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    • 11. 发明专利
    • Apparatus for preparing ultra-fine particle of organic matter
    • 制备超细颗粒有机物的装置
    • JP2005125246A
    • 2005-05-19
    • JP2003364114
    • 2003-10-24
    • Masakuni MatsuokaTaiatsu Glass Kogyo KkHirohisa Uchida博久 内田正邦 松岡耐圧硝子工業株式会社
    • MATSUOKA MASAKUNIUCHIDA HIROHISAYAMAZOE YOHEISUGIMOTO YOSHIHIROSAITO TORU
    • B01J3/00B01J19/00
    • Y02P20/544
    • PROBLEM TO BE SOLVED: To provide an apparatus for preparing an ultra-fine particle of organic matter utilizing a supercritical fluid. SOLUTION: In the apparatus for preparing the ultra-fine particle of the organic matter in the RESS method constituted so as to connect a solvent (CO2 and an entrainer) supplying part (A), a dissolution of a solute performing part (B), and a particulate preparing and collecting part (C) in a series, the apparatus for preparing the ultra-fine particle of the organic matter is characterized by constituting the particulate preparing and collecting part (C) in such a manner that a particulate preparing nozzle (19) is attached to the upper face of a collecting solution (U), a collector (17) formed of extending a collecting mesh plate (17b) is also accommodated to the bottom face of the inside of the collecting solution (U), a temperature control mechanism is provided so as to optionally set and control a temperature condition to the whole of the nozzle (19) part and the collecting solution (U) part, and further a suction mechanism having stronger suction force than the jet force of the nozzle (19) is provided to the reverse nozzle side of the collecting mesh plate (17b). COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种利用超临界流体制备有机物质的超细颗粒的装置。 解决方案:在用于连接溶剂(CO 2和夹带剂)供应部分(A)的RESS方法中制备有机物超细颗粒的装置中,溶质执行部分( B)和颗粒状制备和收集部分(C)的系列中,用于制备有机物超细颗粒的装置的特征在于构成颗粒状的制备和收集部分(C),使得颗粒 准备喷嘴(19)附着在收集溶液(U)的上表面,收集网(17b)形成的收集器(17)也容纳在收集溶液(U)的内部的底面 ),设置温度控制机构,以可选地设置和控制整个喷嘴(19)部分和收集溶液(U)部分的温度状态,并且还具有比喷射力更强的吸力的抽吸机构 的不 zzle(19)设置在收集网板(17b)的反向喷嘴侧。 版权所有(C)2005,JPO&NCIPI
    • 12. 发明专利
    • Apparatus for molding supercritical plastic and the like
    • 用于模塑超级塑料和类似物的设备
    • JP2003011236A
    • 2003-01-15
    • JP2001204465
    • 2001-07-05
    • Hiroshi SaitoTaiatsu Glass Kogyo Kk拓 斎藤耐圧硝子工業株式会社
    • SAITO HIROSHIWATANABE MASAHARU
    • B29C67/00D01D5/00
    • PROBLEM TO BE SOLVED: To provide an apparatus for molding a supercritical plastic material, etc., which enables the observation of the shearing and molding states of a specimen in a supercritical state.
      SOLUTION: The apparatus for molding a plastic film, fibers, and a nonwoven fabric which are in supercritical states is composed of a shearing tank having a shearing mechanism which is rotated by a motor and changes a shear rate freely and a molding tank having one or more specimen rolling roller mechanisms facing each other. The shearing tank and the molding tank are mutually partitioned through a heat-insulating material penetrated approximately to the center part by a specimen discharge nozzle for discharging the specimen from the shearing tank to the molding tank. Observation windows for visualizing the insides of the shearing and molding tanks which are installed on the sides of the tanks are composed of press parts, washers, window members, and annular sealing packings, respectively.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种能够观察超临界状态的试样的剪切和成形状态的超临界塑料材料成型等的成型装置。 解决方案:用于模塑处于超临界状态的塑料膜,纤维和非织造织物的设备由具有剪切机构的剪切罐组成,剪切机构由电动机旋转并自由地改变剪切速率,模制罐具有一个或多个 更多样品滚动辊机构相互面对。 剪切槽和成形槽通过用于将试样从剪切罐排出到成形槽的试样排出喷嘴,通过绝大多数的绝热材料相互隔开。 用于可视化安装在水箱侧面的剪切和成型罐内部的观察窗分别由压榨部件,垫圈,窗户构件和环形密封填料构成。
    • 14. 发明专利
    • Hydrothermal reaction visualizing method by microwave, and hydrothermal reaction visualizing cell used for method
    • MICROWAVE的水热反应可视化方法和用于方法的水热反应可视化细胞
    • JP2009150764A
    • 2009-07-09
    • JP2007328553
    • 2007-12-20
    • Taiatsu Glass Kogyo KkTohoku Univ国立大学法人東北大学耐圧硝子工業株式会社
    • WATANABE MASARUURUSHI SHINKATSUJI KATSUAKI
    • G01N21/05B01J3/00B01J3/02B01J3/04
    • PROBLEM TO BE SOLVED: To provide a new microwave hydrothermal reaction visualizing cell for confirming visually by a microwave, a change of a superheated state to aqueous solution stored in a cell and a change generated when cooling the solution.
      SOLUTION: The hydrothermal reaction visualizing cell by the microwave is constituted as follows: a transparent pressure-resistant glass tube 2 for observation is stored concentrically inside a transparent cylinder 1; an exhaust pump 16 is connected through a suction tube 14 to a space part A formed between both of the transparent cylinder 1 and the glass tube 2 for observation; a cooling water storage tank 17 is connected through a water supply tube 15, to thereby constitute the space A as a space for forming a vacuum heat insulating layer when raising a temperature or as a space for introducing cooling water during a cooling period; further, an introduction pipe 5 for introducing a solution which is an observation object is connected to the glass tube 2 for observation; and the transparent cylinder 1 and the glass tube 2 for observation having such a configuration are set in a heating chamber 18 by the microwave with an openable/closable door having a transparent window.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供一种新的微波水热反应可视化细胞,用微波视觉确认,过热状态改变为储存在电池中的水溶液,以及冷却溶液时产生的变化。 解决方案:通过微波的水热反应可视化单元的构成如下:用于观察的透明耐压玻璃管2同心地储存在透明圆筒1内; 排气泵16通过抽吸管14连接到形成在透明圆筒1和玻璃管2两者之间的空间部分A,用于观察; 冷却水储存箱17通过供水管15连接,从而构成空间A,作为在升温时形成真空绝热层的空间或冷却期间作为引入冷却水的空间; 此外,用于将作为观察对象的溶液导入的导入管5连接到用于观察的玻璃管2; 并且具有这种结构的透明圆柱体1和用于观察的玻璃管2通过具有透明窗口的可开/关门的微波设置在加热室18中。 版权所有(C)2009,JPO&INPIT