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    • 2. 发明授权
    • Combustion power tool
    • 燃烧电动工具
    • US07444963B2
    • 2008-11-04
    • US11777708
    • 2007-07-13
    • Katsutoshi Tanaka
    • Katsutoshi Tanaka
    • F02B71/00
    • B25C1/08
    • It is an object of the invention to provide a reliable ignition by a spark plug in a combustion power tool. Representative combustion power tool may comprise a combustion chamber, a gas supply section, a single spark plug, an ignition control device, a cylinder connected to the combustion chamber, a piston member and a tool member. The ignition control device includes a plurality of ignition circuits connected to the single spark plug to independently input power to the spark plug, and a control section that controls the manner of power input in each of the ignition circuits. According to such construction, power input in each of the ignition circuits can be controlled and therefore, a desired power output at the single spark plug can be realized.
    • 本发明的目的是提供一种通过火花塞在燃烧电动工具中的可靠点火。 代表性的燃烧动力工具可以包括燃烧室,气体供应部分,单个火花塞,点火控制装置,连接到燃烧室的气缸,活塞构件和工具构件。 点火控制装置包括连接到单个火花塞以独立地向火花塞输入动力的多个点火电路和控制每个点火电路中的电力输入方式的控制部分。 根据这样的结构,能够控制各个点火电路的动力输入,能够实现单个火花塞的期望的动力输出。
    • 8. 发明授权
    • Three-dimensionally connected silica spheres-resin composite and method
for production thereof
    • 三维连接二氧化硅球 - 树脂复合材料及其生产方法
    • US6071997A
    • 2000-06-06
    • US856487
    • 1997-05-14
    • Yuko TanakaMuneaki YamaguchiHiromasa OgawaKatsutoshi Tanaka
    • Yuko TanakaMuneaki YamaguchiHiromasa OgawaKatsutoshi Tanaka
    • C08G77/04C01B33/12C03B8/02C03B20/00C04B41/83C08G77/06C08K7/16C08K7/22C08K9/04C08K9/06C08L83/00C08L83/07C08K3/34C08K3/36
    • C08K9/06
    • A three-dimensional composite of silica spheres interconnected by resin is provided having a three-dimensional network structure including silica particles having the following structural and dynamic characteristics and a resin present in the internal pores of said network:(a) three-dimensionally interconnected spherical silica particles having a diameter of 6 to 30 .mu.m;(b) on the surface of said spherical silica particles, a specific surface area of 300 to 400 m.sup.2 /g and pores having a radius of 5 to 10 nm;(c) a bond interconnecting two spherical silica particles having a cross-sectional area within the range of 1/2 to 1/4 of the maximum cross-sectional area of that particle which is smaller in maximum cross-sectional area;(d) mutually communicating voids formed within said network structure representing a void content which is 40 to 60%, based on the whole network structure;(e) a silica content is 60 to 80% by weight based on the whole network structure;(f) the network structure substantially remaining intact when said network structure is heat-treated by maintaining said network structure in air both at a temperature of 600.degree. C. for 5 hours and at a temperature of 800.degree. C. for 3 hours;(g) said network structure capable of being machined and having an elasticity modulus of 1.5 to 2.0 GPa at temperatures below the glass transition temperature and an elasticity modulus of 0.18 to 0.25 GPa at temperatures between the glass transition point and 300.degree. C.
    • 提供了由树脂相互连接的二氧化硅球体的三维复合物,其具有包括具有以下结构和动力学特性的二氧化硅颗粒和存在于所述网络的内部孔中的树脂的三维网状结构:(a)三维互连的球形 二氧化硅粒子直径为6〜30μm; (b)在所述球形二氧化硅粒子的表面上,比表面积为300〜400m 2 / g,半径为5〜10nm的孔; (c)将两个球形二氧化硅颗粒互相连接,该颗粒的横截面积为+ E,fra 1/2 + EE至+ E的范围内,该颗粒的最大横截面面积为1/4 + EE 最大横截面积较小; (d)基于整个网络结构,在所述网络结构内形成的表示空隙含量为40〜60%的相互通信的空隙; (e)基于整个网络结构,二氧化硅含量为60〜80重量% (f)当所述网络结构通过在600℃的温度下在空气中维持5小时,在800℃的温度下维持3小时来对所述网络结构进行热处理时,网络结构基本上保持完整; (g)在低于玻璃化转变温度的温度下,在玻璃化转变温度和300℃之间的温度下,能够加工的网状结构,弹性模量为1.5-2.0GPa,弹性模量为0.18-0.25GPa。
    • 10. 发明授权
    • Methods and apparatus for managing a plurality of charging devices via a network
    • 经由网络管理多个充电装置的方法和装置
    • US07045989B2
    • 2006-05-16
    • US10125665
    • 2002-04-17
    • Kazuyuki SakakibaraKatsutoshi Tanaka
    • Kazuyuki SakakibaraKatsutoshi Tanaka
    • H02J7/00
    • H02J7/0021H02J7/0026
    • A plurality of charging devices 30 may be connected to a computer 10, 110 via a network 60. When computer 10 receives chewing information from a charging device 30 before performing a charging operation, computer 10 may compute the optimal charging period based upon the charging information. Parameters defining the optimal charging period may be transmitted to the respective charging devices 30. Each charging device 30 may perform the battery charging operation based upon the transmitted parameters. Thus, a network system can manage and control the charging operations for the plurality of charging devices in order to optimize charging period, optimize the number of charging devices 30 and battery packs 50 in use and maximize battery life.
    • 多个充电装置30可以经由网络60连接到计算机10,110。 当计算机10在执行充电操作之前从充电装置30接收到咀嚼信息时,计算机10可以基于计费信息来计算最佳充电周期。 定义最佳充电周期的参数可以被发送到相应的充电装置30。 每个充电装置30可以基于所传送的参数来执行电池充电操作。 因此,网络系统可以管理和控制多个充电装置的充电操作,以便优化充电周期,优化充电装置30和使用中的电池组50的数量并最大化电池寿命。