| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 混合压缩机装置 | CN02152797.0 | 2002-11-28 | CN1261728C | 2006-06-28 | 铃木康; 岩波重树; 麻弘知; 宇野庆一 |
| 一种用于车辆的混合压缩机,在车辆暂时停止时,其发动机也停止,皮带轮(110),马达(120)以及压缩机(130)可以相互独立地被驱动,并且被连接到行星齿轮传动系(150)的恒星齿轮(151),行星齿轮架(152)和内齿圈(153)上。马达的旋转速度通过控制器(160)来调节,以使压缩机的旋转速度相对于皮带轮的旋转速度改变。因此,混合压缩机的制造成本和尺寸可以降低,而且甚至在车辆发动机停止时,制冷功能也可得以保持。 | ||||||
| 22 | 混合压缩机装置 | CN200510120094.7 | 2002-11-28 | CN1769709A | 2006-05-10 | 铃木康; 岩波重树; 麻弘知; 宇野庆一 |
| 一种用于车辆的混合压缩机,在车辆暂时停止时,其发动机也停止,皮带轮(110),马达(120)以及压缩机(130)可以相互独立地被驱动,并且被连接到行星齿轮传动系(150)的恒星齿轮(151),行星齿轮架(152)和内齿圈(153)上。马达的旋转速度通过控制器(160)来调节,以使压缩机的旋转速度相对于皮带轮的旋转速度改变。因此,混合压缩机的制造成本和尺寸可以降低,而且甚至在车辆发动机停止时,制冷功能也可得以保持。 | ||||||
| 23 | 发动机和电动机驱动的能起动发动机的辅助机 | CN200510086000.9 | 2005-07-20 | CN1734091A | 2006-02-15 | 麻弘知; 岩波重树; 宇野庆一; 小川博史 |
| 发动机驱动的辅助机,包括:通过旋转运动被操作并且具有驱动轴的运行部分;输入轴,它的一侧连接至发动机,它的另一侧连接至运行部分;离合器,所述离合器用来将发动机连接至输入轴,以及从输入轴上分离发动机;电动机;设在输入轴和输出轴之间的行星齿轮机构;用来限制输入轴在一个方向上的旋转的第一旋转方向调节装置;以及用来限制驱动轴旋转方向的第二旋转方向调节装置。 | ||||||
| 24 | 利用内燃机的废热的系统 | CN200510062436.4 | 2005-03-28 | CN1677022A | 2005-10-05 | 宇野庆一; 麻弘知; 稻叶淳; 山中隆; 吉田秀治; 小川博史 |
| 一种废热能量回收系统具有制冷剂循环(10A)和兰金循环(30A)。当循环操作从制冷剂循环(10A)变为兰金循环(30A)时,膨胀装置(100)在泵(32)被起动之后起动。当循环操作从兰金循环(30A)变为制冷剂循环(10A)时,膨胀装置(100)在泵(32)被停止之后停止。 | ||||||
| 25 | 流体机械 | CN200510062939.1 | 2005-03-31 | CN1676882A | 2005-10-05 | 小川博史; 堀田忠资; 岩波重树; 宇野庆一 |
| 本发明提供一种流体机械。在固定螺杆(102)的齿部分(102b)和旋转螺杆(103)的齿部分(103b)在螺杆的中心部分中的接触表面(121)上彼此接触之后,当接触表面移位至两个滑动接触部分(122、123)时,在两个滑动接触部分之间形成工作腔(V),并且致冷剂导引口(105a)开放至接触表面上的区域。因此,工作腔可以被即时改变,同时确保其密封特性。由于上面的结构,用于抑制膨胀模式时从高压侧的泄漏的密封特性可以与用于平滑改变连续形成的螺杆工作腔的特性相兼容。 | ||||||
| 26 | 하이브리드 압축기 | KR1020030007821 | 2003-02-07 | KR100572214B1 | 2006-04-19 | 히가시야마,아키요시; 마쯔무라,히데키; 오카자와,수구루 |
| 본 발명에 따른 하이브리드 압축기는 제 1 구동원에 의해 구동되는 제 1 압축기구와, 제 2 구동원에 의해 구동되는 제 2 압축기구와, 상기 제 1 압축기구의 흡입실과 상기 제 2 압축기구의 흡입실 사이에서 소통하는 소통로를 포함한다. 제 1 압축기구는 제 1 구동원에 의해 구동되는 것에만 적합할 수 있고, 제 2 압축기구는 제 2 구동원에 의해 구동되는 것에만 적합할 수 있다. 따라서, 압축기구들이 각각 자신의 구동원에만 적합하다. | ||||||
| 27 | 랭킹 사이클 장치와, 이 랭킹 사이클 장치에 조입되는 복합 유체 기계 | KR1020120025308 | 2012-03-13 | KR1020120105365A | 2012-09-25 | 에노키지마후미노부; 이구치마사오; 모리히데후미 |
| PURPOSE: A rankine cycle device and a composite fluid machine incorporated in the same are provided to reduce the loss of power generated by a motor generator as working fluid resistance is reduced. CONSTITUTION: A rankine cycle device(60) comprises an expansion unit(40) and an injection mechanism. The expansion unit comprises a fixed scroll(46), a movable scroll(44), and a back pressure chamber(51). The movable scroll turns around the fixed scroll when a driving shaft(21) is rotated. The back pressure chamber is placed at the side corresponding to the back side of the movable scroll. The injection mechanism injects working fluids to the back pressure chamber from a high-pressure area connected to an inlet of a heat exchanger(62). The back pressure for pressing the movable scroll is formed in an axial direction of the driving shaft. [Reference numerals] (22) Inverter; (23) Battery; (61) Condenser | ||||||
| 28 | 하이브리드 압축기 | KR1020020055802 | 2002-09-13 | KR100527812B1 | 2005-11-15 | 테라우치,키요시 |
| 하이브리드 압축기는 제 1 구동원에 의해 구동되는 제 1 압축 기구와, 제 2 구동원에 의해 구동되는 제 2 압축 기구를 포함한다. 제 1 압축 기구의 제 1 토출 구멍 및 제 2 압축 기구의 제 2 토출 구멍이 단일 토출 통로로 접속된다. | ||||||
| 29 | 하이브리드 압축기 | KR1020030007821 | 2003-02-07 | KR1020030067583A | 2003-08-14 | 히가시야마,아키요시; 마쯔무라,히데키; 오카자와,수구루 |
| 하이브리드 압축기가 제 1 구동원에 의해 구동되는 제 1 압축기구와, 제 2 구동원에 의해 구동되고 상기 제 1 압축기구와 일체로 상기 압축기에 내장되는 제 2 압축기구와, 상기 제 1 압축기구의 흡입실과 상기 제 2 압축기구의 흡입실 사이에서 소통하는 소통로를 포함한다. 제 1 압축기구는 제 1 구동원에 의해 구동되는 것에만 적합할 수 있고, 제 2 압축기구는 제 2 구동원에 의해 구동되는 것에만 적합할 수 있다. 따라서, 압축기구들이 각각 자신의 구동원에만 적합하다. | ||||||
| 30 | Pumping device for pumping oil from a storage container to a transmission system of a motor vehicle | US14351363 | 2012-10-11 | US10072660B2 | 2018-09-11 | Christian Böhm |
| A pumping device for pumping oil in a transmission system of a hybrid drive for a motor vehicle has an oil pump and a direct drive for driving the rotor and an electric drive for driving a rotor part that surrounds the rotor. A stationary housing surrounds the rotor part and has an inlet connection and an outlet connection of the oil pump. The oil pump allows a selective drive via the direct drive or the electric drive in a simple manner. | ||||||
| 31 | Electric oil pump | US14238157 | 2012-11-28 | US09581159B2 | 2017-02-28 | Masamichi Sugihara; Tomoyuki Fujita; Koichiro Akatsuka |
| An electric oil pump includes an electric motor and an oil pump that is driven by the motive power from an electric motor, wherein; the oil pump has an introducing channel that guides a drain oil that has leaked from an interior of the oil pump to an interior of the electric motor; and the electric motor has a discharging channel that discharges the drain oil that has been guided to the interior of the electric motor to a tank. | ||||||
| 32 | Hybrid electric rotary engine | US13931254 | 2013-06-28 | US09475377B2 | 2016-10-25 | William A. Ellis |
| A hybrid electric rotary engine is provided having a pair of rotors separated by a divider and configured for rotation in opposite directions, a timing gear engaged between the inner faces of the rotors, and at least one pair of slanted rotor openings in the rim of each rotor for alignment with at least one pair of slanted divider openings to form a pair of combustion chambers in communication with at least one pair of exhaust chambers for venting of exhaust and to provide rotational thrust. | ||||||
| 33 | Pumping device for pumping oil from a storage container to a transmission system of a motor vehicle | US14351363 | 2012-10-11 | US20140286801A1 | 2014-09-25 | Chrístian Böhm |
| A pumping device for pumping oil in a transmission system of a hybrid drive for a motor vehicle has an oil pump and a direct drive for driving the rotor and an electric drive for driving a rotor part that surrounds the rotor. A stationary housing surrounds the rotor part and has an inlet connection and an outlet connection of the oil pump. The oil pump allows a selective drive via the direct drive or the electric drive in a simple manner. | ||||||
| 34 | VEHICLE HAVING VARIABLE OIL PUMP | US13955976 | 2013-07-31 | US20140255210A1 | 2014-09-11 | Jin Young Hwang |
| A vehicle having a variable hydraulic pump may include a sun gear that receives a torque from a power source through an input shaft, a ring gear of which an interior circumference is with a distance from an exterior circumference of the sun gear, a planetary gear that is disposed between the interior circumference of the ring gear and the exterior circumference of the sun gear, a carrier that connects with an output shaft, a hydraulic pump that pumps oil through the output shaft that is connected to the carrier, and a motor that is disposed outside the ring gear to selectively rotate the ring gear. | ||||||
| 35 | Oil pump system for vehicle | US12153346 | 2008-05-16 | US08403646B2 | 2013-03-26 | Koudi Yoshinami |
| An oil pump system for a vehicle includes: a vane pump having a plurality of vanes which respectively project retractably from a plurality of vane accommodating grooves provided in a rotor so as to be brought into sliding contact with a cam surface, the vane pump being adapted to supply a hydraulic fluid to an automatic transmission; an electric power-driven oil pump for assisting the hydraulic pressure of the hydraulic fluid during an idling stop of the automobile; and an ECU for controlling its operation. During an idling stop, the hydraulic fluid is fed to the automatic transmission by the operation of the electric power-driven oil pump to assist the hydraulic pressure, while the hydraulic fluid is fed with pressure also to the vane accommodating grooves to press the vanes against the cam surface. | ||||||
| 36 | Electric wire holding structure for electric compressor and electric wire holding method for electric compressor | US12373397 | 2007-06-20 | US07982348B2 | 2011-07-19 | Takehiro Hasegawa |
| A structure and method for holding an electric wire connected to the inside of an electric compressor incorporating a motor. The structure has a holding member for holding an electric wire present between a connection terminal section for connection to the outside and a built-in electric device. The structure and method can reliably eliminate possibility of adverse affection to an input electric wire caused by vibration, etc. while preventing a reduction in efficiency of assembly work and an increase in size of the compressor. | ||||||
| 37 | Fluid separator for a compressor | US11970227 | 2008-01-07 | US07708537B2 | 2010-05-04 | Kanwal Bhatia; Michael Gregory Theodore, Jr. |
| A fluid separator for a compressor is disclosed including a hollow main body having an annular flange and an annular collar formed thereon, wherein the annular collar includes an annular array of apertures formed therein for separating a liquid from a fluid and attenuating pressure pulsations of the fluid. | ||||||
| 38 | Dual drive pump with dual chain and roller clutch and method | US11171121 | 2005-06-30 | US07494439B2 | 2009-02-24 | Richard A. Pashnik; John A. Diemer |
| A pumping system for a transmission system having a single pump functionally connected to a mechanical power source and an electrical power source is provided. The connections between the pump and the mechanical power source and electrical power source include at least one roller clutch, which permits only one of the power sources to drive the pump at any given time. Additionally, the functional connections, which may be chains, provide that the pump and the electrical power source may be located non-coaxial with the center axis of the transmission system, as may be preferred for improved packaging. The dual-chain and roller clutch pumping system is appropriate for gasoline/electric hybrid vehicles where pumping may be necessary when the engine is off and limited packaging space is available in the transmission housing. | ||||||
| 39 | Refrigerating apparatus and fluid machine therefor | US12078074 | 2008-03-27 | US20080184706A1 | 2008-08-07 | Keiichi Uno; Hironori Asa; Yasuhiro Takeuchi; Hideji Yoshida; Akihiro Imura; Atsushi Inaba; Hiroshi Kishita; Hiroshi Ogawa |
| A complex fluid machine has an expansion-compressor device, a pump, and a motor generator, wherein the expansion-compressor device, the pump, and the motor generator are operatively connected and arranged in series, and a power transmitting device for disconnecting the pump from the motor generator, when the expansion-compressor device is driven by the motor generator so as to be operated as a compressor device. | ||||||
| 40 | Pump drive system | US11974256 | 2007-10-12 | US20080087487A1 | 2008-04-17 | Ivo Agner; Dierk Reitz; Reinhard Berger; Johannes Lamers |
| A pump drive system having a pump drive element that is driven by a first or a second drive mechanism. The pump drive element is connectable or connected by a coupling element in a rotationally fixed connection either through a first free-wheel device to the first drive mechanism or through a second free-wheel device to the second drive mechanism. | ||||||
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