 250-500°C and an extrusion ratio ranging 3-30 to produce a forging magnesium material (36); and a forging step of forging the forging magnesium material to form a compressed functional member (8, 10, 30). | ||||||
| 50 | Mems device using stressed material and shape memory material and its manufacturing method | JP2005235102 | 2005-08-15 | JP2006055991A | 2006-03-02 | XU BAOMIN; DAVID K FALK; YOUNG MICHAEL Y; CHOW EUGENE M |
| PROBLEM TO BE SOLVED: To realize a two-way multiple time actuation type MEMS (Micro Electronic Mechanical System) device. SOLUTION: At least a layer of a shape memory material layer including at least one kind of shape memory material such as a SMA (shape memory alloy) film 110 and at least a layer of a stressed material layer including at least one kind of stressed material such as a stressed metal film 120 are arranged side by side as just neighbors, for instance. Specific stress or stress gradient is imparted to the stressed metal film 120 at the time of the formation. A device or system 100 is biased to an initial deformation state by the stress or stress gradient specific to the stressed metal film 120. Young's modulus and yield strength of the SMA film 110 are increased by martensite austenite phase transition when a temperature rises, mechanical bias by the stressed metal film 120 is overcome, and a distal end is displaced. COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 51 | Compressor | JP50043195 | 1994-06-02 | JPH08510527A | 1996-11-05 | マグラス,マイケル・アラン |
| (57)【要約】 本体(1、2)と、本体内のシリンダ(12)内を往復移動するピストン(10)と、位置決め面(25a)と嵌合することによりシリンダ(12)の軸芯に対して半径方向に位置決めされるインサート形態のピストンガイド(14)とを有し、位置決め面がシリンダの内周面(12a)をも構成する本体部(1)に設けられている電磁式往復圧縮機である。 位置決め面(25a)及びシリンダ内周面(12a)が共通の軸を基準として、同一の加工工程においてそれぞれの最終直径となるように形成されている。 ピストンガイド(14)と本体(1、2)のステータ(23)と対向する端部(27a)との間に弾性部材(27)が配設され、ピストンガイド(14)がステータ(23)と上記本体端部(27a)との間において弾性的にクランプされることによりシリンダ(12)に対して軸方向に位置決めされる。 | ||||||
| 52 | Compressor | JP50042995 | 1994-06-02 | JPH08510526A | 1996-11-05 | マグラス,マイケル・アラン |
| (57)【要約】 電磁式直線型圧縮機は、ヘリカルコイルスプリングにより一方向に付勢された直線往復ピストン(10)を有している。 回転ベアリング(40)が、そのスプリング(20a、20b)の一端を支持している。 スプリングが発生する力による偏磨耗を回避するため、スプリングをピストン(10)に直列に作用して付勢する二つのヘリカルコイルスプリング(20a、20b)を含むバネ系により構成し、回転ベアリング(40)が二つのスプリング間にスラストカを伝達して、これら二つのスプリングのそれらの軸回りの相対回転を許容する。 この圧縮機は、また、作動中にピストン(10)に一方向の回転力を作用させて、ピストンをその軸回りに徐々に回転させるためのタービン手段(30)を有する。 | ||||||
| 53 | 圧縮機能部材及びその製造方法 | JP2012089181 | 2012-04-10 | JP6013755B2 | 2016-10-25 | 平渡 末二; 小和田 芳夫 |
| 54 | 応力固有素材及び形状記憶素材を使用したMEMSデバイスの製造方法 | JP2005235102 | 2005-08-15 | JP5883203B2 | 2016-03-09 | バオミン クー; デビッド ケイ フォーク; マイケル ワイ ヤング; ユーゲン エム コウ |
| 55 | Electric compressor | JP2011049872 | 2011-03-08 | JP5267601B2 | 2013-08-21 | 博史 深作; 博之 元浪 |
| An electric compressor includes a compression mechanism, an electric motor that drives the compression mechanism, a compressor housing that accommodates the electric motor and the compression mechanism, an inverter housing coupled to the compressor housing and including an inverter accommodation chamber that accommodates the inverter, and a sealed terminal arranged in the compressor housing. The sealed terminal electrically connects the inverter and the electric motor. The sealed terminal includes a terminal pin, which is formed from a conductive material, a terminal holder, which holds the terminal pin, and an insulative body, which insulates the terminal pin from the terminal holder. The insulative body includes a first insulative body, which is arranged in the inverter accommodation chamber and formed from a ceramic, and a second insulation body, which is arranged in the compressor housing and formed from glass. | ||||||
| 56 | Electric compressor | JP2011049872 | 2011-03-08 | JP2012186969A | 2012-09-27 | FUKASAKU HIROSHI; MOTONAMI HIROYUKI |
| PROBLEM TO BE SOLVED: To provide an electric compressor which can prevent adhesion of abrasion powder of a metallic material to an airtight terminal without increasing the size of the electric compressor.SOLUTION: A terminal pin 24 is formed of a conductive material, and is held by a terminal holder 23 via a first ceramic insulator 26 disposed on a side of an inverter storage camber 18 and a second glass insulator 27 disposed on an inner 2A side of a housing 2. Since wall thickness X1 of the ceramics can be set freely, axial length Y1 of the terminal pin 24 is shortened to reduce height of the first insulator 26. Since the glass is welded, wall thickness X2 cannot be increased, and thus, by increasing axial length Y2 of the terminal pin 24, an insulation distance is secured. Therefore, the second glass insulator 27 can prevent adhesion of abrasion powder, and thereby, short circuit caused by abrasion powder is prevented, so as to prevent decline in operating efficiency of an electric compressor. The first insulator 26 can be set short, so as to prevent increase in the size of the electric compressor. | ||||||
| 57 | オイルポンプ | JP2004521131 | 2003-06-11 | JPWO2004007966A1 | 2005-11-10 | 山内 健太郎; 健太郎 山内; 近藤 聡; 聡 近藤; 信之 川幡; 孝 今西; 洋通 末本 |
| オイルポンプは、回転に伴い吸込通路(24)のオイルを吸込ポート(27)から吸い込んで吐出ポート(19)を経て吐出通路に供給するポンプ作用を行うロータ(3)と、吐出通路(28)のオイルの流量が過剰のとき過剰のオイルを帰還流としてバイパス通路(29)を経て吸込通路(24)に帰還させるオイル制御弁とを有する。吸込通路(24)及びバイパス通路(29)のうち少なくとも一方の内壁面において、耐浸食性を有する耐浸食部材(9)がオイルの帰還流に対面する位置に設けられている。耐浸食部材(9)は、中心線(P1)と直交する断面において、中心線(P1)の周りで、例えば、V字形状又はU字非のような、非連続形状をなしている。 | ||||||
| 58 | Scroll type compressor | JP26460788 | 1988-10-20 | JPH02112686A | 1990-04-25 | SUNAGA TAKASHI; KOMATSUBARA TAKEO |
| PURPOSE:To make the abatement of working loss and the promotion of lightweightiness achievable by forming a scroll part solidly with a resin composition using a carbon fiber and carbon powder as an indispensable ingredient by means of injection molding, compression molding or the like. CONSTITUTION:As an indispensable ingredient for a resin composition forming a fixed scroll 1 and a rocking scroll 2, a carbon fiber, which enhances the extent of mechanical strength while makes a linear expansion coefficient smaller, and carbon powder which improves abrasion resistance as a self- lubricant both are used. With this, it comes to such one as fully resistible to high temperature at a compression part and, what is more, both these scrolls 1, 2 are made up of resin so that a coefficient of thermal expansion can be made into sameness. In addition, abrasion resistance in a sliding part with a drive shaft 2 and another sliding part between both scroll parts is excellent, and lightweightiness is promoted. Moreover, solid forming for these scroll parts can be done by normal injection molding and compression molding, thus cutting work becomes disused. | ||||||
| 59 | Scroll type compressor | JP26460688 | 1988-10-20 | JPH02112685A | 1990-04-25 | KOMATSUBARA TAKEO; OBOKATA YOSHINOBU; TAKAHASHI YASUKI |
| PURPOSE:To make improvements in workability and abrasion resistance by forming a rocking scroll from a resin composition in use of a glass fiber and an abrasion resisting additive agent as an indispensable. CONSTITUTION:A fixed scroll 1 is made up of such an aluminum material that is lighter in weight and ease of working, while a rocking scroll 2 is formed from a resin composition which is ease of forming and excellent in abrasion resistance. In this case, a glass fiber, polyamide-imide and an abrasion resisting compounding agent serving as this resin composition are mixed at a specified ratio. The rocking scroll 2 formed like this is effective in terms of abrasion resistance as compared with cast iron material and aluminum material. | ||||||
| 60 | Adiabatic volume type apparatus | JP16075382 | 1982-09-13 | JPS58150002A | 1983-09-06 | SUTAARINGU EI KORUGEITO |
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