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    • 1. 发明授权
    • Swash plate type compressor
    • 斜盘式压缩机
    • US4408962A
    • 1983-10-11
    • US139241
    • 1980-04-11
    • Shozo NakayamaShigeru SuzukiMitsuhiro Hattori
    • Shozo NakayamaShigeru SuzukiMitsuhiro Hattori
    • F04B27/08F04B25/04F04B27/12F04B1/16
    • F04B27/12
    • A swash plate type compressor comprising a plurality of cylinder bores and pistons, a swash plate chamber wherein a swash plate for reciprocating the pistons within the cylinder bores is fixed to and rotated with a drive shaft, at least one suction passage communicated with the swash plate chamber, suction chambers and exhaust chambers communicated with the cylinder bores, respectively.Two inlet ports open into the swash plate chamber so as to be opposed to a peripheral side surface of the swash plate when it is inclined to its utmost limit into a front side and a rear side in a predetermined longitudinal section of the compressor.The fluid sucked into the compressor is compressed therein with uniform volumetric efficiency without obstructed by the rotation of the swash plate.
    • 一种斜盘式压缩机,包括多个气缸孔和活塞,斜盘室,其中用于使气缸孔内的活塞往复运动的斜盘固定到驱动轴上并随其旋转,至少一个与斜盘连通的吸入通道 分别与气缸孔连通的腔室,吸入室和排气室。 两个入口端口在旋转斜盘室中开口,以便当其在压缩机的预定纵向部分中倾斜到其最大限度的前侧和后侧时与斜盘的周边侧表面相对。 吸入压缩机的流体在其中以均匀的体积效率被压缩而不受旋转斜盘的旋转的阻碍。
    • 2. 发明授权
    • Volumetric fluid compressor
    • 容积流体压缩机
    • US4484869A
    • 1984-11-27
    • US370307
    • 1982-04-21
    • Shozo NakayamaMitsukane InagakiShigeru SuzukiTakashi Ban
    • Shozo NakayamaMitsukane InagakiShigeru SuzukiTakashi Ban
    • F01C17/06F04C18/02F04C29/02
    • F04C18/0215F01C17/066F04C29/02
    • A volumetric fluid compressor or a so-called scroll type compressor is provided in which a rotary shaft is placed centrally in the front side of a housing, a helical portion of a movable scroll member is contacted eccentrically with a helical portion of a fixed scroll member, the helical portion of the movable scroll member is rotated about the axis of the rotary shaft to which the movable scroll member is mounted with an offset, in such a manner that a closed space defined between the two helical portions may be contracted towards the center for compressing the refrigerant gas which may thus be discharged towards rear from the center of the fixed scroll member. A stationary member for preventing the rotation of movable scroll member is secured in the housing about centrally of the longitudinal axis of the housing for defining a suction chamber towards the front side of the housing and a working chamber on the rear side of the housing, the fixed and movable scroll members being provided within the working chamber. A suction port is formed in the housing directly above the rotary shaft for introducing the fluid to be compressed into the suction chamber whereas a plurality of suction passageways are formed in the stationary ring for introducing the fluid to be compressed from the forward side suction chamber into the rear side working chamber.
    • 提供了一种体积流体压缩机或所谓的涡旋式压缩机,其中旋转轴位于壳体的前侧中央,可动涡旋件的螺旋部分与固定涡旋件的螺旋部分偏心接触, 可动涡旋构件的螺旋部分绕着安装有可动涡旋构件的旋转轴的轴线以偏移方式旋转,使得限定在两个螺旋部分之间的封闭空间朝向中心收缩 用于压缩可以从固定涡旋构件的中心向后排出的制冷剂气体。 用于防止可动涡旋件旋转的固定件固定在壳体中,围绕壳体的纵向轴线的中心,以限定朝向壳体前侧的吸入室和位于壳体后侧的工作室, 固定和可动涡旋件设置在工作室内。 吸入口形成在旋转轴的正上方,用于将待压缩的流体引入吸入室,而在固定环上形成多个吸入通路,用于将从前侧吸入室引入被压缩的流体 后侧工作室。
    • 4. 发明授权
    • Radiation detector module
    • 辐射检测器模块
    • US08859975B2
    • 2014-10-14
    • US13640406
    • 2011-01-27
    • Fumiyuki TokuraMitsutoshi SugiyaShigeru SuzukiTakashi Tonbe
    • Fumiyuki TokuraMitsutoshi SugiyaShigeru SuzukiTakashi Tonbe
    • G01T1/20H01L27/146
    • G01T1/2018H01L27/14634H01L27/14661H01L27/14663
    • A radiation detector module 10A includes a scintillator for converting radiation made incident from a predetermined direction to light, a two-dimensional PD array 12 for receiving light from the scintillator, a connection substrate 13 formed by stacking dielectric layers 130a to 130f, and mounted with the two-dimensional PD array 12 on one substrate surface thereof, and an integrated circuit device 14 mounted on the other substrate surface of the connection substrate 13, and for reading out electrical signals output from the two-dimensional PD array 12. The integrated circuit device 14 has a plurality of unit circuit regions 14b separated from each other. The connection substrate 13 has a plurality of through conductors 20 and a plurality of radiation shielding films 21a to 23a formed integrally with each of the plurality of through conductors 20 and separated from each other. Accordingly, the readout circuits of the integrated circuit device can be protected from radiation with a simple configuration.
    • 辐射检测器模块10A包括用于将从预定方向入射的辐射的光转换成用于从闪烁体接收光的二维PD阵列12,通过堆叠电介质层130a至130f形成的连接基板13,并安装有 其一个基板表面上的二维PD阵列12,以及安装在连接基板13的另一个基板表面上并用于读出从二维PD阵列12输出的电信号的集成电路装置14。 装置14具有彼此分离的多个单位电路区域14b。 连接基板13具有多个贯通导体20和与多个贯通导体20中的每一个一体地形成并彼此分离的多个辐射屏蔽膜21a至23a。 因此,能够以简单的结构保护集成电路器件的读出电路免受辐射。
    • 8. 发明授权
    • Variable displacement gear pump
    • 可变排量齿轮泵
    • US08348635B2
    • 2013-01-08
    • US12370083
    • 2009-02-12
    • Katsumi YamashitaShigeru SuzukiHironao YokoiToshiro Fujii
    • Katsumi YamashitaShigeru SuzukiHironao YokoiToshiro Fujii
    • F01C1/14
    • F04C2/18F04C14/065
    • The variable displacement gear pump for a loading system in an industrial vehicle has main and sub gear pump portions, suction, discharge and bypass passages, and check and opening valves. The main gear pump portion has main drive and driven gears, and has suction and discharge side spaces. The sub gear pump portion has sub drive and driven gears, and has suction and discharge side spaces. The bypass passage returns hydraulic fluid in the discharge-side space of the sub gear pump portion to the suction passage. The check valve prevents hydraulic fluid in the discharge-side space of the main gear pump portion from flowing to that of the sub gear pump portion. The opening valve is used for opening and closing the bypass passage, and closes the bypass passage due to a pressure in a discharge conduit of the loading system increased by the load applied to the loading system.
    • 用于工业车辆中的装载系统的可变排量齿轮泵具有主副齿轮泵部分,抽吸,排放和旁通通道以及检查和打开阀。 主齿轮泵部分具有主驱动齿轮和从动齿轮,并且具有抽吸和排出侧空间。 副齿轮泵部分具有副驱动齿轮和从动齿轮,并且具有吸入和排出侧空间。 旁路通路将副齿轮泵部的排出侧空间的液压流体返回到吸入通路。 止回阀防止主齿轮泵部分的排出侧空间中的液压流体流向副齿轮泵部分的液压流体。 打开阀用于打开和关闭旁路通道,并且由于加载系统的排放管道中的压力增加到施加到装载系统的负载而使旁通通道关闭。
    • 9. 发明申请
    • METHOD FOR PRODUCING GLYCOLIDE
    • 生产甘油的方法
    • US20120289713A1
    • 2012-11-15
    • US13522435
    • 2010-12-16
    • Shigeru SuzukiKazuyuki YamaneMasaru KagoshimaMichio Kikuchi
    • Shigeru SuzukiKazuyuki YamaneMasaru KagoshimaMichio Kikuchi
    • C07D319/12
    • C07D319/12B01J23/14B01J27/135
    • A method for producing glycolide, including the steps of: heating a mixture containing a glycolic acid oligomer, a high-boiling point polar organic solvent having a boiling point of 230 to 450° C., and a tin compound under normal pressure or reduced pressure until a temperature at which the glycolic acid oligomer is depolymerized, to thereby dissolve the glycolic acid oligomer in the high-boiling point polar organic solvent; heating a solution, in which the glycolic acid oligomer is dissolved, under normal pressure or reduced pressure until a temperature at which the glycolic acid oligomer is depolymerized, to thereby form glycolide by depolymerization of the glycolic acid oligomer in the solution; and co-distilling off the high-boiling point polar organic solvent and the formed glycolide from a depolymerization reaction system.
    • 一种生产乙交酯的方法,包括以下步骤:加热含有乙醇酸低聚物,沸点为230-450℃的高沸点极性有机溶剂和常压或减压下的锡化合物的混合物 直到乙醇酸低聚物解聚的温度,从而将乙醇酸低聚物溶解在高沸点极性有机溶剂中; 在常压或减压下加热其中乙醇酸低聚物溶解的溶液直到乙醇酸低聚物解聚的温度,由此通过乙醇酸低聚物在溶液中解聚形成乙交酯; 并从解聚反应体系共沸蒸馏出高沸点极性有机溶剂和形成的乙交酯。