| 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 | 具有转轮活塞摆动机构的流体动力机械 | CN201510156973.9 | 2015-04-04 | CN104863855A | 2015-08-26 | 周觉明 |
| 具有转轮活塞摆动机构的流体动力机械的转轮活塞摆动机构(1),由机体(2)、缸盖(6)、缸套(3)、转轮(4)、传动轴(7)与摆动活塞(5)组成;转轮(4)的内部开有三角形气缸(9),摆动活塞(5)安装三角形气缸(9)中,该三角形气缸(9)的顶部固定有转轴(10),缸盖(6)上安装有固定轴(18)或转轮轴(35);转轮(4)带动摆动活塞(5)旋转,摆动活塞(5)在三角形气缸(9)中摆动,转轮(4)旋转一圈,进行两次或四次流体吸入与排出工作;转轮旋转一圈,转轮回旋四冲程发动机(88)膨胀做功两次。 | ||||||
| 2 | 往复式活塞机 | CN201180025902.5 | 2011-01-31 | CN102933795B | 2014-12-31 | 赫伯特·许特林 |
| 本发明公开了一种机组(10),特别是混合式发动机、电力发电机或压缩机,所述机组包括壳体(12),活塞电动机部件(28)和电动机部件(26)布置在所述壳体中,其中活塞电动机部件(28)具有第一活塞(30)和至少一个第二活塞(32),所述第一活塞具有第一端面(38),所述至少一个第二活塞具有第二端面(40),其中第一活塞(30)和至少一个第二活塞(32)进行往复运动,其中用于工作介质的工作室(42)设置在第一端面(38)与第二端面(40)之间,所述室由于活塞(30,32)的往复运动周期性地减小和增大,并且其中电动机部件(26)具有环形转子(88),所述环形转子可以在壳体(12)中绕着相对于壳体固定的旋转轴线(64)旋转。转子(88)围绕活塞电动机部件(28)。 | ||||||
| 3 | 排气含油量低的旋转压缩机 | CN201610372562.8 | 2016-05-30 | CN105889069A | 2016-08-24 | 潘树林; 潘曦; 王满 |
| 排气含油量低的旋转压缩机,包括壳体、曲轴、上端盖、导轨、下端盖、气缸、摆动转子及电机。曲轴包括主轴、偏心轮和副轴,摆动转子套在偏心轮上。气缸上开有进气孔,摆动转子上开有排气孔。主轴的中心开有轴向气道,副轴的中心开有轴向油道。偏心轮上开有排气腔及回油槽。排气腔与轴向气道连通。回油槽一端与排气腔连通,另一端与上端盖、摆动转子及曲轴共同构成的上油腔连通。根据本发明的压缩机,压缩后的气体通过排气孔进入排气腔中,在离心力作用下进行油气分离。分离后的润滑油回到壳体内油池中,分离后的气体经轴向气道进入壳体后排出。本发明的压缩机的系统的能效高、可靠性与变速特性好。 | ||||||
| 4 | 用于可压缩流体的集成泵 | CN200980138334.2 | 2009-09-18 | CN102171458B | 2015-06-10 | L·B·达尔齐尔; B·F·斯米特 |
| 一种用于可压缩流体的摆动泵使用在可盘旋摆动板与固定锥形板之间形成的密封接触,以对中和定位内部摆动球,该内部摆动球仅抵靠两个弹性安装的环形密封进行滑动,使泵摩擦最小。由集成变速电机的转子支撑和旋转的共用驱动轴的倾斜端部引起球的盘旋。全部轴承,特别是在球内的轴向可滑动滚子轴承,可以为了最小摩擦损失而相对于共用轴安置到位。这种泵也用于泵送易爆气体。 | ||||||
| 5 | 往复式活塞机 | CN201180025902.5 | 2011-01-31 | CN102933795A | 2013-02-13 | 赫伯特·许特林 |
| 本发明公开了一种机组(10),特别是混合式发动机、电力发电机或压缩机,所述机组包括壳体(12),活塞电动机部件(28)和电动机部件(26)布置在所述壳体中,其中活塞电动机部件(28)具有第一活塞(30)和至少一个第二活塞(32),所述第一活塞具有第一端面(38),所述至少一个第二活塞具有第二端面(40),其中第一活塞(30)和至少一个第二活塞(32)进行往复运动,其中用于工作介质的工作室(42)设置在第一端面(38)与第二端面(40)之间,所述室由于活塞(30,32)的往复运动周期性地减小和增大,并且其中电动机部件(26)具有环形转子(80),所述环形转子可以在壳体(12)中绕着相对于壳体固定的旋转轴线(64)旋转。转子(88)围绕活塞电动机部件(28)。 | ||||||
| 6 | 用于可压缩流体的集成泵 | CN200980138334.2 | 2009-09-18 | CN102171458A | 2011-08-31 | L·B·达尔齐尔; B·F·斯米特 |
| 一种用于可压缩流体的摆动泵使用在可盘旋摆动板与固定锥形板之间形成的密封接触,以对中和定位内部摆动球,该内部摆动球仅抵靠两个弹性安装的环形密封进行滑动,使泵摩擦最小。由集成变速电机的转子支撑和旋转的共用驱动轴的倾斜端部引起球的盘旋。全部轴承,特别是在球内的轴向可滑动滚子轴承,可以为了最小摩擦损失而相对于共用轴安置到位。这种泵也用于泵送易爆气体。 | ||||||
| 7 | 泵机 | CN200480011542.3 | 2004-04-02 | CN1780988A | 2006-05-31 | 萨拜恩·迈耶; 斯文·恩格尔布雷希特; 尤维·德鲁斯; 鲁道夫·巴南 |
| 本发明涉及一种泵机(1),诸如真空泵或压缩机,包括一泵壳(18)和至少一只沿着圆形路径运动的泵机活塞(2,3)。为了实现一种所述型式的新颖泵机,泵机活塞(2,3),任由选定地以刚性方式联接于一或几只另外的泵机活塞(2,3),围绕摆转销柱(57)运动以便沿着相应地配有两处反转位置的轨迹摆振。任由选定地经过压缩或加压的介质经由排出阀门(8)排出而吸入阀门(9)在从一个反转位置到另一的运动期间打开,从而介质在泵机活塞(2,3)的一给定压力端被排出而在压力累积期间在其吸入端处被吸入。 | ||||||
| 8 | KOLBENMASCHINE | EP09780892.7 | 2009-07-21 | EP2318662A2 | 2011-05-11 | Rapp, Manfred Max |
| The invention relates to a piston engine the piston of which is designed as a dual piston swivel plate (15) having effective working surfaces on both sides which swivel plate can be swiveled about a swivel axis (14) between two lateral walls (5, 6) of a working chamber (2) that substantially has the shape of a segment of a circle, said lateral walls being arranged at an angle to each other and having respective inlet and outlet valves (22, 23; 24, 25). The swivel plate is further connected to a crank mechanism which is arranged in a crankcase that is sealingly separated from the working chamber (2). The dual piston swivel plate (15) is connected to a connecting rod (16) which is designed as a connecting loop and has a guide groove (17), via a rotating cylinder (9) connected to the swivel plate. Two or more working chambers can be arranged on the periphery or one after the other on one and the same rotating cylinder which is actuated via the connecting rod. When the crankshaft is rotated about 180°, the respective dual piston swivel plate performs a swivel motion and at the same time the working strokes intake/work and compression/exhaustion. The efficiently working and versatile piston engine has a simple and compact design. | ||||||
| 9 | Aggregate, in particular a hybrid engine, electrical power generator or compressor | US13683874 | 2012-11-21 | US09399948B2 | 2016-07-26 | Herbert Huettlin |
| An aggregate, in particular a hybrid engine, electrical power generator or compressor, comprises a housing in which are arranged a piston motor part and an electric motor part, wherein the piston motor part has a first piston with a first end face and at least one second piston with a second end face, wherein the first piston and the at least one second piston perform reciprocating motions, wherein between the first end face and the second end face is provided a working chamber for a working medium, which chamber is periodically reduced and enlarged because of the reciprocating motions of the pistons, and wherein the electric motor part has an annular rotor which can rotate in the housing about a rotation axis that is fixed relative to the housing. The rotor surrounds the piston motor part. | ||||||
| 10 | ULTRA-LOW FRICTION AIR PUMP FOR CREATING OSCILLATORY OR PULSED JETS | US13178699 | 2011-07-08 | US20110280740A1 | 2011-11-17 | Terrence S. Birchette |
| An air pump positioned within a hollow space in an aerodynamic structure for controlling the flow over an aerodynamic surface thereof, includes a movable member linearly displaced by a very low friction piston mechanism and a compression chamber open to the exterior of the aerodynamic surface through an orifice. Reciprocal displacement of the very low friction movable member changes the volume of the compression chamber to alternately expel fluid (e.g., air) from and pull fluid into the compression chamber through the orifice. The movable member includes a piston oscillating within a piston housing each having an ultra-low friction coating for improved thermal performance and reduced maintenance. Fluid intake to the compression chamber may be increased through the use of a one-way valve located either in the aerodynamic surface, or in the piston. Multiple flapper valves may surround the orifice in the aerodynamic surface for increased fluid control. | ||||||
| 11 | Ventilator for assisting the breathing of a patient | US588275 | 1990-09-26 | US5086767A | 1992-02-11 | Jules O. Legal |
| A ventilator for providing low pressure air for assisting the breathing of an imfirm patient includes a pump with a cylindrical chamber having a vane mounted within the chamber for sweeping the inside surface of the chamber in a pumping action. The pump is double-acting. Ports to the pump are located in a wedge-shaped divider member permanently mounted within the chamber and extending from the chamber to a shaft driving the vane. Valves for the ducts extending from the ports to respective inlets and outlets are mounted exteriorly of the wedge-shaped dividing member. The pump can therefore have lower volume and the shaft is directly driven providing high efficiency and simple adjustment of the volume supplied to the patient. | ||||||
| 12 | Pump for conveying gases and providing a differential pressure | US508266 | 1990-04-11 | US5017106A | 1991-05-21 | Kurt Holss |
| In pumps for conveying gases and providing a differential pressure between the pump inlet and outlet, a pumping space within the pump is hermetically sealed from the pump drive unit. No oil or grease-lubricated parts are located within the pumping space. Accordingly, the pump can be characterized as completely dry running. The hermetical seal is provided by a hollow or tubular member (5) capable of torsion movement and located between a shaft (1) and a container (6). A drive unit (7) connected to the shaft provides it with an oscillating rotary motion transmitted through the shaft to the container (6). Segmented pistons (8a, 8b) are located on the container and oscillate in the pumping space between stationary parts (10a, 10b) and afford the pumping effect. | ||||||
| 13 | Pivotal piston machine | US965203 | 1978-11-30 | US4272229A | 1981-06-09 | Wilhelm Pape |
| A pivotal piston machine or compressor including a disc-like pivotal piston oscillating on a bearing axis, such oscillatory movement being effected by engagement of a roller-type cam follower of a crank arm driven by a crankshaft, with cam surfaces formed on the pivotal piston, and angled member for limiting the oscillating movement at opposite ends of the pivotal stroke of the piston. The angled member serves as a separating wall between two compression chambers and a delivery chamber. A pair of pivotal pistons may be arranged adjacent each other to utilize a common air intake and provide a compound piston machine. | ||||||
| 14 | Compressor unit | US69395046 | 1946-08-30 | US2413636A | 1946-12-31 | LONG JAMES M |
| 15 | 回転装置および付着物除去装置 | JP2016226955 | 2016-11-22 | JP2018084178A | 2018-05-31 | 大富 將司; 古石 朋久 |
| 【課題】シンプルかつコンパクトな構成で圧縮流体を生成すること。 【解決手段】実施形態に係る回転装置は、第1ギアと、第2ギアと、付勢部とを備える。第1ギアは、連続した歯の一部が切り欠かれた欠歯部を有し、回転駆動源に連結される。第2ギアは、第1ギアと噛み合い可能に設けられ、第1ギアと噛み合った場合に、回転駆動源の同一方向への回転により所定方向へ回転する。付勢部は、欠歯部により第1ギアとの噛み合いが外れる第2ギアの自由状態において、第2ギアを所定方向とは逆方向へ付勢する。 【選択図】図2B |
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| 16 | pump | JP2006505520 | 2004-04-02 | JP2006522265A | 2006-09-28 | エンゲルブレヒト、スヴェン; ドレヴェス、ウーヴェ; バーネン、ルドルフ; マイアー、サビーネ |
| 【課題】円周経路上を運動するポンプピストンとポンプハウジングとを具備するポンプを提供する。
【解決手段】ポンプ(1)において、円周経路上を運動するポンプピストン(2,3)と、ポンプハウジング(18)とを有し、ポンプピストン(2,3)が剛結合にて1または複数の他のポンプピストン(2,3)と連結されて2つの反転位置を具備する運動経路上を回転軸(5)に対して振動形態で運動し、一方の反転位置から他方の反転位置への運動の途中に入口バルブ(9)が開かれ、その後、圧力上昇過程において前記媒体がポンプピストン(2,3)の加圧側にて吐出され、ポンプピストン(2,3)の吸引側にて取り入れられる。 |
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| 17 | Swing type oilless compressor and its shaft seal device | JP2492186 | 1986-02-08 | JPS61247888A | 1986-11-05 | OKANO SEI |
| PURPOSE: To reduce inner leakage of gas and to increase the delivery by arranging carbon seal members on the sideface of blade board of swing type compressor and the sideface at the large diameter section of spindle contacting against the inner wall face of side housing. CONSTITUTION: A carbon seal 35 is arranged on the sideface of a bladeboard 20 of swing type oilless compressor while push springs 33, 36 for contacting said seal 35 against the side housings 23, 24 are arranged on the back section of said carbon seal 35. Furthermore, a circular groove 32 is formed in the sideface at the large diameter section contacting against the inner wall faces of the side housings 23, 24 of the spindle 19 and a carbon ring 34 is contained in said circular groove 32 through the push spring 33. Consequently, inner leakage of gas through the sideface at the large diameter section of spindle and the bladeboard 20 can be prevented, thereby the delivery can be increased. COPYRIGHT: (C)1986,JPO&Japio | ||||||
| 18 | Oscillating rotary compressor | JP3429182 | 1982-03-04 | JPS58152192A | 1983-09-09 | HAYASHI YOSHIMASA |
| PURPOSE:To increase the discharge rate of an oscillating rotary compressor and to enhance the discharging efficiency of the same,by disposing flaps in a housing, and oscillating the flaps within a predetermined angle of rotation. CONSTITUTION:V-shaped partition walls 16A, 16B are disposed at symmetrical positions in a housing 10, so that sector-shaped work chambers 17A, 17B are defined in the housing 10. Suction ports 20A, 21A and discharge ports 20B, 21B are formed in the V-shaped portition wall 16A in side-by-side relationship with each other. Similarly, suction ports and discharge ports are also formed in the other partition wall 16B in side-by-side relationship. With such an arrangement, the flaps 15A, 15B are oscillated in the work chambers 17A, 17B within a predetermined angle theta of rotation between the partition walls 16A and 16B. | ||||||
| 19 | 空気圧縮装置および付着物除去装置 | JP2016234295 | 2016-12-01 | JP2018091200A | 2018-06-14 | 山中 康誉; 古石 朋久; 大富 將司 |
| 【課題】シンプルな構成で優れた空気圧縮性能を確保すること。 【解決手段】実施形態に係る空気圧縮装置は、シリンダとシリンダ内に回転軸を中心に回転可能に設けられる回転体とを有し、回転体の回転による吸排気を経て圧縮空気を生成する空気圧縮装置であって、吸気弁を備える。吸気弁は、吸排気において空気を吸気する。また、吸気弁は、シリンダ内に設けられる。 【選択図】図1B |
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| 20 | Assembly, in particular, a composite engine, generator or compressor | JP2013511554 | 2011-01-31 | JP2013533411A | 2013-08-22 | ヒュットリン,ヘルベルト |
| 【課題】集成体を洗練すること。
【解決手段】ピストンモータ部(28)および電動モータ部(26)が配置されたハウジング(12)を備えた集成体(10)、特に、複合エンジン、発電機またはコンプレッサであって、前記ピストンモータ部(28)が、第1の端面(38)を有する第1のピストン(30)と、第2の端面(40)を有する少なくとも1つの第2のピストン(32)とを有し、前記第1のピストン(30)および前記少なくとも1つの第2のピストン(32)が、往復運動を行い、作用媒体用の作用チャンバ(42)が、前記第1の端面(38)と前記第2の端面(40)との間に設けられ、この作用チャンバが、前記ピストン(30,32)の往復運動により周期的に拡縮され、前記電動モータ部(26)が、前記ハウジングに対して固定された回転軸(64)を中心として前記ハウジング(12)内で回転可能な環状回転子(88)を有する集成体。 前記回転子(88)は、前記ピストンモータ部(28)を取り囲んでいる。 【選択図】図2 |
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