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    • 4. 发明授权
    • Control valve in variable displacement compressor
    • 变排量压缩机中​​的控制阀
    • US5890876A
    • 1999-04-06
    • US829640
    • 1997-03-31
    • Ken SuitoMasahiro KawaguchiHiroshi KuboTomohiko YokonoNorio UemuraKazuaki NagayoshiIchiro HirataKouji Watanabe
    • Ken SuitoMasahiro KawaguchiHiroshi KuboTomohiko YokonoNorio UemuraKazuaki NagayoshiIchiro HirataKouji Watanabe
    • F04B49/06F04B27/08F04B27/14F04B27/18F04B49/00
    • F04B27/1804F04B2027/1813F04B2027/1827F04B2027/1854F04B2027/1859Y10S137/907
    • A control valve in a compressor that adjusts the discharge displacement based on controlling of an inclination of a cam plate. The compressor includes a supply passage for connecting a discharge chamber with a crank chamber. The control valve is placed midway on the supply passage for adjusting the amount of the gas introduced into the crank chamber from the discharge chamber. The control valve has a valve hole and a valve chamber respectively disposed midway on the supply passage. A valve body is located in the valve chamber to adjust the opening size of the valve hole. A reacting member reacts to the pressure in the first area. The reacting member moves the valve body via a first rod in accordance with the pressure in the first area. A solenoid is opposed to the reacting member with respect to the valve body. The solenoid has a fixed core, a plunger and a plunger chamber. Electric current sent to the solenoid produces a magnetic attractive force between the core and the plunger in accordance with a magnitude of the current. A second rod is placed between the plunger and the valve body to urge the valve body by the magnetic attractive force. The discharge chamber is connected with the valve chamber. The crank chamber is connected with the valve hole and the plunger chamber.
    • 一种压缩机中的控制阀,其基于对凸轮板的倾斜度的控制来调节排出位移。 压缩机包括用于将排出室与曲轴室连接的供给通道。 控制阀位于供给通道的中途,用于调节从排出室引入曲柄室的气体的量。 控制阀具有分别设置在供给通道中途的阀孔和阀室。 阀体位于阀室中以调节阀孔的开口尺寸。 反应构件与第一区域中的压力反应。 反应构件根据第一区域中的压力经由第一杆移动阀体。 螺线管相对于阀体与反作用件相对。 螺线管具有固定芯,柱塞和柱塞室。 发送到螺线管的电流根据电流的大小在芯和柱塞之间产生磁吸引力。 第二杆被放置在柱塞和阀体之间,以通过磁力吸引力推动阀体。 排放室与阀室连接。 曲柄室与阀孔和柱塞室连接。
    • 5. 发明授权
    • Connector employing liquid conductor for electrical contact
    • 连接器采用液体导体进行电接触
    • US5779492A
    • 1998-07-14
    • US788699
    • 1997-01-24
    • Takeshi OkuyamaKouji WatanabeTatsuo ChiyonobuKaoru HashimotoKyoichiro Kawano
    • Takeshi OkuyamaKouji WatanabeTatsuo ChiyonobuKaoru HashimotoKyoichiro Kawano
    • H01L23/32H01R3/08H01R13/03H01R24/00H01R33/76H01R107/00
    • H01R13/03H01R12/523H01R12/58H01R3/08
    • A first contact member comprises a liquid conductor which comes into contact with a second contact member so as to establish the electric connection between the two contact members. A container contains the first contact member therein. The second contact member is pin-shaped. The container is tube-shaped and has a containing portion, which is filled with the liquid conductor, and has an opening through which the second contact member is inserted. An area contraction portion for contracting the cross sectional area of the container is formed at a position between the containing portion and the opening. The container is installed in a through hole provided in a base member. The container includes a pipe member of an electric conductor which comes into direct contact with the liquid conductor and a plug member to be inserted into the hole, before the pipe member is inserted, for preventing the liquid conductor from escaping from the container. The container is formed of elastic material. The portion of the container near to the opening is split into segments and portions of the segments are positioned away from each other as the portions are near to the opening so that the outer diameter of the segments is larger than the inner diameter of the hole before the container is installed into the hole, the segments approaching each other as the container is being inserted into the hole against the elastic force of the segments.
    • 第一接触构件包括与第二接触构件接触以便建立两个接触构件之间的电连接的液体导体。 容器中包含第一接触构件。 第二接触构件是针形。 容器是管状的,并且具有填充有液体导体的容纳部分,并且具有插入第二接触构件的开口。 用于收缩容器的横截面积的区域收缩部分形成在容纳部分和开口之间的位置处。 容器安装在设置在基座构件中的通孔中。 容器包括在插入管构件之前与液体导体直接接触的电导体的管构件和插入孔中的插塞构件,以防止液体导体从容器中逸出。 容器由弹性材料形成。 容器的靠近开口的部分被分割成段,并且部分的部分彼此远离彼此,因为部分靠近开口,使得段的外径大于孔的内径 容器被安装到孔中,当容器相对于段的弹力被插入到孔中时,段彼此接近。
    • 6. 发明授权
    • Connector employing liquid conductor for electrical contact
    • 连接器采用液体导体进行电接触
    • US5626484A
    • 1997-05-06
    • US261926
    • 1994-06-17
    • Takeshi OkuyamaKouji WatanabeTatsuo ChiyonobuKaoru HashimotoKyoichiro Kawano
    • Takeshi OkuyamaKouji WatanabeTatsuo ChiyonobuKaoru HashimotoKyoichiro Kawano
    • H01L23/32H01R3/08H01R13/03H01R24/00H01R33/76H01R107/00
    • H01R13/03H01R12/523H01R12/58H01R3/08
    • A first contact member comprises a liquid conductor which comes into contact with a second contact member so as to establish the electric connection between the two contact members. A container contains the first contact member therein. The second contact member is pin-shaped. The container is tube-shaped and has a containing portion, which is filled with the liquid conductor, and has an opening through which the second contact member is inserted. An area contraction portion for contracting the cross sectional area of the container is formed at a position between the containing portion and the opening. The container is installed in a through hole provided in a base member. The container includes a pipe member of an electric conductor which comes into direct contact with the liquid conductor and a plug member to be inserted into the hole, before the pipe member is inserted, for preventing the liquid conductor from escaping from the container. The container is formed of elastic material. The portion of the container near to the opening is split into segments and portions of the segments are positioned away from each other as the portions are near to the opening so that the outer diameter of the segments is larger than the inner diameter of the hole before the container is installed into the hole, the segments approaching each other as the container is being inserted into the hole against the elastic force of the segments.
    • 第一接触构件包括与第二接触构件接触以便建立两个接触构件之间的电连接的液体导体。 容器中包含第一接触构件。 第二接触构件是针形。 容器是管状的,并且具有填充有液体导体的容纳部分,并且具有插入第二接触构件的开口。 用于收缩容器的横截面积的区域收缩部分形成在容纳部分和开口之间的位置处。 容器安装在设置在基座构件中的通孔中。 容器包括在插入管构件之前与液体导体直接接触的电导体的管构件和插入孔中的插塞构件,以防止液体导体从容器中逸出。 容器由弹性材料形成。 容器的靠近开口的部分被分割成段,并且部分的部分彼此远离彼此,因为部分靠近开口,使得段的外径大于孔的内径 容器被安装到孔中,当容器相对于段的弹力被插入到孔中时,段彼此接近。
    • 10. 发明授权
    • Apparatus for opening and closing cover
    • 打开和关闭盖子的装置
    • US07213481B2
    • 2007-05-08
    • US10896661
    • 2004-07-22
    • Kouji WatanabeToshihiro Yudate
    • Kouji WatanabeToshihiro Yudate
    • F16H35/02
    • F16J13/18B65D90/10F16H1/32H01L21/67126Y10T74/19023Y10T74/19555Y10T74/20582
    • An activating device for a cover has: a shaft unit having a rotary shaft; an arm unit which is coupled to the cover and the rotary shaft; and an actuator which drives the rotary shaft. The actuator has: a motor having a first output portion; a first reducer having an input portion and an output portion; and a second reducer having an input portion and an output portion. The reciprocal of a reduction ratio of the second reducer is larger than a quotient which is obtained by dividing a product by a torque that is required for rotating the output portion when a torque is not applied to the input portion, the product being obtained by multiplying a difference between a maximum torque that is applied to the output portion when the cover is opened, and a torque that is required for rotating the output portion when a torque is not applied to the input portion, with a ratio of a torque that is a remainder of a torque applied to the output portion after subjecting to a mechanical loss due to the second reducer, to the torque applied to the output portion.
    • 一种用于盖的启动装置具有:具有旋转轴的轴单元; 臂单元,其联接到所述盖和所述旋转轴; 以及驱动旋转轴的致动器。 致动器具有:具有第一输出部分的电动机; 具有输入部和输出部的第一减速器; 以及具有输入部和输出部的第二减速器。 第二减速器的减速比的倒数大于通过将乘积除以当转矩未施加到输入部分而使输出部旋转时所需的转矩而得到的商,乘积乘以 当打开盖子时施加到输出部分的最大扭矩与当扭矩未施加到输入部分时使输出部分旋转所需的扭矩之间的差异,转矩为 在由于第二减速器而造成机械损失之后施加到输出部分的转矩的剩余量与施加到输出部分的扭矩相反。