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    • 3. 发明申请
    • INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD AND PROGRAM
    • 信息处理设备,信息处理方法和程序
    • US20100324701A1
    • 2010-12-23
    • US12865222
    • 2008-12-17
    • Masaru Nishimura
    • Masaru Nishimura
    • G05B11/01
    • G05B19/0426G05B2219/25367H01L21/67005
    • An information processing apparatus includes: a screen configuration unit 102 which configures a screen for receiving synchronization specifying information specifying whether each of the commands, of which a process sequence is specified, stored in a command storage unit 101 is executed in synchronization with or in asynchronization with other commands; a screen output unit 103 that outputs the configured screen; a specifying information receiving unit 104 that receives the synchronization specifying information through the outputted screen; and a command execution unit 106 which executes the commands stored in the command storage unit 101 according to the process sequence so as to execute a command specified to be synchronously executed after an execution end of an immediately previous command and a command specified to be asynchronously executed without waiting for an execution end of an immediately previous command with reference to the synchronization specifying information.
    • 一种信息处理设备,包括:屏幕配置单元102,其配置用于接收同步指定信息的屏幕,所述同步指定信息指定在命令存储单元101中存储的处理顺序被指定的每个命令是否与异步同步执行 与其他命令; 输出配置画面的画面输出部103; 指定信息接收单元104,其通过输出屏幕接收同步指定信息; 以及命令执行单元106,其根据处理顺序执行存储在命令存储单元101中的命令,以便执行在紧接着的前一个命令的执行结束和被指定为异步执行的命令之后被同步执行的命令 参照同步指定信息,不等待紧接着的上一个命令的执行结束。
    • 4. 发明申请
    • Forced Pressure Power Supply Torch
    • 强制压力电源手电筒
    • US20100206852A1
    • 2010-08-19
    • US12669146
    • 2008-09-19
    • Jun OhkuboMasaru Nishimura
    • Jun OhkuboMasaru Nishimura
    • B23K11/24
    • B23K9/26B23K9/123B23K9/295B23K9/32
    • A welding torch 30 has a first tip body 32, a pressurization shaft 43, and a second tip body 50 detachably connected to a distal end of the first tip body 32. A power supply tip 54 is accommodated in an accommodation hole 51 of the second tip body 50. The power supply tip 54 is removable from the accommodation hole 51 of the second tip body 50 after the second tip body 50 is removed from the first tip body 32. The power supply tip 54 is held in contact with the pressurization shaft 43 and urged by a compression spring 44 when the second tip body 50 is connected to the first tip body 32. A tip holder 60 is arranged at a distal end of the second tip body 50 in such a manner as to cover a distal end of the power supply tip 54.
    • 焊枪30具有可拆卸地连接到第一末端主体32的远端的第一末端主体32,加压轴43和第二末端体50.供电端头54容纳在第二末端主体32的容纳孔51中 在第二末端体50从第一末端体32移除之后,供电端头54可从第二末端体50的容纳孔51移除。供电端头54与加压轴 并且当第二末端体50连接到第一末端体32时由压缩弹簧44推压。尖端保持器60以覆盖第二末端主体50的远端的方式设置在第二末端体50的远端 电源端头54。
    • 8. 发明授权
    • Automatic fuel combustion control method and system
    • 自动燃油燃烧控制方法及系统
    • US4138725A
    • 1979-02-06
    • US819612
    • 1977-07-26
    • Zenichi IkemotoMasaru Nishimura
    • Zenichi IkemotoMasaru Nishimura
    • C10L3/00F23N1/02F23N5/00F23N5/18G06G7/58G06F15/20
    • F23N5/006F23N5/18G06G7/58F23N2025/04F23N2037/08
    • Combustion of fuels each containing at least one combustible component, wherein, while the composition of each combustible component is known, the mixture ratio of only one combustible component is yet unknown, is automatically controlled by: measuring the flow rate of each fuel, the flow rate of air for the combustion, and the percentage proportion of residual oxygen in the combustion exhaust gas; introducing the values thus measured as input into a combustible component ratio detector comprising an operational circuit according to a combustion reaction formula thereby to automatically determine the unknown combustible mixture ratio; multiplying this mixture ratio by a flow rate signal corresponding to the same fuel; and utilizing the resulting product value for automatic control of the flow rate of each fuel and the combustion air.
    • 每种含有至少一种可燃组分的燃料的燃烧,其中在已知每种可燃组分的组成的同时,仅一种可燃组分的混合比尚未知,其通过以下方式自动控制:测量每种燃料的流量,流量 燃烧用空气的比例和燃烧废气中残余氧的比例; 将如此测量的值作为输入引入到包括根据燃烧反应式的操作电路的可燃组分比率检测器中,从而自动确定未知的可燃混合比; 将该混合比乘以对应于相同燃料的流量信号; 并利用所得到的产品值来自动控制每种燃料和燃烧空气的流量。