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    • 62. 发明授权
    • Variable displacement compressor
    • 可变排量压缩机
    • US09010138B2
    • 2015-04-21
    • US13432793
    • 2012-03-28
    • Hiroyuki YoshidaOsamu Hiramatsu
    • Hiroyuki YoshidaOsamu Hiramatsu
    • F25B1/00F04B27/18F04B11/00
    • F04B27/1804F04B11/0091F04B2027/1813F04B2027/1827F04B2027/1831
    • A variable displacement compressor adjusts the pressure in a control pressure chamber and controls the displacement in accordance with the adjusted pressure. Refrigerant is supplied via a supply passage, and released via a bleed passage. The compressor includes a first control valve for adjusting the cross-sectional area of the supply passage for refrigerant. The compressor further includes a second control valve that adjusts the cross-sectional area of the bleed passage in accordance with the opening/closing state of the first control valve. The second control valve adjusts the cross-sectional area of the bleed passage such that the cross-sectional area when the first control valve is in the closed state is larger than that when the first control valve is in the opened state. The back pressure chamber is located in a section of the bleed passage that is located between the second control valve and the control pressure chamber.
    • 可变排量压缩机调节控制压力室中的压力,并根据调节压力来控制排量。 制冷剂通过供应通道供应,并通过排放通道释放。 压缩机包括用于调节用于制冷剂的供给通道的横截面面积的第一控制阀。 压缩机还包括第二控制阀,其根据第一控制阀的打开/关闭状态调节排放通道的横截面面积。 第二控制阀调节排出通道的横截面面积,使得当第一控制阀处于关闭状态时的横截面面积大于当第一控制阀处于打开状态时的横截面面积。 背压室位于排放通道的位于第二控制阀和控制压力室之间的部分中。
    • 65. 发明授权
    • Method of and apparatus for producing sub-critical water decomposition products
    • 生产亚临界水分解产物的方法和设备
    • US08323512B2
    • 2012-12-04
    • US10589331
    • 2005-02-14
    • Hiroyuki Yoshida
    • Hiroyuki Yoshida
    • C02F1/72C02F1/02
    • C02F11/08A62D2203/10B01J3/008B09B3/00Y02E50/30
    • A method of and an apparatus for continuous sub-critical water decomposition treatment for material to be processed containing solid matter are provided, which are capable of controlling decomposition reaction of the material to be processed and suitable for large-scale operations. The method and the apparatus are also capable of minimizing equipment costs and selectively producing desired useful substances at high yield rates.Material to be processed is grinded in advance into particles, which are mixed with water to prepare slurry. The slurry is sent to a compressing device (1) through a pipe and is compressed. Next, the compressed slurry is sent to a heating device 2 and heated, and is brought into a sub-critical state. The slurry in a sub-critical condition is introduced through an inlet (8) into a bottom part of a reactor (3). In the reactor (3) a fixed bed, a fluidized bed, and a sub-critical water dissolution part are formed in that order from the bottom. One(s) of outlets (101) to 106 provided at top and side portions of the reactor 3 is/are selected so that the sub-critical water dissolution part is taken out therethrough, whereby the residence time of the sub-critical water is adjusted and thus the reaction time of sub-critical water decomposition of the material to be processed is adjusted.
    • 提供了一种能够控制含有固体物质的待处理材料的连续亚临界水分解处理方法和装置,其能够控制待处理材料的分解反应并适合于大规模操作。 该方法和装置还能够最小化设备成本并以高产率选择性地生产所需的有用物质。 将待处理的材料预先研磨成与水混合以制备浆料的颗粒。 浆料通过管道被送到压缩装置(1)并被压缩。 接下来,将压缩的浆料送到加热装置2并加热,进入亚临界状态。 处于亚临界状态的浆料通过入口(8)引入反应器(3)的底部。 在反应器(3)中,从底部依次形成固定床,流化床和亚临界水溶解部分。 选择设置在反应器3的顶部和侧部的一个或多个出口(101)至106,使得亚临界水溶解部分被从其中取出,由此亚临界水的停留时间为 进行调整,调整待处理材料的亚临界水分解反应时间。
    • 66. 发明申请
    • AQUEOUS DISPERSION FOR INKJET PRINTING
    • 喷墨打印机水分散
    • US20120219715A1
    • 2012-08-30
    • US13504740
    • 2010-10-09
    • Hiroyuki YoshidaTakahiro SatoYusuke Shimizu
    • Hiroyuki YoshidaTakahiro SatoYusuke Shimizu
    • C09D11/10B05D5/00
    • C09D11/38C09B67/0051C09D7/45C09D11/326
    • The invention relates to (1) a water dispersion for ink-jet printing including a polymer and a pigment mixture of C.I. Pigment Yellow 74 (A) and an azo compound (B) represented by the following formula (1) which is dispersed with the polymer, wherein a total pigment solid content of the components (A) and (B) in the water dispersion is from 15 to 35% by weight; and (2) a water-based ink for ink jet printing including a polymer and a pigment mixture of C.I. Pigment Yellow 74 (A) and the azo compound (B) which is dispersed with the polymer, wherein a total pigment solid content of the components (A) and (B) in the water-based ink is from 3 to 20% by weight, wherein R10 and R20 are independently an aryl group with the proviso that at least one of R10 and R20 has a sulfonic acid group and a sulfonic acid amide group.
    • 本发明涉及(1)一种用于喷墨印刷的水分散体,其包括聚合物和C.I.的颜料混合物。 颜料黄74(A)和由下述式(1)表示的与聚合物分散的偶氮化合物(B),其中水分散体中组分(A)和(B)的总颜料固体含量来自 15〜35重量% 和(2)用于喷墨印刷的水性油墨,包括聚合物和C.I.的颜料混合物。 颜料黄74(A)和与聚合物分散的偶氮化合物(B),其中水性油墨中组分(A)和(B)的总颜料固体含量为3至20重量% 其中R 10和R 20独立地为芳基,条件是R 10和R 20中的至少一个具有磺酸基和磺酸酰胺基。
    • 68. 发明授权
    • Insulated gate field effect transistor and method of manufacturing same, and image pickup device and method of manufacturing same
    • 绝缘栅场效应晶体管及其制造方法,以及图像拾取装置及其制造方法
    • US08188523B2
    • 2012-05-29
    • US12109892
    • 2008-04-25
    • Hiroyuki Yoshida
    • Hiroyuki Yoshida
    • H01L29/36
    • H01L27/146H01L29/1083
    • An insulated gate field effect transistor, a solid-state image pickup device using the same, and manufacturing methods thereof that suppress occurrence of a shutter step and suppress occurrence of punch-through and injection. An insulated gate field effect transistor having a gate electrode on a semiconductor substrate with a gate insulating film interposed between the semiconductor substrate and the gate electrode, and having a source region and a drain region formed in the semiconductor substrate on both sides of the gate electrode, the insulated gate field effect transistor including: a first diffusion layer of a P type formed in the semiconductor substrate at a position deeper than the source region and the drain region; and a second diffusion layer of the P type having a higher concentration than the first diffusion layer and formed in the semiconductor substrate at a position deeper than the first diffusion layer.
    • 绝缘栅场效应晶体管,使用该绝缘栅场效应晶体管的固态图像拾取器件及其制造方法,其抑制快门步骤的发生并抑制穿通和注入的发生。 一种绝缘栅场效应晶体管,其在半导体衬底上具有栅极电极,栅极绝缘膜置于半导体衬底和栅电极之间,并且在栅电极两侧形成在半导体衬底中的源极区和漏极区 所述绝缘栅场效应晶体管包括:形成在所述半导体衬底中比所述源极区和所述漏极区更深的位置的P型的第一扩散层; 以及具有比第一扩散层更高的浓度的P型的第二扩散层,并且形成在比第一扩散层更深的位置处的半导体衬底中。