专利检索_不包含组F01B1/00至F01B7/00中的以活塞与主轴的连接为特征的往复活塞式机器或发动机（空载时可脱离连接的入F01B31/24）专利检索_不包含组F01B1/00至F01B7/00中的以活塞与主轴的连接为特征的往复活塞式机器或发动机（空载时可脱离连接的入F01B31/24）专利检索查询_不包含组F01B1/00至F01B7/00中的以活塞与主轴的连接为特征的往复活塞式机器或发动机（空载时可脱离连接的入F01B31/24）专利检索查询分析平台

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
181		JP11195072	1972-11-07	JPS4970009A	1974-07-06

182		JP3804272	1972-04-14	JPS48103912A	1973-12-26

183		JP3804172	1972-04-14	JPS48103911A	1973-12-26

184	UNDERWATER TURBINE SYSTEM	PCT/US2016/056611	2016-10-12	WO2018071014A1	2018-04-19	TORRENT, Felix, Antonio; TORRENT, Jose, Ricardo
A submersible turbine engine system that utilizes gases captured beneath the surface of a body of water and utilizes potential energy of the gases to generate electricity. For example, the captured gases will be used to fill a bag lifts on a belt- chain system. The gases cause the bag lifts to ascend to the surface causing the belt- chain system to rotate which in turn cases a turbine to rotate generating electricity.
185	ПОРШНЕВАЯ МАШИНА	PCT/BY2010/000002	2010-04-16	WO2010118497A1	2010-10-21	БЕЛОУСОВ, Данил Григорьевич
Поршневая машина снабжена каналами (2) с расположенной в них парой поршней (3) связанных приводным устройством (4) позволяющим выполнить устройство с возможностью менять рабочий объем каналов (2).
186	PISTON INTERNAL COMBUSTION ENGINE	PCT/KZ2009000002	2009-01-29	WO2009096763A8	2009-10-08	KURALBAEV BAURZHAN KALDYBEKOVICH
The invention relates to conversion mechanisms for internal combustion engines. The piston internal combustion engine comprises a body with a system of supporting bearings on which one or more closed flexible circuits are distributed. Each circuit comprises one or more working pistons which are in series or in parallel connected, accommodated in shortened cylinders and are rigidly coupled to rods, the top end of which pass through a combustion chamber. Two intermediate sliders with rocking elements are connected, with the aid of connecting rods, to a lower (whole) connecting rod bolt or to the middle part of a lower (split) connecting rod bolt. The upper and lower connecting rod heads are interconnected by means of a flexible bar. The lower head of the lower connecting rod is bifurcated. The engine also comprises a disc and cranks on which move sliding blocks, which are provided with rocking elements and are pivotally connected to the ends of the lower (whole) connecting rod bolt or to the sliding parts of the lower (split) connecting rod bolt. The outer races of the main bearings are fastened to the engine body. The system of scaling units consists of lower and upper units which are interconnected by means of the flexible bar.
187	PISTON BALANCING SYSTEM	PCT/US2006/005097	2006-02-08	WO2006088825A2	2006-08-24	LYNN, William, Harry
A piston pump or compressor has a dynamically balanced drive assembly in which nearly all of the rotational, oscillatory and axial forces on the rotating drive shaft are canceled. The piston is primarily balanced by adding an oscillating counter weight mounted to the connecting rod to convert oscillatory forces into rotational forces at the axis of an eccentric element mounting the piston to the drive shaft. The remaining unbalanced rotational forces are centered along the drive shaft by a rotating counter weight. A further counter weight is mounted to the drive shaft spaced along the drive shaft from the rotating counter weight to impart a counter moment on the drive shaft and essentially cancel the moment about a moment axis perpendicular to the drive shaft resulting from the axial spacing of the piston and the other two counter weights. A method of reducing vibration on a piston drive shaft is also disclosed.
188	MOTOR	PCT/EP2001/000641	2001-01-22	WO01053659A1	2001-07-26
The invention relates to a motor (10) comprising a housing (12), wherein at least one working chamber (14) is embodied. A piston going to-and-fro is accommodated in said chamber and at least one inlet channel (38) and an outlet channel (40) for a working medium open into said chamber. The piston is connected to a rotating crank mechanism (34) by means of a connecting rod (30). According to the invention, the piston consists of a swivelling plate (26) that can be rotated around an axle (24) and the working chamber (14) is configured as a cylinder segment.
189	DOUBLE SHAFT HIGH TORQUE ENGINE	PCT/US1999/022006	1999-09-23	WO01021936A1	2001-03-29
An engine has a pair of parallel crankshafts (8, 9) having a cross shaft (4) connected at one to a journal (5) on one of the crankshafts. The cross shaft (4) has a slot (10) in which a distance compensator (7) mounted on a journal (6) of the other of the crankshafts (8) oscillates. A piston connecting rod (2) is attached to the cross shaft (4) at an intermediate portion (3) of the cross shaft. The crankshafts (8, 9) rotate in the same direction and at the same speed; however, the one of the crankshafts is advanced with respect to the other. The journals (5, 6) are located at different radiuses.
190	유공압 엔진	KR1020120100378	2012-09-10	KR1020140033883A	2014-03-19	김광윤
The present invention relates to a pneumatic engine and, more specifically, a motor machine capable of generating rotation movements by enabling a piston to perform rectilineal movements and rectilineal reciprocating movements with a fluid pressure by changing a cylinder of the motor machine in which the piston reciprocates due to explosion of a fuel for the rotation movements, into a single-acting or a double-acting pneumatic cylinder. An oil outlet uses a pneumatic cylinder having a larger area than an oil inlet.
191	재료 펌프	KR1020067014473	2004-11-08	KR1020070017493A	2007-02-12	쇼프,존,에프.
복합 펌프는 다수의 유체 펌프를 포함하고, 각각은 이동가능 구성요소, 및 상기 이동가능 구성요소에 결합된 크랭크를 포함한다. 이동가능 구성요소의 적어도 2개는 그 사이에서 0이 아닌 내각을 한정한다.
192	초소형 압축가스 발전기	KR1020110056968	2011-06-13	KR101188345B1	2012-10-15	최병열
PURPOSE: A subminiature power generator with compressed gas is provided to generate the enough amount of electricity by utilizing compressed gas. CONSTITUTION: A subminiature power generator with compressed gas comprises a housing unit(100), a gas engine unit(200), and a power generation unit(300). The housing unit comprises a rear comver(110), a front cover(150), and a cam ring(160). An anti-backflow check valve(140) is installed in an ejecting port(130) of the rear cover. The cam ring is placed between the rear cover and the front cover, and assembled with a bolt(B). The gas engine unit comprises a cylinder block shaft(210), a piston rod(220), and a cam bearing(270). A cylinder block of the cylinder block shaft comprises a cylinder chamber(230). The piston rod assembled in the cylinder chamber penetrates both guide caps. The cam bearing slides along an eccentric inner race(161) of the cam ring. The power generation unit comprises a rotor and a stator. The magnet(330) of the rotor is assembled to a rotor core(320) assembled to the cylinder block shaft. A stator core(350) of the stator is assembled to an inner surface of the front cover.
193	압축기의 요크 구조	KR1020047017561	2002-05-31	KR100592441B1	2006-06-22	가오시우펭; 김인규; 김경호; 배영주; 유용짱; 펭시우
본 발명에 따른 압축기와 요크 구조는 스카치 요크 타입 왕복식 압축기에 적용되는 것으로, 크랭크축과 상기 크랭크축이 회전함에 따라 상기 크랭크축을 중심으로 하는 일정한 원형 궤도를 따라 회전하도록 상기 크랭크축에 연결된 크랭크핀, 내측의 대향하고 서로 평행한 두 면에 한 쌍의 미끄럼면이 형성되고, 상기 한 쌍의 미끄럼면의 외측에 하나 이상의 피스톤이 고정되는 프레임, 상기 크랭크핀에 회전가능하게 연결되고, 상기 한 쌍의 미끄럼면 사이에 위치하는 활동(滑動)블록 및 상기 한 쌍의 미끄럼면 중 대향하는 면과 각각 면접촉을 하도록 상기 활동블록에 부착된 한 쌍의 자체윤활부재를 포함하여 구성된다. 스카치 요크, 압축기, 운동변환
194	VARIABLE GEOMETRY POWER TRANSFER FOR FLUID FLOW MACHINES	EP14800883.2	2014-05-19	EP2999851A1	2016-03-30	Humphries, Thomas Steve
A fluid flow machine includes a casing including a cylinder and a crankshaft support. A piston is slidably disposed in the cylinder for reciprocating along an axis of the cylinder. A crankshaft includes a main bearing journal rotationally supported in the crankshaft support, a crankpin radially offset from an axis of the main bearing journal and a crank web connecting the main bearing journal and the crankpin. A multi-linkage connecting rod mechanism is connected between the piston and crankpin and includes a connecting rod, a first hinge link and a crankpin link pivotally connected to each other. A force transfer mechanism connects the multi-linkage connecting rod mechanism to the casing for transferring a vertical piston force into a horizontal crankpin force.
195	ROTARY ACTUATOR ASSEMBLY	EP03765655.0	2003-07-17	EP1534930A2	2005-06-01	MORR, Glen, A.; KEELING, Larry, E., Jr.
A rotary actuator assembly has a flexible member (66) attached to a piston (80, 90) for linear movement, and attached to a pinion (34) for pivotable movement.
196	RECIPROCATING MACHINE	EP97914536.4	1997-04-03	EP0846226B1	2005-06-01	Adahan, Carmeli
A motion converter mechanism to be interposed between a driving device and a driven device to provide a rotary motion in one device and a reciprocatory motion in the other device, including a housing (11, 13); a reciprocatory member (40) mounted for reciprocatory movement along a longitudinal axis and having a first end coupleable to one of the devices; a rotary member (22) mounted for rotary movement about a rotary axis and coupleable to the other of the devices; and crank arm (50) having a first end pivotally coupled to the rotary member and a second end pivotally coupled to the reciprocatory member; and an alignment member (52) extending transversely of the longitudinal axis and having a first end pivotally coupled to the reciprocatory member and a second end pivotally coupled to the housing such as to maintain the reciprocatory member in general coaxial alignment with the longitudinal axis, and thereby substantially to prevent side loading of the reciprocatory member during its reciprocatory movements.
197	VOLUMETRIC-DISPLACEMENT DEVICE HAVING MOLDED PISTONS AND CYLINDERS	EP98935719	1998-07-17	EP1021642A4	2002-09-25	PATTERSON PAUL D
A volumetric-displacement-maximizing device includes a molded slider (12) bidirectionally movable within an elongate cavity (14) formed within a molded body (16). The body (16) also includes a port structure (18) with an output port (18a) and an input port (18b), each providing channels for communication between the cavity (14) and an extra body location. A power device (22) causes the slider (12) to move bidirectionally within the cavity (14), and the clearance between the slider (12) and the cavity (14) exceeds 0 - but is less than approximately 0.0003 inches. The device of the invention takes several alternative forms including a fluid mechanical device, and has several alternate applications as a pump, valve, or motor. The invention also includes various method features.
198	CONNECTING-ROD AND PISTON ASSEMBLY	EP97929627	1997-06-11	EP0905363A4	2001-03-21	ZAKHAROV EVGENY NIKOLAEVICH; TYO GENYA
The present invention relates to a connecting-rod and piston assembly that comprises a cylinder and a piston, said piston comprising a head, a skirt and a support element. The piston is attached to the connecting rod by a pin, said connecting rod being mounted on the central cylindrical part of the pin. The ends of pin are made in the shape of cylindrical segments which are coaxial to the cylindrical part of said pin and have smooth surfaces parallel to the pin longitudinal axis. Fixing plates lie against the smooth surfaces of the pin ends. Said plates comprise openings in which threaded members pull the pin ends toward cylindrical recesses in the support element, the ends and the support element being simultaneously pulled towards the cylinder head.
199	ROTATIONAL MOTION MECHANISM AND ENGINE	EP97930857	1997-07-18	EP0915239A4	2001-03-14	YANAGISAWA KEN
A rotational motion mechanism and an engine capable of converting a linear propulsion force into a torque with higher rigidity and smoothly in order to improve a performance such as energy conversion efficiency. A pair of axial guides (16a, 16b) are arranged in parallel in a first axial direction (X). A moving guide (22) extends between the pair of axial guides (16a, 16b) in a second axial direction (Y) perpendicular to the first axial direction (X) to be movable in the first axial direction (X). A moving body (24) is provided to be movable along the moving guide (22) in the second axial direction (Y). A rotating shaft (36) is rotatable about an axis perpendicular to the first axial direction (X) and to the second axial direction (Y). A lever section (38) is pivotally mounted at a portion (38c) thereof to the moving body (24), and is fixed at the other portion (38d) thereof to the rotating shaft (36) so that turning of the moving body (24) rotates the rotating shaft (36). A drive mechanism (41, 42, 45, 46) moves the moving guide (22) in the first axial direction (X). Regulation means (50, 51) reduces a variation in a rotating speed of the rotating shaft (36).
200	RECIPROCATING MACHINE	EP97914536	1997-04-03	EP0846226A4	2001-01-03	ADAHAN CARMELI
A motion converter mechanism to be interposed between a driving device and a driven device to provide a rotary motion in one device and a reciprocatory motion in the other device, including a housing (11, 13); a reciprocatory member (40) mounted for reciprocatory movement along a longitudinal axis and having a first end coupleable to one of the devices; a rotary member (22) mounted for rotary movement about a rotary axis and coupleable to the other of the devices; and crank arm (50) having a first end pivotally coupled to the rotary member and a second end pivotally coupled to the reciprocatory member; and an alignment member (52) extending transversely of the longitudinal axis and having a first end pivotally coupled to the reciprocatory member and a second end pivotally coupled to the housing such as to maintain the reciprocatory member in general coaxial alignment with the longitudinal axis, and thereby substantially to prevent side loading of the reciprocatory member during its reciprocatory movements.

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