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    • 1. 发明专利
    • Magnetic treatment apparatus
    • 磁性处理装置
    • JP2006289227A
    • 2006-10-26
    • JP2005111698
    • 2005-04-08
    • Shinichi Kondo信一 近藤
    • KONDO SHINICHI
    • C02F1/48B01J19/08
    • C02F1/481C02F2209/40
    • PROBLEM TO BE SOLVED: To provide a magnetic treatment apparatus which can satisfactorily exert magnetic action onto fluid such as water flowing in a conduit.
      SOLUTION: The magnetic treatment apparatus is equipped with a conduit 2 in which the fluid to be treated is made to flow and a magnetic field generating means 11 for generating a magnetic field acting on the fluid to be treated in the conduit. The conduit 2 is spirally wound to form a cylindrical coil section 2C and the magnetic field generating means 11 is freely rotatably provided inside the coil section. The magnetic field generating means 11 is constituted of a plurality of permanent magnets 12A and magnet holders 13 for fixing respective permanent magnets 12A. The magnet holder 13 has a core section 13A arranged at a central part of the coil section 2C and the permanent magnet 12A is provided around the core section. The magnetic field generating means 11 is rotated by an adjustable-speed motor 5 and its rotation direction is reverse to a whirling direction of the fluid to be treated in the coil section 2C.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够令人满意地对诸如在管道中流动的水等流体进行磁力作用的磁性处理装置。 解决方案:磁处理装置配备有导管2,导管2中待处理的流体被流动,以及磁场产生装置11,用于产生作用在管道中待处理流体的磁场。 导管2被螺旋卷绕以形成圆柱形线圈部分2C,并且磁场产生装置11可自由旋转地设置在线圈部分内部。 磁场产生装置11由用于固定各个永磁体12A的多个永磁体12A和磁体保持器13构成。 磁体保持件13具有布置在线圈部分2C的中心部分的芯部13A,并且永磁体12A设置在芯部周围。 磁场产生装置11由可调速马达5旋转,其旋转方向与线圈部分2C中待处理流体的旋转方向相反。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Method of heating liquid in metal container, and device for the same
    • 在金属容器中加热液体的方法及其装置
    • JP2010205703A
    • 2010-09-16
    • JP2009053102
    • 2009-03-06
    • Shinichi Kondo信一 近藤
    • KONDO SHINICHI
    • H05B6/10
    • PROBLEM TO BE SOLVED: To provide a method of heating liquid in a metal container for efficiently warming the liquid put into the metal vessel, and a device for the same. SOLUTION: Liquid in the metal container is induction-heated by a coil connected to an ac power supply and agitated by ultrasonic waves to expedite heat transfer of the liquid. The ultrasonic waves are generated by interaction of a static magnetic field generated from a static magnetic field generating means disposed in the vicinity of the coil and an eddy current generated in the metal container. In addition, low frequency vibration of 3 Hz or less is given to the metal container to agitate the liquid. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种在金属容器中加热液体以有效地加热放入金属容器中的液体的方法及其装置。 解决方案:金属容器中的液体通过连接到交流电源的线圈进行感应加热,并通过超声波进行搅动,以加速液体的传热。 超声波是通过由设置在线圈附近的静磁场产生装置产生的静磁场与在金属容器中产生的涡电流的相互作用产生的。 此外,向金属容器施加3Hz以下的低频振动以搅拌液体。 版权所有(C)2010,JPO&INPIT
    • 3. 发明专利
    • Magnetic treatment device for internal combustion engine
    • 内燃机用磁化处理装置
    • JP2008031846A
    • 2008-02-14
    • JP2006202664
    • 2006-07-26
    • Shinichi Kondo信一 近藤
    • KONDO SHINICHI
    • F02M27/04
    • Y02T10/126
    • PROBLEM TO BE SOLVED: To realize an excellent fuel consumption improving effect while ensuring satisfactory mounting property, in a magnetic treatment device for an internal combustion engine.
      SOLUTION: This magnetic treatment device for the internal combustion engine mounted on a tubular body feeding combustion air and/or fuel into the cylinder of the internal combustion engine and treating combustion air and/or fuel by the magnetic action of a magnet to enhance combustion efficiency and improve fuel consumption, has a body part formed in such a manner that two or more columnar bodies 4 made of permanent magnets polarized in a longitudinal direction, mutually having different poles on both the end surface sides and having insertion holes 41 passed therethrough along a polarizing direction in approximately conformity to their center axes, are inserted with a string-like core material 5A through the insertion holes so that the opposed end surface sides have the same pole, and are provided adjacently in a rosary-like shape at approximately the same intervals that the adjacent columnar bodies are magnetically repelled each other with at least both the end side columnar bodies disengaged. The device is mounted by being wound around an approximately peripheral direction along the peripheral surface of the tubular body.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了在确保满意的安装性能的同时实现优异的燃料消耗改善效果,在内燃机的磁治疗装置中。 解决方案:用于内燃机的该磁处理装置安装在管状体上,该管状体将燃烧空气和/或燃料供入内燃机的气缸,并通过磁铁的磁作用对燃烧空气和/或燃料进行处理 提高燃烧效率并提高燃料消耗,具有主体部分,其形成为两个或更多个永久磁体制成的柱状体4,其在长度方向上极化,在两个端面侧具有不同的极点并且具有插入孔41通过 沿着与其中心轴大致一致的偏振方向穿过插入孔,通过插入孔插入具有串状的芯材5A,使得相对的端面侧具有相同的极,并以相同的方式设置在念珠状形状 大致相同的间隔使得相邻的柱状体至少与两个端侧柱状体相互磁力排斥 脱离了 该装置通过围绕管状体的周边表面围绕大致圆周方向缠绕而安装。 版权所有(C)2008,JPO&INPIT
    • 4. 发明专利
    • Apparatus for recovering sheet, and method for recovering sheet
    • 用于恢复薄片的装置以及用于恢复薄片的方法
    • JP2012120497A
    • 2012-06-28
    • JP2010275155
    • 2010-12-09
    • Shinichi Kondo信一 近藤
    • KONDO SHINICHI
    • A01G13/00
    • PROBLEM TO BE SOLVED: To provide an apparatus and a method for recovering sheets at low cost for facilitating the reuse of the recovered sheets.SOLUTION: The sheet recovering apparatus 100 includes a cradle, a driving means 130, a first rotation part, a second rotation part to be connected to the driving means 130 to rotate in a prescribed direction, a first elastic part, a second elastic part disposed on a side closer to an outlet of the sheet recovering apparatus 100 than the first elastic part, and a support part for supporting the first rotation part. The spring constant of the second elastic part is larger than the spring constant of the first elastic part. The support part has an inclined surface downward in the vertical direction, and the direction of a horizontal component of normal vectors of the inclined surface is from an inlet to the outlet side of the sheet recovering apparatus 100.
    • 要解决的问题:提供一种用于便利回收的片材的再利用以低成本回收片材的装置和方法。 解决方案:片材回收装置100包括支架,驱动装置130,第一旋转部分,连接到驱动装置130以沿预定方向旋转的第二旋转部分,第一弹性部分,第二弹性部分 弹性部分设置在比第一弹性部分更靠近片材回收装置100的出口的一侧,以及用于支撑第一旋转部分的支撑部分。 第二弹性部的弹簧常数大于第一弹性部的弹簧常数。 支撑部分在垂直方向上具有向下倾斜的表面,倾斜表面的法向矢量的水平分量的方向是从片材回收装置100的入口到出口侧。(C) 2012年,JPO&INPIT
    • 10. 发明授权
    • Ultraviolet ray-transparent optical glass material and method of producing same
    • 紫外线透明光学玻璃材料及其制造方法
    • US06376401B1
    • 2002-04-23
    • US09387773
    • 1999-09-01
    • Shinichi KondoTakayuki NakamuraKazuhiko FukudaNaoyoshi KamisugiNobu KuzuuYoshinao IharaHidetoshi Wakamatsu
    • Shinichi KondoTakayuki NakamuraKazuhiko FukudaNaoyoshi KamisugiNobu KuzuuYoshinao IharaHidetoshi Wakamatsu
    • C03B2000
    • C03C3/06C03B19/1453C03B2201/02C03B2201/03C03B2201/04C03B2201/07C03B2201/075C03B2201/23C03C2201/11C03C2201/23C03C2203/44
    • A synthetic silica glass having a high transmittance for vacuum ultraviolet rays, for example F2 excimer laser beam with a wavelength of 157 nm, a high uniformity and a high durability and useful for ultraviolet ray-transparent optical glass materials is produced from a high-purity silicon compound, for example silicon tetrachloride, by heat treating an accumulated porous silica material at a temperature not high enough to convert the porous silica material to a transparent silica glass in an inert gas atmosphere for a time sufficient to cause the OH groups to be condensed and removed from the glass, and exhibits substantially no content of impurities other than OH group a difference between highest and lowest fictional temperatures of 50° C. or less and a transmittance of 157 nm ultraviolet rays through a 10 mm optical path of 60% or more, and optically a OH group content of 1 to 70 ppm, a Cl content less than 1 ppm, a total content of impurity metals of 50 ppb or less, a content of each individual impurity metal less than 10 ppb, and an ultraviolet ray-transmittance at 172 to 200 nm of 40% or more even after the glass is exposed to an irradiation of ultraviolet rays at 160 to 300 nm for one hour.
    • 对于真空紫外线具有高透射率的合成二氧化硅玻璃,例如波长为157nm的F2准分子激光束,高均匀性和高耐久性并且可用于紫外线透明光学玻璃材料由高纯度 硅化合物,例如四氯化硅,通过在不足够高的温度下热处理积聚的多孔二氧化硅材料,以在惰性气体气氛中将多孔二氧化硅材料转化为透明的石英玻璃足以使OH基团冷凝的时间 并且从玻璃中除去,并且基本上不含OH基团中的杂质含量,最高和最低虚构温度之间的差别为50℃或更低,通过10mm光路的157nm紫外线的透射率为60%或 更多地,光学地含有1至70ppm的OH基含量,小于1ppm的Cl含量,50ppb以下的杂质金属的总含量, 即使玻璃暴露于160〜300nm的紫外线照射1小时,每一种杂质金属小于10ppb,而在172〜200nm的紫外线透射率为40%以上。