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    • 2. 发明专利
    • Deodorizing method and deodorizing apparatus
    • 除臭方法和除臭装置
    • JP2005046471A
    • 2005-02-24
    • JP2003283313
    • 2003-07-31
    • Shoichi Mori正一 森
    • MORI SHOICHI
    • A61L9/01A61L9/16B01J20/24
    • PROBLEM TO BE SOLVED: To provide a deodorizing method and a deodorizing apparatus capable of easily collecting material in which microorganisms live, suppressing the maintenance of the material to a low cost and positively exhibiting a deodorizing function.
      SOLUTION: Malodorous air caused by volatilization of malodorous components is brought into contact with an adsorptive material S composed of grass, to collect the malodorous components of the malodorous air by the adsorptive material S. The malodorous components are decomposed by the microorganisms living in the adsorptive material S. The adsorptive material S is cut grass of weeds, and the carbon rate of carbon/nitrogen in the cut grass of weeds is 40 or less.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种能够容易地收集微生物的物质的除臭方法和除臭装置,能够以低成本抑制材料的维持,并且显示出除臭功能。

      解决方案:由恶臭成分挥发引起的恶臭与由草组成的吸附材料S接触,通过吸附材料S收集恶臭空气的恶臭成分。恶臭成分被微生物分解 在吸附材料S中。吸附材料S是杂草的草,杂草的切草中的碳/氮的碳速率为40以下。 版权所有(C)2005,JPO&NCIPI

    • 5. 发明授权
    • Fibrous apatite and method for producing the same
    • 纤维磷灰石及其制造方法
    • US4659617A
    • 1987-04-21
    • US773482
    • 1985-09-06
    • Shigeo FujiiShoichi MoriJyoichi Tabuchi
    • Shigeo FujiiShoichi MoriJyoichi Tabuchi
    • A61F2/00A61L27/12C12N1/00D01F9/08B32B7/02C01B15/16A61C8/00B29C33/40
    • C12N1/00A61L27/12D01F9/08A61F2310/00293Y10T428/249921
    • The present invention provides a fibrous product of apatite comprising one or more apatites selected from a group of apatites represented by the general formula:M.sub.10 (ZO.sub.4).sub.6 X.sub.2wherein M represents Ca, Ba, Mg, Sr, Pb, Cd, Fe and the like, ZO.sub.4 represents PO.sub.4, AsO.sub.4, VO.sub.4, CO.sub.3 and the like, and X represents F, Cl, OH and the like. This fibrous product of apatite has many applications such as uses for medical treatment, large scale microorganism cultivating media and others, and particularly it is useful as apatite implant materials having a good compatibility with living organism and superior workability.A fibrous apatite product of this invention may be produced by a method comprising the steps of:(a) preparing a dispersion of apatite by dispersing fine apatite particles uniformly in a solution of binder in water, said apatite being one or more apatites selected from a group of apatites represented by the general formula:M.sub.10 (ZO.sub.4).sub.6 X.sub.2 wherein M represents Ca, Ba, Mg, Sr, Pb, Cd, Fe and the like, ZO.sub.4 represents PO.sub.4, AsO.sub.4, VO.sub.4, CO.sub.3 and the like, and X represents F, Cl, OH and the like;(b) continuously exctruding the thus prepared dispersion through a plurality of spinning orifices in a spinning apparatus while simultaneously stretching the dispersion into a fibrous state with the aid of a high speed air flow to form a stream of fine fibers;(c) heating said fiber stream to evaporate the water in the fibers;(d) blowing said dewatered fiber stream upon a collector means to form a cotton-like product of apatite bonded together by the binder; and(e) if desired, calcining said cotton-like product.
    • 本发明提供一种磷灰石的纤维制品,其包含一种或多种选自以下通式代表的磷灰石的磷灰石:M10(ZO4)6X2,其中M表示Ca,Ba,Mg,Sr,Pb,Cd,Fe等 ,ZO4表示PO4,AsO4,VO4,CO3等,X表示F,Cl,OH等。 磷灰石的这种纤维状产品具有许多用途,例如医疗用途,大规模微生物培养基等,特别适用于与活体相容性好,加工性好的磷灰石植入材料。 本发明的纤维状磷灰石产品可以通过包括以下步骤的方法制备:(a)通过将细磷灰石颗粒均匀地分散在粘合剂的水溶液中来制备磷灰石的分散体,所述磷灰石是一种或多种磷灰石,其选自 由通式M10(ZO4)6X2表示的磷灰石组,其中M表示Ca,Ba,Mg,Sr,Pb,Cd,Fe等,ZO4表示PO4,AsO4,VO4,CO3等,X表示 F,Cl,OH等; (b)通过纺丝设备中的多个纺丝孔连续地将这样制备的分散体除去,同时借助高速空气流将分散体拉伸成纤维状态,形成细纤维流; (c)加热所述纤维流以蒸发纤维中的水; (d)将所述脱水纤维流吹送到收集器装置上以形成通过粘合剂粘合在一起的磷灰石的棉状产品; 和(e)如果需要,煅烧所述棉状产品。
    • 6. 发明申请
    • Substrate Carrier Measuring Jig, Collision Preventing Jig, and Collision Preventing Method Using the Collision Preventing Jig
    • 基板载具测量夹具,防撞夹具和碰撞防止方法使用碰撞防止夹具
    • US20120118083A1
    • 2012-05-17
    • US13259736
    • 2010-04-12
    • Shoichi MoriHirofumi Nakamura
    • Shoichi MoriHirofumi Nakamura
    • B01L3/00
    • H01L21/681H01L21/67259H01L21/67265
    • [Objective] To provide a wafer carrier measuring jig which can measure a slot height of a wafer carrier placed on a load port and which can determine whether or not an arbitrary slot is horizontal, a collision preventing jig, and a collision preventing method using the collision preventing jig.[Means for Solution] A wafer carrier measuring jig includes a base member 21 having a carrier placement section 210 where three kinematic pins 211 are disposed in correspondence with three V-shaped grooves provided on the bottom surface of a wafer carrier 10 having a pair of slot sections 12 where wafers 11 are accommodated; a measuring means 22 fixedly provided on the base member 21 and having sensors 250 for measuring height from a predetermined reference value, slot pitch, and slot horizontality with respect to at least some slots in the two slot sections 12; and a write means provided in the carrier placement section 210 of the base member 21 and adapted to write information from the measuring means 22 to an ID information storage means provided in the wafer carrier 10.
    • [目的]提供一种晶片载体测量夹具,其可以测量放置在负载端口上的晶片载体的槽高度,并且可以确定任意槽是否水平,防碰撞夹具以及使用 防撞夹具 [解决方案]晶片载体测量夹具包括:基部构件21,其具有载体放置部210,其中三个运动销211与设置在具有一对的晶片载体10的底面上的三个V形槽对应地设置 狭槽部分12,其中容纳晶片11; 固定地设置在基座构件21上的测量装置22,具有用于相对于两个狭槽部分12中的至少一些狭槽从预定基准值,槽间距和槽水平度测量高度的传感器250; 以及设置在基座构件21的载体放置部分210中并适于将信息从测量装置22写入设置在晶片载体10中的ID信息存储装置的写入装置。
    • 9. 发明授权
    • Countercurrent liquid-solid contacting apparatus
    • 逆流液固接触装置
    • US4229292A
    • 1980-10-21
    • US865328
    • 1977-12-28
    • Shoichi MoriYorifumi IkedaKikuo Nishikawa
    • Shoichi MoriYorifumi IkedaKikuo Nishikawa
    • B01D24/46B01D15/02B01D33/00B01J49/00C02F1/28B01D15/06
    • C02F1/28B01D15/02B01D2215/021
    • A countercurrent liquid-solid contacting apparatus comprises a liquid purifying column for substantially purifying a liquid by passing the liquid upwardly through a bed of purifying material and a regenerating column for regenerating the purifying material used fo purify the liquid. The liquid purifying column includes supply and transfer ports defined respectively at the top and bottom thereof and has therein the bed of purifying material which is spaced a predetermined distance from the top of the liquid treating column to provide a vacant space. The purifying column further includes a liquid inlet and outlet with a portion of the purifying bed above the liquid outlet serving as a settling layer to avoid any possible fluidization and/or expansion of the purifying material. The regenerating column is similar in construction to the construction of the purifying column, however, compressed air and washing liquid are successively or simultaneously supplied into the regenerating column to fluidize the soiled purifying material and separate suspended solids from the soiled purifying particles. The regenerated purifying material is continuously or intermittently supplied into the purifying column. A method therefor is also disclosed.
    • 逆流液固接触装置包括:液体净化塔,用于通过将液体向上通过净化材料床和用于再生用于净化液体的净化材料的再生塔来基本上净化液体。 液体净化塔包括分别位于其顶部和底部的供给和输送口,并且在其中具有与液体处理塔的顶部隔开预定距离的净化材料床,以提供空的空间。 净化塔还包括液体入口和出口,其中在液体出口上方的净化床的一部分用作沉降层,以避免净化材料的任何可能的流化和/或膨胀。 再生塔在结构上类似于净化塔的构造,然而,压缩空气和洗涤液依次或同时地供应到再生塔中,以使污染的净化材料流化,并将悬浮固体与污染的净化颗粒分离。 再生净化材料连续或间歇地供入净化塔。 还公开了一种其方法。