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    • 1. 发明专利
    • Ion generator and method for urging complete combustion of internal combustion engine using same
    • 离子发生器和使用其的内燃机整体燃烧的方法
    • JP2007009821A
    • 2007-01-18
    • JP2005192385
    • 2005-06-30
    • Masataka Sato正孝 佐藤
    • SATO MASATAKA
    • F02M27/04F02M27/06
    • PROBLEM TO BE SOLVED: To provide an ion generator installed in an intake route or a fuel route of an internal combustion engine.
      SOLUTION: A member which ionized powder is applied on or mixed in is sealed in a heat resistant sack body and is formed in a belt shape or a plate shape. First roast in which fine-grained material eggshell is put in a roast furnace, temperature in the furnace is kept at about 1000°C, the eggshell is roasted by direct fire at about 1300°C under excess air condition, and the eggshell is mixed well is performed until organic matter of the material eggshell burns and color of the eggshell turns to dark red. The eggshell after first roast is subjected to second roast for two to three hours until color of the eggshell turns to bright red or yellowish red by direct fire at 1300-1500°C in the roast furnace where temperature is kept 1300°C or higher. The eggshell left in atmospheric temperature for at least 3 hours is subjected to third roast for about two hours till oxygen group and hydroxide group is removed and color turns to shiny white or diamond color by direct fire at 1300-1500°C. Cooled eggshell after third roast is fine-grained to form the ionized powder.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种安装在内燃机的进气路径或燃料路径中的离子发生器。 解决方案:将电离粉末的构件或其混合物密封在耐热袋体中并形成为带状或板状。 首先将细粒材料蛋壳放入烤炉中,炉内温度保持在约1000℃,蛋壳在过量空气下在1300℃左右直接焙烧,蛋壳混合 很好地进行,直到材料蛋壳的有机物燃烧,蛋壳的颜色变成深红色。 第一次焙烤后的蛋壳经受第二次烤2〜3小时,直到在1300〜1500℃的直接火焰中,蛋壳的颜色在温度保持在1300℃以上的烘箱中变成亮红色或黄红色。 在大气温度下放置至少3小时的蛋壳经受第三次烘烤约2小时,直到氧基团和氢氧根去除,颜色在1300-1500℃直接燃烧时变成闪亮的白色或金刚石色。 第三次烤后冷却的蛋壳细粒化,形成电离粉末。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Egg-shell ion powder and method for producing the same
    • EGG-SHELL ION POWDER及其生产方法
    • JP2006246706A
    • 2006-09-21
    • JP2005063382
    • 2005-03-08
    • Masataka Sato正孝 佐藤
    • SATO MASATAKA
    • A23L1/312A23L1/304
    • PROBLEM TO BE SOLVED: To provide egg-shell ion powder obtained through extracting calcium components and magnesium components which are main ingredients of egg shells separated from egg yolk and albumen, via roasting, and diluted with water to be usable as water solution: and to provide a method for producing egg-shell ion powder. SOLUTION: The egg-shell ion powder is produced through the following process: charging granulated raw material egg shells into a roasting furnace; subjecting the egg shells to first roasting to roast the egg shells via direct fire at about 1,300°C in excess air while keeping the temperature in the furnace to be at about 1,000°C, and sufficiently stirring the egg shells until organic materials in the raw material egg shells are burned out and turn into dark red; subjecting the egg shells to second roasting for 2-3 hours in the roasting furnace while keeping the temperature in the furnace at ≥1,300°C until the egg shells turn into red or reddish yellow via direct fire at 1,300-1,500°C for 2-3 hours; subjecting the egg shells left as it is for 3 weeks or more to third roasting via direct fire at 1,300-1,500°C until oxygen radical and hydrogen radical in the egg shells are eliminated to turn into white or diamond color for 2 hours; and pulverizing the egg shells subjected to the third roasting. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供通过从蛋黄和白蛋白中分离蛋壳的主要成分提取钙成分和镁成分得到的蛋壳离子粉末,经焙烧,并用水稀释成水溶液 并提供生产蛋壳离子粉的方法。 解决方案:通过以下方法生产蛋壳离子粉:将粒状原料蛋壳装入焙烧炉中; 蛋壳首先经过大约1300°C的直接火焰焙烧蛋壳,同时保持炉内的温度在约1000℃,并充分搅拌蛋壳直到原料中的有机物质 物质蛋壳被烧掉,变成深红色; 在焙烧炉中对蛋壳进行第二次焙烧2-3小时,同时将炉内的温度保持在≥1300℃,直到蛋壳在1300-1,500℃直接火焰变成红色或浅黄黄色为2- 3小时; 在1,300-1,500℃直接火焰使鸡蛋壳持续3周以上进行三次焙烧,直到蛋壳中的氧自由基和氢根被消除,变成白色或菱形2小时; 并粉碎经过第三次焙烧的蛋壳。 版权所有(C)2006,JPO&NCIPI
    • 4. 发明专利
    • Eggshell ion water generating/supplying apparatus
    • EGGSHELL离子水生成/供应装置
    • JP2006297177A
    • 2006-11-02
    • JP2005117931
    • 2005-04-15
    • Masataka SatoYasuhiro Suzuki正孝 佐藤康弘 鈴木
    • SATO MASATAKASUZUKI YASUHIRO
    • C02F1/68A01K39/02A01N3/02A01N25/02A01N59/06C02F1/50C09K17/02C09K101/00C09K109/00
    • PROBLEM TO BE SOLVED: To provide an eggshell ion water generating/supplying apparatus which generates eggshell ion water by dissolving eggshell ion powder in water and diluting it to a desired pH, and supplies the eggshell water to various objects using it.
      SOLUTION: The eggshell ion water-generating/supplying apparatus comprises a water supply control means having a stock solution tank and a diluted solution tank, setting the water supply amount of water or hot water to supply the water from a water supply source to the stock solution tank, and dissolving the eggshell ion powder charged in the stock solution tank and diluting the solution to a fixed dilution ratio to obtain stock ion water, an agitation means agitating the stock ion water, a stock ion water sending means sending the stock ion water to the diluted solution tank and capable of setting the flow rate, and a dilution control means supplying water or hot water from the water supply source to the diluted solution tank to dilute the stock ion water and capable of setting the flow rate, and has a supply means for fixing one of the flow rates of the stock ion water sending means and dilution control means and controlling the other flow rate, or controlling both flow rates to generates eggshell ion water achieving a target dilution ratio or pH, and supplying the eggshell ion water to the objects using it.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种蛋壳离子发生/供应装置,其通过将蛋壳离子粉溶解在水中并将其稀释至期望的pH并产生蛋壳离子水,并将蛋壳水供应给使用它的各种物体。 解决方案:蛋壳离子发生/供给装置包括一个供水控制装置,该供水控制装置具有储备溶液箱和一个稀释的溶液罐,设定供水量或热水以便从供水源 将储存在储液罐中的蛋壳离子粉末溶解并将溶液稀释至固定稀释比例,得到原料离子水,搅拌装置搅拌原料离子水;原料离子水送出装置, 将稀释的溶液罐中的离子水加入到稀释溶液罐中并能够设定流量;以及稀释控制装置,将来自供水源的水或热水供给到稀释溶液罐中以稀释原料离子水并能够设定流量, 并且具有用于固定原料离子供水装置和稀释控制装置的流量之一并控制另一流量的供给装置,或将两个流量控制到ge 神经元蛋壳离子水达到目标稀释比或pH,并将蛋壳离子水提供给使用它的物体。 版权所有(C)2007,JPO&INPIT
    • 5. 发明专利
    • Stick implement used for health exercise and also for environmental clean-up
    • 用于健康锻炼的STICK实施也用于环境清洁
    • JP2010240371A
    • 2010-10-28
    • JP2009112309
    • 2009-04-09
    • Masataka Sato雅堂 佐藤
    • SATO MASATAKA
    • A45B9/02A45B9/04
    • PROBLEM TO BE SOLVED: To provide a stick implement used for health exercise and also for environmental clean-up allowing trash, fallen leaves, or the like to be easily collected in an easy posture while standing without taking a tiring posture during a walk with a stick.
      SOLUTION: The stick implement used for health exercise and environmental clean-up is formed by allowing a rod-like sliding shaft provided with a stick handle at the upper end, to pass through a hollow shaft, mounting a hard peg fixing part into a position of about the middle height of the sliding shaft, providing the hard peg fixing part with a peg, mounting a hard long needle fixing part to the lower part end of the sliding shaft, providing the hard long needle fixing part with a plurality of long needles such as four long needles, providing a long cavity vertically from about the middle of the hollow shaft to almost the near side of the upper end, providing both ends of the long cavity with fixing cavities, and mounting a detachable end protective cushion made of hard rubber or the like, to the end of the hollow shaft.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种用于健康运动的棍子器具,并且还用于环境清洁,允许垃圾,落叶等容易地以容易的姿态收集,同时站立时不会疲劳的姿势 用棍子走。

      解决方案:用于健康运动和环境清洁的棒器具通过允许在上端设置有手柄的杆状滑动轴穿过中空轴而形成,安装硬栓固定部分 进入到滑动轴的中间高度的位置,为硬质固定部提供栓钉,将硬长针固定部分安装到滑动轴的下部端部,从而提供具有多个 的长针,例如四根长的针,从中空轴的中部垂直提供长的腔,几乎靠近上端,使长腔的两端具有固定腔,并安装一个可拆卸的端部保护垫 由硬橡胶等制成到空心轴的端部。 版权所有(C)2011,JPO&INPIT

    • 6. 发明授权
    • Optical adjusting member and illumination device and liquid crystal display device including the same
    • 光学调整构件和照明装置以及包括其的液晶显示装置
    • US08368839B2
    • 2013-02-05
    • US12129486
    • 2008-05-29
    • Katsusuke ShimazakiYoichi OgawaMasataka SatoEiji Koyama
    • Katsusuke ShimazakiYoichi OgawaMasataka SatoEiji Koyama
    • G02F1/1335
    • G02B5/045G02B6/0053
    • An optical adjusting member according to the invention includes a base member having optical transparency and a plurality of linear members provided on the base member and having optical transparency. A section of the linear member orthogonal to the lengthwise direction of the linear member includes a triangular first sectional part defined by first to third sides and an approximately triangular second sectional part. The second sectional part has a smaller area than that of the first sectional part and defined by fourth to sixth sides. The first side of the first sectional part is in contact with the surface of the base member. The second sectional part is formed on the second side of the first sectional part, and the fourth side of the second sectional part is in contact with the second side of the first sectional part.
    • 根据本发明的光学调节构件包括具有光学透明度的基底构件和设置在基底构件上并具有光学透明度的多个线性构件。 与直线部件的长度方向垂直的直线部件的一部分包括由第一至第三侧限定的三角形的第一截面部和大致三角形的第二截面部。 第二截面部分具有比第一截面部分小的面积,并且由第四至第六侧限定。 第一截面部分的第一侧与基部构件的表面接触。 第二截面部分形成在第一截面部分的第二侧上,第二截面部分的第四侧与第一截面部分的第二侧接触。
    • 9. 发明申请
    • PRODUCTION METHOD OF OPTICAL TRANSMISSION MEDIUM
    • 光传输介质的生产方法
    • US20090069514A1
    • 2009-03-12
    • US12160127
    • 2007-01-23
    • Masataka Sato
    • Masataka Sato
    • C08F2/01
    • G02B6/02033B29D11/00721
    • A polymerization initiator, a first polymerizable compound, and a second polymerizable compound are poured into a hollow of a first member (12). The first and second polymerizable compounds are copolymerized to produce a second member (16). The second member (16) is produced by forming a first layer (21) on an inner wall of the first member (12) and sequentially forming a layer over a precedingly formed layer. To form each layer, the first and second polymerizable compounds are put in the hollow of the first member (12), satisfying 1/99≦W2/(W1+W2)≦2/3 when W1 is a weight of the first polymerizable compound, and W2 is a weight of the second polymerizable compound. The first and second polymerizable compounds are mixed such that the value of W2/(W1+W2) increases from the first layer (21) toward an nth layer.
    • 将聚合引发剂,第一可聚合化合物和第二可聚合化合物注入到第一构件(12)的中空部中。 共聚第一和第二可聚合化合物以产生第二构件(16)。 第二构件(16)通过在第一构件(12)的内壁上形成第一层(21)并在先前形成的层上依次形成层来制造。 为了形成各层,当W1是第一组分(12)的重量时,将第一和第二可聚合化合物放入第一组分(12)的中空部分中,满足1/99 <= W2 /(W1 + W2)<= 2/3 聚合性化合物,W2为第二聚合性化合物的重量。 混合第一和第二可聚合化合物,使得W2 /(W1 + W2)的值从第一层(21)向第n层增加。