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    • 4. 发明授权
    • Powder and granular material separation processing device, powder and granular material separation processing method, and powder and granular material separation and collection processing system
    • 粉粒料分离处理装置,粉粒分离处理方法,粉粒料分离收集处理系统
    • US09254508B2
    • 2016-02-09
    • US14347398
    • 2012-09-11
    • Tomoaki TokudaShuji Yamamoto
    • Tomoaki TokudaShuji Yamamoto
    • B07B4/00B07B7/00B07B4/04B07B4/02B07B7/01B07B7/04
    • B07B4/04B07B4/02B07B7/01B07B7/04
    • To introduce a mixture to be processed, in which powder and granular material with relatively large specific gravity and hardness and accompanying lightweight foreign substances are mixed together, inside a system and separate the same by a dry method.Disclosed is a powder and granular material separation processing device X that is connected to an external suction machine such as a dust collection device and an electric vacuum cleaner, introduces by suction a mixture to be processed into a separation processing container 1, and discharges lightweight foreign substances to the outside of a system while collecting powder and granular material inside the system. The separation processing container 1 has a suction introduction tube 2 that is attached and sealed as the upper part structure of a hopper tank 4 that collects and stores the powder and granular material and receives the mixture to be processed on the circumferential surface thereof, and a suction discharge tube 3 that is connected to an external suction machine on the upper surface thereof. In addition, the separation processing container 1 has a separation cone 11 with a funnel-shaped bottom surface and a cylindrical opening 13 that hangs in a protruding shape downward from the tip part of the separation cone 11 and of which the opening diameter thereof is reduced stepwise to have multiple steps. The suction discharge tube 3 has a multiple tube configuration at the tip part thereof in which each tube is given a small diameter corresponding to each opening diameter of the cylindrical opening 13 to be loosely inserted and face the tip part of an opening.
    • 为了引入待处理的混合物,其中将比重和硬度较高的粉末和颗粒材料以及伴随的轻质异物混合在一起,并且通过干法将其分离。 公开了与吸尘装置和电动吸尘器等外部吸引机连接的粉粒分离处理装置X,将待处理的混合物吸入分离处理容器1,并排出轻质的外部 物质到系统外部,同时收集系统内的粉末和颗粒物质。 分离处理容器1具有吸入引入管2,该抽吸引入管2作为收集并存储粉末和颗粒材料并在其圆周表面上接收待处理混合物的料斗箱4的上部结构被安装和密封, 抽吸排放管3,其连接到其上表面上的外部抽吸机。 此外,分离处理容器1具有漏斗形底面的分离锥体11和从分离锥体11的顶端向下悬垂的突出形状的圆柱形开口13,其开口直径减小 逐步进行多个步骤。 抽吸排放管3在其顶端具有多管构造,其中每个管具有相应于圆柱形开口13的每个开口直径的小直径以被松动地插入并且面对开口的尖端部分。
    • 8. 发明申请
    • Shoe Midsole
    • 鞋中底
    • US20090282701A1
    • 2009-11-19
    • US12308762
    • 2007-06-21
    • Shuji Yamamoto
    • Shuji Yamamoto
    • A43B7/22A43B13/18
    • A43B17/02A43B17/14
    • A shoe midsole using a plastic material having flexibility, repulsion, and restoring characteristics and capable of instantaneously absorbing and damping an impact from every direction. The plastic material, which has flexibility and restoring characteristics, is used as the material of a body of the shoe midsole. The thickness of the body is set to a range from 1.5 mm to 3.0 mm. The body is formed in a shape that can control the arch of the foot. A heel section provided with a U-shaped edge and made of a plastic material is formed on the underside of a heel section of the body so as to be integral with the body. A continuous groove is provided in a region continuing from a side surface of the U-shaped edge of the heel section to the lower surface of the heel section of the body.
    • 一种鞋底,使用具有柔性,排斥性和恢复特性的塑料材料,并且能够瞬间吸收和阻尼来自各个方向的冲击。 具有柔性和恢复特性的塑料材料被用作鞋中底的主体的材料。 身体的厚度设定在1.5mm至3.0mm的范围内。 身体形成为可以控制脚的拱形的形状。 设置有U形边缘并由塑料材料制成的脚跟部分形成在身体的脚跟部分的下侧上,以与身体成一体。 在从跟部的U形边缘的侧表面延伸到身体的跟部的下表面的区域中设置有连续的凹槽。
    • 10. 发明授权
    • Wholly aromatic polyamic acid solution composition
    • 全芳香族聚酰胺酸溶液组成
    • US4535105A
    • 1985-08-13
    • US587177
    • 1984-03-07
    • Toshihiro InaikeShuji YamamotoShunji OheKazunori Otsuka
    • Toshihiro InaikeShuji YamamotoShunji OheKazunori Otsuka
    • C08J3/09C08K5/34C08K5/20C08K5/41C08L79/08
    • C08J3/091C08J2379/08
    • An aromatic polyamic acid solution composition useful as an electrically insulating varnish, comprises (1) an aromatic polyamic acid which is a polymerization product of (A) a tetracarboxylic acid component containing at least 80 molar % of the sum of (a) a first acid ingredient consisting of 3,3',4,4'-biphenyltetracarboxylic dianhydride and (b) a second acid ingredient consisting of at least one member selected from the group consisting of pyromellitic dianhydride, and 3,3'4,4'-benzophenone tetracarboxylic dianhydride, the molar ratio of the first acid ingredient to the second acid ingredient being in the range of from 30:70 to 75:25, with (B) an amine component consisting of at least one aromatic amine in a molar ratio of the tetracarboxylic acid component to the amine component of from 97:100 to 103:100, and which polymeric acid has a logarithmic viscosity number of from 0.1 to 1.5 determined in a concentration of 0.5 g/100 ml in N-methyl-2-pyrrolidone at a temperature of 30.degree. C., and dissolved in a concentration of from 5% to 40% by weight in (2) an organic polar solvent.
    • 可用作电绝缘漆的芳族聚酰胺酸溶液组合物包括(1)芳族聚酰胺酸,其是(A)含有(a)第一酸的总量的至少80摩尔%的四羧酸组分的聚合产物 由3,3',4,4'-联苯四羧酸二酐组成的成分和(b)由至少一种选自均苯四酸二酐和3,3'4,4'-二苯甲酮四羧酸组成的第二酸成分 二酸酐,第一酸成分与第二酸成分的摩尔比在30:70至75:25的范围内,(B)由至少一种芳族胺组成的胺组分,四羧酸的摩尔比 酸组分为97:100至103:100,并且该聚合酸的浓度为0.5g / 100ml,在N-甲基-2-吡咯烷酮中的对数粘度为0.1至1.5, 温度30℃, 并且在(2)有机极性溶剂中以5重量%至40重量%的浓度溶解。