| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 机械驱动活塞作用于流体负载的托盘活塞式摇摆驱动机 | CN201410058100.X | 2014-02-17 | CN104847952A | 2015-08-19 | 张民良 |
| 本发明涉及的机械驱动活塞作用于流体负载的托盘活塞式摇摆驱动机,其角行程摇摆的范围为0~330°或连续单向旋转,特别适用于泵送流体;本驱动机压送活塞驱动机械负载工作的流体或机械驱动活塞压送负载工作的流体可以是气体或液体。驱动机包括托盘活塞式摇摆执行装置、流体进排通道系统、冷却系统和驱动力发生系统;流体进排通道系统包括流体通道、管口和阀,流体通道与工作腔室连通;冷却系统是对驱动机的元件进行强制冷却和/或自然散热的机构;驱动力发生系统为机械驱动活塞作用于流体负载的系统;托盘活塞式摇摆执行装置包括两个托盘、活塞片、连接机构、动力进出键合结构、润滑系统和密封结构。 | ||||||
| 2 | 旋转波形运动式空气压缩机 | CN89101729.1 | 1989-02-11 | CN1016261B | 1992-04-15 | 金钟大 |
| 一种空气压缩机,它具有作波形运动的斜置圆盘。斜置圆盘由一偏心轴使其盘面与侧机体的圆锥面靠紧,当偏心轴转动时,斜置圆盘不是作转动,而是作波形运动,从而实现吸气和排气。 | ||||||
| 3 | 旋转波形运动式空气压缩机 | CN89101729.1 | 1989-02-11 | CN1036620A | 1989-10-25 | 金钟大 |
| 一种空气压缩机,它具有作波形运动的斜置圆盘。斜置圆盘由一偏心轴使其盘面与侧机体的圆锥面靠紧,当偏心轴转动时,斜置圆盘不是作转动,而是作波形运动,从而实现吸气和排气。 | ||||||
| 4 | AUTOMATIC COMPENSATION MECHANISM FOR HINGE SEAL GAP IN SPHERICAL COMPRESSOR | US13819314 | 2011-07-20 | US20140159313A1 | 2014-06-12 | Mengying Wang; Luyi Wang |
| Disclosed is an automatic compensation mechanism for a hinge seal gap in a spherical compressor. A cylindrical hinge is formed around a central pin (10), a rotating disk pin seat (81), and a piston pin seat (16) of the spherical compressor. A fan-shaped insert (14) thicker at both sides and thinner in the center thereof is disposed at the bottom of of a sump (161) on the pin seat of the cylindrical hinge. The shape of the insert (14) matches the shapes of the sump (161) and of the external cylindrical surface of a semi-cylinder (811) on the pin seat of the cylindrical hinge respectively, forming a dynamic seal fit, thus improving the reliability of the seal, adapting to mass production, and enhancing overall performance. | ||||||
| 5 | Twin-plate rotary compressor | US11628440 | 2005-06-01 | US07726960B2 | 2010-06-01 | Kim Tiow Oui; Yung Liang Teh |
| This invention relates to a twin-plate, rotary compressor and refers particularly, though not exclusively, to a twin-plate, rotary compressor comprising two conical plates for relative rolling motion within a casing, there being a line contact between the two conical plates; the line contact being maintainable during operation of the compressor; a central seal for sealingly engaging correspondingly-shaped recesses of the two conical plates; and an outer seal in mating relationship with the two conical plates; wherein the central seal is mounted on a drive shaft, the drive shaft being operatively connected to an output shaft of a motor; wherein the drive shaft, the central seal and the outer seal are for rotation about a third axis of rotation, the third axis of rotation being coincident with a longitudinal axis of the drive shaft and a center of the central seal. | ||||||
| 6 | Waveform actuating air compressor | US310745 | 1989-02-14 | US4919601A | 1990-04-24 | Jong D. Kim |
| An air compressor having a tilting disc which is actuated in waveform. The tilting disc is adapted to abut mounting the disc on conical surfaces of side casings by an eccentric shaft, and is moved in waveform but not rotated against the rotation of the eccentric shaft so that the intake and exhaustion of air may be realized. | ||||||
| 7 | Vacuum pump | US1409260 | 1960-03-10 | US3019964A | 1962-02-06 | GRISWOLD OWEN H |
| 8 | Spherical rotary compressor | US6953049 | 1949-01-06 | US2621852A | 1952-12-16 | PIETRO PISA |
| 9 | Nutating axis rotary compressor | US64833146 | 1946-02-18 | US2496668A | 1950-02-07 | MANSEAU DAVID O |
| 10 | AUTOMATIC COMPENSATION MECHANISM FOR HINGE SEAL GAP IN SPHERICAL COMPRESSOR | EP11819366.3 | 2011-07-20 | EP2610494B1 | 2016-11-23 | WANG, Mengying; WANG, Luyi |
| 11 | AUTOMATIC COMPENSATION MECHANISM FOR HINGE SEAL GAP IN SPHERICAL COMPRESSOR | EP11819366.3 | 2011-07-20 | EP2610494A1 | 2013-07-03 | WANG, Mengying; WANG, Luyi |
Disclosed is an automatic compensation mechanism for a hinge seal gap in a spherical compressor. A cylindrical hinge is formed around a central pin (10), a rotating disk pin seat (81), and a piston pin seat (16) of the spherical compressor. A fan-shaped insert (14) thicker at both sides and thinner in the center thereof is disposed at the bottom of of a sump (161) on the pin seat of the cylindrical hinge. The shape of the insert (14) matches the shapes of the sump (161) and of the external cylindrical surface of a semi-cylinder (811) on the pin seat of the cylindrical hinge respectively, forming a dynamic seal fit, thus improving the reliability of the seal, adapting to mass production, and enhancing overall performance. |
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| 12 | Multiple-stage compression possible sphere type compressor and the expander compressor | JP2009527678 | 2007-08-24 | JP5020327B2 | 2012-09-05 | ▲陸▼一 王 |
| 13 | Waveform actuation air compressor | JP3011789 | 1989-02-10 | JPH01253584A | 1989-10-09 | KIN SHIYOUDAI |
| PURPOSE: To make continuous air compression possible and to restrain noise by constituting a tilting disc that is actuated in zigzag waveform movement by rotation of an eccentric shaft connected to an outer actuator. CONSTITUTION: While a rotation shaft 16 is rotated by an outer actuator, the tilting eccentric shaft 17 mounted in one body with the shaft is rotated meanwhile. A support slider 14 of a disc 15 bore on the eccentric shaft 17 is shook and rotated, through a bearing 18. On the other hand, the disc 15 is not rotated by the bearing 18 in the support slider 14, but is actuated in a zigzag waveform movement. While the disc 15 follows a separate plate 13 arranged between an inlet 1 and an outlet 2 and reciprocates, the air is compressed in an order of from the inlet 1 to an air chamber 9 having two conical side surfaces and then is discharged from the outlet 2. COPYRIGHT: (C)1989,JPO | ||||||
| 14 | AUTOMATIC COMPENSATION MECHANISM FOR HINGE SEAL GAP IN SPHERICAL COMPRESSOR | EP11819366 | 2011-07-20 | EP2610494A4 | 2015-03-25 | WANG MENGYING; WANG LUYI |
| 15 | Rotary compressor | EP92111583.8 | 1992-07-08 | EP0522531A1 | 1993-01-13 | Iizuka, Jiro |
Disclosed is a rotary compressor which includes a housing (10) having a disc wall (16) and a semi-spherical wall (18), an inlet port (20) and an outlet port (22) provided on the disc wall (16), a rotor (12) comprising a conical portion (30) slidably engaging the disc wall (16) at a position between the inlet port (20) and outlet port (22) and a partial spherical portion (32) provided on the bottom of the conical portion (30), and a semicircular vane (14) slidably inserted into an expanding slot (40) defined in the rotor (12) and extending through the center line (12a) of the rotor (12). Since the conical portion (30) of the rotor (12) is rotated and the disc wall (16) of the housing (10) is fixed, a rotation prevention mechanism, which is required in a conventional rotary compressor, is not necessary. Therefore, the structure of the rotary compressor is simplified and the number of parts is small. A miniaturized and light-weight rotary compressor can be manufactured inexpensively. |
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| 16 | 球形圧縮機用のヒンジシールギャップ自動補正機構 | JP2013525120 | 2011-07-20 | JP5734430B2 | 2015-06-17 | ワン, モンイン; ワン, ルーイー |
| 17 | Multiple-stage compression possible sphere type compressor and the expander compressor | JP2009527678 | 2007-08-24 | JP2010502896A | 2010-01-28 | ▲陸▼一 王 |
| 複数段圧縮可能な圧縮機であって、ボールシリンダに複数個の動作室が設けられ、ボールキャビティーにピストン(3)とダイヤル(5)とスピンドル(8)との3つの可動子が備えられ、ピストンとピストンヒンジ受け(10)にエアチャネルが設置され、シリンダボディ(1)とシリンダカバー(2)に吸気・排気通路が設置されている。 ピストンが各動作室に回転しつつ吸気又は排気するのに応じて、相応するエアチャネルが吸気・排気通路に連通することにより、複数段圧縮及び膨張を可能とする。 | ||||||
| 18 | Rotary compressor | JP19281891 | 1991-07-08 | JPH0518376A | 1993-01-26 | IIZUKA JIRO |
| PURPOSE:To provide an inexpensive rotary compressor which is in the simple structure and has less parts. CONSTITUTION:A housing 10 comprises a disk wall 16 and a semispherical wall 18. A suction port 20 and a discharge port 22 are provided close to each other at the disk wall 16. A rotor 12 is inserted into the housing 10. The rotor 10 comprises a cone body 30 and a partial sphere 32. A side face of the cone body 30 is slidably brought into contact with the disk wall 18 between the suction port 20 and the discharge port 22. The partial sphere 32 is provided on the bottom face of the cone body 30. An expanding slot 40 is provided at the rotor 12 passing its center. A vane 14 is slidably inserted into this expanding slot 40. The vane 14 is in the shape of a semicircle constituted by a chord 14a in slidable contact with the disk wall 16 and an arc 14b in slidable contact with the semispherical wall 18. | ||||||
| 19 | AIR COMPRESSOR AND EXTRANEOUS-MATTER REMOVING APPARATUS | US15795412 | 2017-10-27 | US20180154869A1 | 2018-06-07 | Yasutaka YAMANAKA; Tomohisa KOSEKI; Masashi OTOMI |
| An air compressor according to an embodiment, which includes a cylinder and a rotating body provided to be rotatable around a rotation axis in the cylinder so as to generate compressed air through intake and exhaustion caused by rotation of the rotating body, includes an intake valve. The intake valve takes air in the intake and exhaustion. The intake valve is provided in the cylinder. | ||||||
| 20 | Automatic compensation mechanism for hinge seal gap in spherical compressor | US13819314 | 2011-07-20 | US09328732B2 | 2016-05-03 | Mengying Wang; Luyi Wang |
| Disclosed is an automatic compensation mechanism for a hinge seal gap in a spherical compressor. A cylindrical hinge formed around a central pin (1), a rotating disk pin seat (81), and a piston pin seat (16) of the spherical compressor. A fan-shaped insert (14) thicker at both sides and thinner in the center thereof is disposed at the bottom of a sump (161) on the pin seat of the cylindrical hinge. The shape of the insert (14) marches the shapes of the sump (161) and of the external cylindrical surface of a semi-cylinder (811) on the pin seat of the cylindrical hinge respectively, forming a dynamic seal fit, thus improving the reliability of the seal, adapting to mass production, and enhancing overall performance. | ||||||
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