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    • 1. 发明授权
    • Apparatus for detecting a flame using weighted time intervals
    • 用于使用加权时间间隔检测火焰的装置
    • US5227640A
    • 1993-07-13
    • US897364
    • 1992-06-11
    • Shintaro NomuraKatsuhiro Akimoto
    • Shintaro NomuraKatsuhiro Akimoto
    • F23N5/08G08B17/12
    • F23N5/082G08B17/12F23N2023/08F23N2029/00
    • In a flame detecting apparatus for detecting the flame of fire or the like using a sensor 1, a signal processing unit 3 includes a span counting section 5 for dividing a time base into several time spans, each having a predetermined time interval, and counting the number of signals output from the sensor 1 as a count value for each span, a count value storage section 6 for storing the count value for each span output from the span counting section 5, and an calculation section 7 for judging the occurrence of flame by taking into account the count values counted for the past spans which have been stored in the count value storage section 6, as well as the count value of the latest span, when the count value of the latest span is output from the span counting section 5. Because the flame occurrence judgment is preformed by taking into consideration the accumulated values of the preceding spans together with the accumulated value of the latest span, not only strong flame of short duration but also weak flame of short duration can accurately be detected.
    • 在用于使用传感器1检测火焰等的火焰检测装置中,信号处理单元3包括用于将时基划分为几个时间跨度的跨度计数部分5,每个时间间隔具有预定的时间间隔,并且对 从传感器1输出的信号数作为每个跨度的计数值,用于存储从量程计数部5输出的每个跨度的计数值的计数值存储部6以及用于判断火焰发生的计算部7 考虑到已经存储在计数值存储部分6中的过去跨度的计数值以及当从跨度计数部分5输出最近跨度的计数值时的最近跨度的计数值 由于火焰发生判断是通过考虑前一跨度的累积值以及最近跨度的累计值来实现的,不仅具有短持续时间的强烈火焰 而且能够准确地检测到短时间的弱火焰。
    • 4. 发明授权
    • Process for producing nanoparticle or nanostructure with use of nanoporous material
    • 使用纳米多孔材料生产纳米颗粒或纳米结构的方法
    • US07732015B2
    • 2010-06-08
    • US11597877
    • 2005-05-31
    • Shintaro NomuraHironori Itoh
    • Shintaro NomuraHironori Itoh
    • B05D3/12
    • A61K9/1682B82Y10/00B82Y30/00
    • A nanostructure including a nanoporous material having micropores filled with a fragmented thin-film material from the opening-side of each micropore, the nanoporous material being obtained by placing a thin-film material on a surface of a nanoporous material and pressing the thin-film material so that the thin-film material is cut out at the surface edge of each micropore of the nanoporous material and pressed into the micropore. By removing the nanoporous material form the nanoporous material, microparticles constituted from the thin-film material that filled the nanoporous material are obtained. By covering all the wall surfaces of the micropores of the nanoporous material in advance, nanocapsules each constituted from a tubular structure composed of the thin film covering the entire wall surface of the micropore and a cover made of a thin-film material filled in the vicinity of the opening of the micropore can be formed.
    • 一种纳米结构体,其纳米多孔材料具有从每个微孔的开口侧填充有片状薄膜材料的微孔,纳米多孔材料通过将薄膜材料放置在纳米多孔材料的表面上并将薄膜 材料,使得薄膜材料在纳米多孔材料的每个微孔的表面边缘处切割并压入微孔中。 通过从纳米多孔材料中除去纳米多孔材料,获得由填充纳米多孔材料的薄膜材料构成的微粒。 通过预先覆盖纳米多孔材料的微孔的所有壁表面,每个由​​覆盖微孔整个壁表面的薄膜构成的管状结构的纳米胶囊和填充在附近的薄膜材料制成的盖 可以形成微孔的开口。
    • 6. 发明申请
    • Process For Producing Nanoparticle Or Nanostructure With Use Of Nanoporous Material
    • 使用纳米材料生产纳米颗粒或纳米结构的方法
    • US20080085364A1
    • 2008-04-10
    • US11597877
    • 2005-05-31
    • Shintaro NomuraHironori Itoh
    • Shintaro NomuraHironori Itoh
    • B05D5/00
    • A61K9/1682B82Y10/00B82Y30/00
    • An object is to produce uniformly sized, nanosized microparticles in a short time in large numbers by a simple procedure. Although a technique of filling micropores of nanoporous material with a metal from the bottoms of the micropores by electrodeposition or by a sol-gel method has been available, there has been no process for covering the openings of the micropores or process for producing nanocapsules.A nanostructure including a nanoporous material having micropores filled with a fragmented thin-film material from the opening-side of each micropore, the nanoporous material being obtained by placing a thin-film material on a surface of a nanoporous material and pressing the thin-film material so that the thin-film material is cut out at the surface edge of each micropore of the nanoporous material and pressed into the micropore. By removing the nanoporous material form the nanoporous material, microparticles constituted from the thin-film material that filled the nanoporous material are obtained. By covering all the wall surfaces of the micropores of the nanoporous material in advance, nanocapsules each constituted from a tubular structure composed of the thin film covering the entire wall surface of the micropore and a cover made of a thin-film material filled in the vicinity of the opening of the micropore can be formed.
    • 目的是通过简单的方法大量地在短时间内产生均匀尺寸的纳米尺寸微粒。 虽然可以通过电沉积或通过溶胶 - 凝胶法从微孔的底部用金属填充纳米多孔材料的微孔的技术,但是没有覆盖微孔的开口或用于制备纳米胶囊的方法的方法。 一种纳米结构体,其纳米多孔材料具有从每个微孔的开口侧填充有片状薄膜材料的微孔,纳米多孔材料通过将薄膜材料放置在纳米多孔材料的表面上并将薄膜 材料,使得薄膜材料在纳米多孔材料的每个微孔的表面边缘处切割并压入微孔中。 通过从纳米多孔材料中除去纳米多孔材料,获得由填充纳米多孔材料的薄膜材料构成的微粒。 通过预先覆盖纳米多孔材料的微孔的所有壁表面,每个由​​覆盖微孔整个壁表面的薄膜构成的管状结构的纳米胶囊和填充在附近的薄膜材料制成的盖 可以形成微孔的开口。