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    • 91. 发明授权
    • Hydraulic brake apparatus for a vehicle
    • 车辆液压制动装置
    • US5960630A
    • 1999-10-05
    • US864346
    • 1997-05-28
    • Michiharu NishiiSatoshi IshidaMasahiko Kato
    • Michiharu NishiiSatoshi IshidaMasahiko Kato
    • B60T13/12B60T8/44B60T13/14B60T11/20
    • B60T8/441B60T13/147
    • The invention is directed to a hydraulic brake apparatus which includes a master cylinder having a cylinder body and a master piston slidably disposed therein for defining a pressure chamber ahead of the master piston and a power chamber behind the master piston. A control piston is slidably disposed in the cylinder body ahead of the master piston to define the pressure chamber behind the control piston, and adapted to be moved in response to movement of the master piston. An auxiliary pressure source is provided for pressurizing brake fluid to generate a power pressure, and a valve assembly is communicated with the auxiliary pressure source to regulate the power pressure into a regulated pressure in response to movement of the control piston. The valve assembly is adapted to supply the regulated pressure into the power chamber to assist the operation of a brake pedal. The control piston is provided with at least one sealing member to separate the regulator chamber from the pressure chamber with substantially equal pressure applied to one end of the sealing member and the other end of the sealing member.
    • 本发明涉及一种液压制动装置,该液压制动装置包括主缸,该主缸具有可滑动地设置在其中的缸体和主活塞,用于限定主活塞前方的压力室和主活塞后面的动力室。 控制活塞可滑动地设置在主活塞前方的缸体中以限定控制活塞后面的压力室,并且适于响应于主活塞的移动而移动。 提供辅助压力源用于对制动液进行加压以产生动力压力,并且阀组件与辅助压力源连通,以响应于控制活塞的运动将功率压力调节到调节压力。 阀组件适于将调节的压力供应到动力室中以辅助制动踏板的操作。 控制活塞设置有至少一个密封构件,以将调节器室与压力室分离,施加到密封构件的一端和密封构件的另一端的基本上相等的压力。
    • 95. 发明授权
    • Vapor separator for fuel injected engine
    • 燃油喷射发动机的气体分离器
    • US5855197A
    • 1999-01-05
    • US651771
    • 1996-05-22
    • Masahiko Kato
    • Masahiko Kato
    • B63H20/00F01M3/00F02B61/04F02B75/02F02B75/22F02M37/00F02M37/08F02M37/10F02M37/14F02M37/20F04C2/344F02M41/00
    • F02M37/10F02B61/045F02M37/14F02M37/20F02B2075/025F02B75/22
    • A compact vapor separator for a fuel injection system reduces the size of the fuel system mounted on the side of an outboard engine. The girth of the outboard motor's power head consequently is decreased. In one embodiment, the vapor separator employs a plurality of rotary vane-type pumps. The pumps are sized to produce a sufficient flow rate and fuel pressure, while minimizing power consumption. At least one of the fuel pumps can be located on a periphery of a housing of the vapor separator and can be removably attached thereto to facilitate easy removal and assembly for service and repair. The vapor separator also can include a redundant seal arrangement to generally isolate an exterior casing of the fuel pump from the fuel and to seal an upper end of the housing. In another embodiment, a dividing wall separates the fuel pump from an fuel supply inlet of the fuel tank. The wall inhibits gas bubble migration toward the inlet of the fuel pump. The fuel pump thus draws less vapor.
    • 用于燃料喷射系统的紧凑型蒸气分离器减小了安装在舷外发动机侧的燃料系统的尺寸。 舷外马达的动力头的周长因此而减少。 在一个实施例中,蒸汽分离器采用多个旋转叶片式泵。 泵的尺寸适合于产生足够的流量和燃料压力,同时最大限度地降低功耗。 燃料泵中的至少一个可以位于蒸汽分离器的壳体的周边上,并且可以可移除地附接到其上,以便于容易地拆卸和组装以进行维修和修理。 蒸汽分离器还可以包括冗余的密封装置,以将燃料泵的外部外壳与燃料隔离并密封壳体的上端。 在另一个实施例中,分隔壁将燃料泵与燃料箱的燃料供给入口分开。 该壁阻止气泡向燃料泵入口移动。 因此,燃料泵吸收的蒸汽较少。
    • 99. 发明授权
    • Laser beam type distance measuring device
    • 激光束式距离测量装置
    • US5648852A
    • 1997-07-15
    • US546176
    • 1995-10-20
    • Masahiko KatoHiroshi MatsuzakiTadashi Adachi
    • Masahiko KatoHiroshi MatsuzakiTadashi Adachi
    • G01B11/00G01C3/06G01S7/48G01S7/481G01S17/42G02B26/12G01B11/14G01C3/08
    • G01S7/4817G01S7/4812G01S7/4813G01S17/42
    • A laser beam type distance measuring device comprises a laser beam emitter; a returning laser beam detector; a polygon mirror rotated about a first axis for reflecting a going laser beam from the laser beam emitter toward a remote object and reflecting a returning laser beam from the object toward a given optical track along which the returning laser beam travels to the returning laser beam detector; and a nodding mechanism for pivoting the polygon mirror about a second axis which is perpendicular to the first axis. These parts are housed in a case which has a window opening through which the going and returning laser beams pass. An outwardly swelled transparent cover covers the window opening in such a manner that a depressed inner surface thereof faces toward the polygon mirror in the case. A shielding plate is installed in the case near the polygon mirror to prevent the going laser beam from entering the given optical track.
    • 激光束型距离测量装置包括激光束发射器; 返回激光束检测器; 多边形反射镜,围绕第一轴旋转,用于将来自激光发射器的去激光束朝向远程物体反射,并将来自物体的返回激光束反射到给定的光轨,返回的激光束沿着该光轨行进到返回的激光束检测器 ; 以及用于围绕垂直于第一轴线的第二轴线枢转多面镜的点头机构。 这些部件容纳在具有窗口的壳体中,通过该窗口开始和返回的激光束通过。 向外膨胀的透明盖以这样的方式覆盖窗口,使得其在凹陷的内表面面向多面镜。 屏蔽板安装在靠近多面镜的壳体中,以防止激光束进入给定光学轨道。