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    • 21. 发明授权
    • Controller for variable displacement compressor and control method for the same
    • 变排量压缩机控制器及其控制方法相同
    • US07210911B2
    • 2007-05-01
    • US10976101
    • 2004-10-27
    • Masaki OtaMasakazu MuraseSatoshi UmemuraTatsuya Hirose
    • Masaki OtaMasakazu MuraseSatoshi UmemuraTatsuya Hirose
    • F04B1/26
    • F04B27/1804F04B2027/1827F04B2027/1854F04B2027/1859F04B2027/1895F25B9/008F25B49/022F25B2700/1931F25B2700/1933
    • A controller for a variable displacement compressor that maintains high displacement while preventing excessive increase in discharge pressure. The controller includes a pressure sensing mechanism for detecting pressure of a suction pressure region in the compressor. A suction pressure controlling means controls the displacement of the compressor so that the pressure detected by the pressure sensing mechanism is converged to a predetermined suction pressure setting. A sensor detects pressure of a discharge pressure region in the compressor. A discharge pressure controlling means controls the displacement of the compressor so that the pressure detected by the sensor is converged to a predetermined discharge pressure setting. When the pressure detected by the sensor is greater than a threshold pressure, an ECU switches the control of the compressor from control with the suction pressure controlling means to control with the discharge pressure controlling means.
    • 用于可变容量压缩机的控制器,其保持高位移,同时防止排出压力的过度增加。 控制器包括用于检测压缩机中的吸入压力区域的压力的压力感测机构。 吸入压力控制装置控制压缩机的位移,使得由压力感测机构检测到的压力会聚到预定的吸入压力设定。 传感器检测压缩机中的排出压力区域的压力。 排气压力控制装置控制压缩机的位移,使得由传感器检测的压力会聚到预定的排出压力设定。 当传感器检测到的压力大于阈值压力时,ECU通过吸入压力控制装置将压缩机的控制转换为控制,以便通过排出压力控制装置进行控制。
    • 23. 发明申请
    • Method of processing valve mechanism
    • 阀门机构处理方法
    • US20050150109A1
    • 2005-07-14
    • US11032283
    • 2005-01-10
    • Satoshi UmemuraTatsuya Hirose
    • Satoshi UmemuraTatsuya Hirose
    • F16K1/14F16K15/04F16K17/04F25B1/00F25B41/04B21C3/16B21K1/24
    • F16K17/0406Y10T29/49409Y10T29/49426
    • A method of processing a valve mechanism which includes a valve body having a shut-off surface in the form of a convex spherical surface, a valve hole, a valve seat formed by an opening of the valve hole, and a spring which urges the valve body toward the valve seat, wherein the valve mechanism is so formed that the valve body resists the urging force of the spring in accordance with the pressure increase in the valve hole to be separate from the valve seat, includes the steps of: preparing a processing tool having a processing surface in the form of a convex spherical surface which has the same curvature radius as the shut-off surface of the valve body; positioning the processing tool to the valve seat; and forming the valve seat along the form of the processing surface by pushing the processing surface of the processing tool against the valve seat.
    • 一种处理阀机构的方法,该阀机构包括具有凸球面形式的切断面的阀体,阀孔,由阀孔的开口形成的阀座,以及促使阀 主体朝向阀座,其中阀机构形成为使得阀体抵抗弹簧的推压力,根据与阀座分离的阀孔中的压力增加,包括以下步骤:准备加工 具有凸形球面形式的处理表面的工具具有与阀体截止表面相同的曲率半径; 将加工工具定位到阀座; 以及通过将处理工具的处理表面推靠在阀座上,沿着处理表面的形式形成阀座。
    • 27. 发明授权
    • Viscous fluid type heat generating apparatus
    • 粘性流体型发热装置
    • US6129287A
    • 2000-10-10
    • US286716
    • 1999-04-06
    • Tatsuya HiroseTakashi BanShigeru SuzukiTatsuyuki HoshinoHidefumi MoriYasuhiro Fujiwara
    • Tatsuya HiroseTakashi BanShigeru SuzukiTatsuyuki HoshinoHidefumi MoriYasuhiro Fujiwara
    • B60H1/08B60H1/22F24J3/00B60H1/02
    • F24J3/003
    • A viscous fluid type heat generating apparatus having a housing forming a cylindrical heat-generating chamber having a cylindrical wall surface and an axially spaced flat annular wall surface, and a rotatably supported rotor element having a cylindrical base portion and an axially extending tubular portion integral with the base portion forming a substantially cylindrical outer face and a cavity portion used as a fluid-storing chamber, the cylindrical portion of the rotor element cooperating with the cylindrical wall surface of the housing to define a main part of a heat-generating gap holding a viscous fluid which generates heat in response to an application of a shearing force to the viscous fluid in response to the rotation of the rotor element. The heat generating apparatus further having an intercommunicating passage providing a fluid communication between the heat-generating gap and the fluid storing chamber to thereby cause a circulation of the viscous fluid during the rotation of the rotor element, and a flow rate controlling actuator controlling an amount of circulation of the viscous fluid in response to a change in the rotating speed of the rotor element.
    • 一种粘性流体型发热装置,其具有形成有圆柱形壁面和轴向隔开的平坦的环形壁表面的圆柱形发热室的壳体,以及可旋转地支撑的转子元件,其具有圆柱形基部和与轴向延伸的管状部分 所述基部形成基本上圆柱形的外表面和用作流体储存室的空腔部分,所述转子元件的圆筒部分与所述壳体的圆柱形壁表面配合,以限定发热间隙的主要部分, 响应于转子元件的旋转而响应于对粘性流体施加剪切力而产生热的粘性流体。 该发热装置还具有相互连通的通道,其在发热间隙和流体储存室之间提供流体连通,从而在转子元件旋转期间引起粘性流体的循环,以及控制流量控制致动器的量 响应于转子元件的转速的变化,粘性流体的循环。
    • 29. 发明授权
    • Viscous heater
    • 粘稠加热器
    • US5904120A
    • 1999-05-18
    • US973621
    • 1997-12-04
    • Takashi BanHidefumi MoriKiyoshi YagiTatsuya Hirose
    • Takashi BanHidefumi MoriKiyoshi YagiTatsuya Hirose
    • B60H1/08F24J3/00F22B3/06
    • F24J3/003
    • This invention provides a viscous heater which can attain an improvement in heat generating efficiency while preventing leakage caused by expansion of a viscous fluid. For this purpose, a disk-shaped rotor is employed, and a front housing body, a front plate, a rear plate, and a rear housing body constitute housings, and these are stacked and fastened together by through bolts. Surplus spaces in the shape of concaves are formed in the front plate between the respective through bolts and water passages so as to communicate with the heat generating chamber in their outer circumference.
    • PCT No.PCT / JP97 / 01027 Sec。 371 1997年12月4日第 102(e)日期1997年12月4日PCT 1997年3月26日PCT公布。 公开号WO97 / 37865 日期:1997年10月16日本发明提供一种粘性加热器,其能够在防止粘性流体膨胀引起的泄漏的同时实现发热效率的提高。 为此,采用盘形转子,前壳体,前板,后板和后壳体构成壳体,并且通过螺栓堆叠并紧固在一起。 凹槽形状的剩余空间形成在各个贯通螺栓和水通道之间的前板中,以便在其外周与发热室连通。
    • 30. 发明授权
    • Viscous fluid type heat generator with heat generation increasing means
    • 粘性流体式发热器具有发热增加的手段
    • US5881953A
    • 1999-03-16
    • US924543
    • 1997-08-27
    • Takahiro MoroiKiyoshi YagiHidefumi MoriTakashi BanTatsuyuki HoshinoTatsuya Hirose
    • Takahiro MoroiKiyoshi YagiHidefumi MoriTakashi BanTatsuyuki HoshinoTatsuya Hirose
    • B60H1/08F24J3/00B60H1/02
    • F24J3/003
    • A viscous fluid type heat generator including a housing assembly in which a fluid-tight heat generating chamber confining therein a viscous fluid to which a shearing action is applied by a disc-like rotor element rotated by a drive shaft, and having inner wall surfaces confronting outer surfaces of the rotor element, the inner wall surfaces of the fluid-tight heat generating chamber and the outer faces of the rotor element defining a gap in which the viscous fluid is held, the rotor element being provided with one or more through-holes formed in an outer peripheral portion and a radially inner portion thereof with respect to the axis of rotation of the rotor element so that the through-holes cooperate with one or more non-circumferentially extending elongate indentations provided in the inner wall surfaces of the fluid-tight heat generating chamber during the rotation of the rotor element to expand a heat generating region formed by the gap. The expansion of the heat generating region formed by the gap increases a restraint acting against movement of the viscous fluid caused by the rotation of the rotor element so as to increase friction and a shearing force acting on the viscous fluid, and heat generation by the viscous fluid is increased.
    • 一种粘性流体型热发生器,包括壳体组件,其中流体密封的发热室限定粘性流体,通过由驱动轴旋转的盘状转子元件施加有剪切作用的粘性流体,并且具有面对的内壁面 转子元件的外表面,流体密封发热室的内壁表面和转子元件的外表面限定了保持粘性流体的间隙,转子元件设置有一个或多个通孔 形成在相对于转子元件的旋转轴线的外周部分和径向内部部分中,使得通孔与设置在流体转动件的内壁表面中的一个或多个非周向延伸的细长凹槽配合, 在转子元件的旋转期间紧密的发热室膨胀由间隙形成的发热区域。 由间隙形成的发热区域的膨胀增加了由转子元件的旋转引起的粘性流体的运动的约束,以增加作用在粘性流体上的摩擦力和剪切力,并且由粘性物质产生热量 流体增加。