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    • 6. 发明申请
    • Packaged Engine Working Machine
    • 包装发动机工作机
    • US20130316637A1
    • 2013-11-28
    • US13985472
    • 2012-02-10
    • Tatsuya KawanoMasaaki OnoKeisuke Kawakita
    • Tatsuya KawanoMasaaki OnoKeisuke Kawakita
    • F24F7/007
    • F24F7/007F01P1/00F01P2001/005F02B63/044
    • There is provided a packaged engine working machine including, in a lower space of a package an electrical component storage box adapted to be impervious to heat from the engine and intrusion of dust or the like. In a packaged engine working machine in which an engine and a working machine driven by the engine are disposed in a lower space of a package, a storage box for storing a non-heat-generating electrical component included in electrical components for the engine and working machine, and a ventilation duct having a ventilation fan for sucking outside air into the lower space are each disposed in the lower space, and the packaged engine working machine includes an introduction path through which the ventilation duct and the storage box are communicated with each other, and the outside air sucked by the ventilation fan is partially guided into the storage box.
    • 提供了一种包装的发动机工作机械,在包装的下部空间中包括适于不透过发动机的热量和灰尘等的侵入的电气部件储存箱。 在发动机和由发动机驱动的作业机械设置在包装件的下部空间中的包装发动机工作机械中,用于储存包含在用于发动机和工作的电气部件中的非发热电气部件的收纳箱 机器和具有用于吸入外部空气进入下部空间的通风扇的通风管分别设置在下部空间中,并且包装的发动机工作机械包括通气导管和收纳箱彼此连通的导入路径 并且由通风扇吸入的外部空气被部分地引导到收纳箱中。
    • 7. 发明授权
    • Engine system
    • 发动机系统
    • US08487457B2
    • 2013-07-16
    • US13391739
    • 2010-08-17
    • Toshinobu FujisawaTatsuya KawanoMasaaki Ono
    • Toshinobu FujisawaTatsuya KawanoMasaaki Ono
    • F02N11/00
    • H02M5/12H02P4/00
    • To provide an engine system with which in a case where a power supply voltage whose specification is to be changed is higher than an expected voltage, the specification of the power supply voltage from an alternating-current power supply can be changed at low cost without providing an additional transformer.An engine system 100 includes a transformer 130, a power receiving device 140, and a switcher 150, and switcher 150 connects a switching terminal 151 connected to one power receiving terminal 141 of the power receiving device 140 to either a first terminal 152 connected to one terminal 134 of a primary 131 or a second terminal 153 connected to a branch terminal 136. The engine system 100 is configured such that the other power receiving terminal 142 of the power receiving device 140 and the other terminal 135 of the primary 131 are connected and the primary 131 and an alternating-current power supply 200 are electrically connected.
    • 为了提供一种发动机系统,在其规格要变化的电源电压高于预期电压的情况下,可以以低成本改变来自交流电源的电源电压的规格而不提供 一个额外的变压器。 发动机系统100包括变压器130,电力接收装置140和切换器150,并且切换器150将连接到电力接收装置140的一个电力接收端子141的开关端子151连接到连接到电力接收装置140的第一端子152。 连接到分支终端136的初级131或第二终端153的端子134.发动机系统100被配置为使得电力接收装置140的另一个电力接收端子142和主电源131的另一个端子135连接,并且 初级131和交流电源200电连接。
    • 8. 发明申请
    • THERMOPLASTIC RESIN FOAM AND PRODUCTION PROCESS THEREOF
    • 热塑性树脂泡沫及其生产工艺
    • US20120091612A1
    • 2012-04-19
    • US13269158
    • 2011-10-07
    • Toru ItadaniMasaaki Ono
    • Toru ItadaniMasaaki Ono
    • B29C47/30
    • B29C47/30B29C44/461B29C44/468B29C47/0019B29C47/0021B29C47/0042B29C47/14B29C47/70B29K2105/04B29L2007/002
    • A die plate for a die block can have a coat-hanger-shaped flow path for extruding a molten foamable thermoplastic resin in a form of a sheet. The die plate can be on a downstream side of the coat-hanger-shaped flow path to make a flow rate of the molten foamable thermoplastic resin uniform in a width direction. The die plate can have a multiplicity of delivery apertures. The delivery apertures in opposite side regions can have a diameter greater than a diameter which the delivery apertures in a center region have. A die unit can include a die block, which has a multiple bifurcated manifold terminating in plural coat-hanger-shaped flow paths at downward ends thereof, and a like plural number of similar die plates as described above. A process for producing a wide thermoplastic resin foam can use the die unit.
    • 用于模具块的模板可以具有用于将片状的熔融可发泡热塑性树脂挤出的涂层衣架形流动路径。 模板可以在衣架形流路的下游侧,使得熔融可发泡热塑性树脂的流量在宽度方向上均匀。 模板可以具有多个输送孔。 相对侧区域中的输送孔可以具有大于中心区域中的输送孔的直径的直径。 模具单元可以包括模具块,其具有端部在其下端处的多个涂层衣架形流动路径中的多个分叉歧管以及如上所述的类似多个类似的模板。 用于生产宽热塑性树脂泡沫的方法可以使用模具单元。
    • 9. 发明授权
    • Stress detection method for sensor device with multiple axis sensor and sensor device employing this method
    • 采用这种方法的多轴传感器和传感器装置的传感器装置的应力检测方法
    • US07320253B2
    • 2008-01-22
    • US11073944
    • 2005-03-08
    • Toshio HanazawaMasaaki OnoTsutomu MiyashitaHiroshi TokunagaHiroshi Ishikawa
    • Toshio HanazawaMasaaki OnoTsutomu MiyashitaHiroshi TokunagaHiroshi Ishikawa
    • G01P15/125
    • G01P15/123G01P15/18G01P21/00G01P2015/084
    • The present invention provides the stress detection method for force sensor device with multiple axis sensor device and force sensor device employing this method, whose installation angle is arbitrary. The stress detection method includes, first and second force sensors whose detection axes are orthogonal to each other. When the detection axis of first force sensor forms angle θ with direction of detected stress Ax, and the stress component of direction perpendicular to direction of the detected stress Ax is Az, output Apx of the axis direction of first force sensor is found as Apx=αx (Ax×cos θ+Az×sin θ), and output Apz of the axis direction of the second force sensor is found as Apz=αz (Ax×sin θ+Az×cos θ), and, when αx and αz are detection sensitivity coefficients of first and second force sensors respectively, the detection sensitivity coefficient αz of second force sensor is set as αz=αx tan θ, and the detected stress Ax is found as Ax=(Apx−Apz)/αx(cos θ−tan θ×sin θ).
    • 本发明提供了具有多轴传感器装置的力传感器装置和采用该方法的力传感器装置的应力检测方法,其安装角度是任意的。 应力检测方法包括检测轴彼此正交的第一和第二力传感器。 当第一力传感器的检测轴与检测到的应力Ax的方向形成角度θ,并且垂直于检测应力的方向的方向的应力分量为Az时,第一力传感器的轴方向的输出Apx被发现为Apx = (Axxcosθ+Azxsinθ),第二力传感器的轴方向的输出Apz被找到为Apz =αz(Axxsinθ+Azxcosθ) ,并且当αx和αz分别是第一和第二力传感器的检测灵敏度系数时,第二和第二力传感器的检测灵敏度系数αz 力传感器被设置为α =α×tanθθ,并且检测到的应力Ax被发现为Ax =(Apx-Apz)/α SUB>(cosθ-tan角蛋白θ)。