| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Ceramic plunger for internal combustion engine high pressure fuel system | US21296 | 1998-02-10 | US6149073A | 2000-11-21 | Dan K. Hickey; J. Victor Perr; David M. Rix; Joseph C. Bentz; Thomas M. Yonushonis; Malcolm G. Naylor; Katsuhiro Shinosawa; John T. Carroll, III |
| A wear and scuff-resistant plunger for use in high pressure fuel system components in internal combustion engines is provided. The plunger, which is formed of a high thermal expansion, high hardness ceramic with a thermal expansion coefficient preferably greater than 6.times.10.sup.-6 /.degree. C. and a hardness preferably greater than 800 Kg/mM.sup.2, maintains a desired optimum minimal diametral clearance while avoiding excessive fuel leakage and efficient plunger function without scuffing or sticking under the high axial, side and pressure loads and variable quality fuels encountered in the fuel system operating environment. Preferred high thermal expansion, high hardness ceramics are zirconia, alumina-zirconia and alumina. | ||||||
| 142 | Electrochemical hardness modification of non-allotropic metal surfaces | US499849 | 1995-07-10 | US6139656A | 2000-10-31 | Daniel Edward Wilkosz; Matthew John Zaluzec |
| An electrochemical method of modifying the surface hardness of a non-allotropic metal member 10, comprising: (a) forming the member to near net-shape with at least one surface 12 to be hardened; (b) subjecting the surface 12 to rapid melting and resolidification by incidence of an electrical discharge between an electrode 16 and the surface 12 closely spaced thereto, the spacing containing an electrolyte with plasma forming capability, the surface 12 being hardened by crystallographic change of the globules resulting from substitutional alloying; and (c) cropping the surface grains 29 of the surface to increase load bearing capacity while retaining liquid retention capacity. | ||||||
| 143 | Rotary compressor and blade tip structure | US390502 | 1995-02-17 | US5494423A | 1996-02-27 | Akihiko Ishiyama; Ken'ichi Kawashima; Hirokatsu Kohsokabe; Shoichi Nakashima; Hideki Yazawa; Hiroaki Hata; Tadashi Iizuka; Kazuo Sekigami; Koichi Sato |
| A rotary compressor has a compression chamber defined by a rolling piston which is eccentrically rotated in a cylinder by a rotary shaft including an eccentric crank portion, and by a blade which slides in a groove formed in the cylinder and of which the tip contacts an outer-peripheral surface of the rolling piston. In such a rotary compressor, abnormal wear in the contact portion between the rolling piston and the blade can be prevented as follows: Assuming that the rotation angle of the rolling piston when the blade is located at a start position of reciprocating motion is zero degrees, the contact surface of the blade which is in contact with the rolling piston is formed to have a curvature of substantially zero and as a flat surface when the rotation angle of the rolling piston is about 90 degrees and about 270 degrees and the pressing force of the blade with respect to the rolling piston reaches the maximum value; and also, a material which has an elastic modulus lower than that of the material of the rolling piston which is highly self-lubricative is used for the blade. | ||||||
| 144 | Wear resistant pump valve | US595553 | 1984-03-30 | US4518329A | 1985-05-21 | Joe T. Weaver |
| A fluid pressure energized wear resistant pump valve is provided having a valve body and seal retainer formed of metal which secure a seal insert in assembly therewith. The seal insert incorporates an elastomeric sealing portion having a frusto-conical sealing surface for engagement with a valve seat of corresponding configuration. An anti-extrusion member is secured in assembly with the elastomeric seal portion and is composed of non-metal material of greater hardness than the hardness of the elastomeric material. The anti-extrusion member forms a frusto-conical sealing surface disposed in contiguous relation with the sealing surface of the elastomeric seal member. The anti-extrusion member further defines a tapered, yieldable peripheral sealing lip which yields responsive to pressure conditions to prevent pressure induced extrusion and damage to the elastomeric sealing member. | ||||||
| 145 | Rotary vane type pump | US61284467 | 1967-01-31 | US3386648A | 1968-06-04 | ROSSEM WALTER J VAN |
| 146 | 斜板式モータまたは斜板式ポンプ | JP2013185392 | 2013-09-06 | JP6253318B2 | 2017-12-27 | 輝彦 佐竹; 悦朗 小森 |
| 147 | プランジャポンプ | JP2016017468 | 2016-02-01 | JP2017137780A | 2017-08-10 | 水越 幹雄 |
| 【課題】あらゆる使用条件下においても析出や固着によるポンプ停止を防ぐ。 【解決手段】プランジャポンプは、内部にシリンダ室を有するシリンダと、外周面が前記シリンダの内周面に摺接するように前記シリンダ室に対して進退自在に配置されると共に、先端部外周にカット面が形成されたプランジャと、前記シリンダに、前記シリンダ室に繋がるように設けられた吸込口及び吐出口とを備えたプランジャポンプであって、前記シリンダは、前記シリンダ室を有するシリンダ部と、前記プランジャの前記シリンダ室に進退する部分よりも基端側の部分と摺動するスペーサ部とを備え、前記シリンダ部は、第1の硬度の材料からなり、前記スペーサ部は、前記第1の硬度より柔らかい第2の硬度の材料からなり、前記スペーサ部の前記プランジャとの摺動部分の基端から前記スペーサ部の先端までの前記軸方向の長さは、前記プランジャの往復運動の最大ストローク長よりも長い。 【選択図】図3 |
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| 148 | プランジャポンプ | JP2016017468 | 2016-02-01 | JP5981669B1 | 2016-08-31 | 水越 幹雄 |
| 【課題】あらゆる使用条件下においても析出や固着によるポンプ停止を防ぐ。 【解決手段】プランジャポンプは、内部にシリンダ室を有するシリンダと、外周面が前記シリンダの内周面に摺接するように前記シリンダ室に対して進退自在に配置されると共に、先端部外周にカット面が形成されたプランジャと、前記シリンダに、前記シリンダ室に繋がるように設けられた吸込口及び吐出口とを備えたプランジャポンプであって、前記シリンダは、前記シリンダ室を有するシリンダ部と、前記プランジャの前記シリンダ室に進退する部分よりも基端側の部分と摺動するスペーサ部とを備え、前記シリンダ部は、第1の硬度の材料からなり、前記スペーサ部は、前記第1の硬度より柔らかい第2の硬度の材料からなり、前記スペーサ部の前記プランジャとの摺動部分の基端から前記スペーサ部の先端までの前記軸方向の長さは、前記プランジャの往復運動の最大ストローク長よりも長い。 【選択図】図3 |
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| 149 | 斜板式モータまたは斜板式ポンプ | JP2013185392 | 2013-09-06 | JP2015052294A | 2015-03-19 | SATAKE TERUHIKO; KOMORI ETSURO |
| 【課題】斜板式モータまたは斜板式ポンプの傾転シリンダ孔の耐摩耗性を向上させる。【解決手段】斜板式モータ(または斜板式ポンプ)は、斜板の角度を変更するための傾転ピストンを摺動自在に保持する傾転シリンダ孔を有し、傾転シリンダ孔9の周面には、傾転シリンダ孔9の周方向に沿ったレーザー焼入れにより焼入れ部20が形成されている。この焼入れ部20の焼入れ開始位置および焼入れ終了位置は、傾転シリンダ孔9の周面において傾転ピストン8から受ける荷重が傾転シリンダ孔9の周方向に関して最小となる位置から?60度の低荷重範囲C1、C2内とされており、低荷重範囲C1、C2を超えて焼入れ部20が形成されている。【選択図】図5 | ||||||
| 150 | 圧縮機 | JP2013103709 | 2013-05-16 | JP2014224490A | 2014-12-04 | HOSHIDA TAKAHIRO; KAYUKAWA HIROAKI; KAMITOKU TETSUYUKI; SUZUKI MASAHIRO; HIRAMATSU OSAMU; SUZUKI YASUSHI |
| 【課題】圧縮効率及び信頼性に優れた圧縮機を提供する。【解決手段】冷媒を吸入する吸入室2と、吸入室2にある冷媒を導入して圧縮する圧縮室3と、圧縮された冷媒が圧縮室3から吐出される吐出室4とを有し、吸入室2と吐出室4とが隣接して配置された圧縮機1である。吸入室2と吐出室4との間を隔てる隔壁5の少なくとも一方の面には断熱塗料を硬化させてなる断熱材6が設けられている。断熱材6は、エポキシ樹脂、ポリアミドイミド樹脂、フェノール樹脂及びポリイミド樹脂からなる群より選択される1種類以上のバインダー樹脂と、中空粒子とを含んでいる。【選択図】図1 | ||||||
| 151 | Swash plate motor | JP2011041153 | 2011-02-28 | JP5590732B2 | 2014-09-17 | 悦郎 小森; 裕司 山本; 誠邦 筒井 |
| 152 | The combination of the cylinder and the piston ring | JP2012286718 | 2012-12-28 | JP2014129826A | 2014-07-10 | KUNIMOTO AKIRA; MORONUKI MASAKI |
| PROBLEM TO BE SOLVED: To provide a combination of a cylinder and a piston ring which exhibit excellent wear resistance when combining the piston ring having a hard carbon coating on its external peripheral face to the cylinder composed of a hypereutectic Al-Si alloy.SOLUTION: At least an external peripheral slide face of the piston ring is coated with a laminated coating which is composed of, sequentially from a base material side, a metal layer, a metal-containing hard carbon layer, and a metal-free hard carbon layer, in which Martens hardness (push-in hardness) HMs is 5 to 13 GPa, indentation elasticity E is 70 to 200 GPa, a deformation rate Ppe represented by a ratio (Wp/We) of plastic deformation energy Wp and elastic deformation energy We is not larger than 0.45, and a ratio (Tmf/Tm) of the thickness Tmf of the metal-free hard carbon layer with respect to the thickness Tm of the metal-containing hard carbon layer is 2 to 8. | ||||||
| 153 | Refrigerant compressor | JP2010180275 | 2010-08-11 | JP5385873B2 | 2014-01-08 | 裕子 高妻; 睦憲 松永; 功一 今田; 裕一 柳瀬 |
| 154 | ギヤ型ポンプ | JP2011546082 | 2010-12-09 | JPWO2011074477A1 | 2013-04-25 | 英夫 韮澤; 金原 茂; 茂 金原; 平井 真一; 真一 平井; 広介 山根; 眞彦 篠原 |
| 駆動源により駆動される駆動側ロータ(2)と、該駆動側ロータによって駆動される被駆動側ロータ(3)とが噛み合いながら回転して作動流体を移送するギヤ型ポンプにおいて、駆動側ロータ(2)と被駆動側ロータ(3)の一方にのみ水蒸気処理を施し、他方を未処理とする。 | ||||||
| 155 | Diaphragms and gas or liquid transport pump using the same | JP2007528317 | 2006-05-11 | JP5029360B2 | 2012-09-19 | 稔 前田; 健太郎 鼎 |
| 156 | Scroll-type compressor and a method for manufacturing | JP2007049903 | 2007-02-28 | JP4661801B2 | 2011-03-30 | 孝 井上; 重樹 岩波; 恭弘 沖; 実昌 河鰭 |
| 157 | Pump assembly | JP2002500090 | 2001-05-24 | JP4567288B2 | 2010-10-20 | ブリーデン、ロバート、エイチ. |
| 158 | Capacity control device, for a screw compressor | JP2007223471 | 2007-08-30 | JP4401408B2 | 2010-01-20 | 昌幸 浦新; 龍一郎 米本; 泰成 飯塚 |
| 159 | Vane pump | JP2007308044 | 2007-11-28 | JP2009133218A | 2009-06-18 | TSUKAHARA YOSHIHIRO; TANAKA TOMOHIRO |
| PROBLEM TO BE SOLVED: To improve wear resistance and durability of a vane by improving adhesion of a high-hardness coating layer at a tip end portion of the vane in a vane pump. SOLUTION: In the vane pump 10, a high-hardness main coating layer C is provided on a tip end portion of each vane 17, and an intermediate coating layer B having an intermediate hardness between a hardness of a base material A of the vane 17 and a hardness of the main coating layer C is provided between the base material A of the vane 17 and the main coating layer C. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 160 | Capacity control device for screw compressor | JP2007223471 | 2007-08-30 | JP2009057842A | 2009-03-19 | YONEMOTO RYUICHIRO; IIZUKA YASUNARI; URASHIN MASAYUKI |
| PROBLEM TO BE SOLVED: To provide a capacity control device for a screw compressor capable of restraining leakage of a pressure fluid in a cylinder caused in response to the inclined movement of a piston rod. SOLUTION: This capacity control device for the screw compressor has a capacity control valve 7, the piston rod 18 connected to the capacity control valve 7, its piston 17 and the cylinder 16 for slidably guiding the piston 17, and further, a guide body 24 for permitting and guiding the inclined movement of the piston rod 18 is provided on an end wall 22 on the piston rod side, which forms the cylinder 16. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
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