会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • SOLAR CELL MODULE
    • 太阳能电池模块
    • US20140338719A1
    • 2014-11-20
    • US14344251
    • 2012-09-13
    • Naoya KobamotoYuta ShinikeTakafumi MiyakeMasayasu Yoshioka
    • Naoya KobamotoYuta ShinikeTakafumi MiyakeMasayasu Yoshioka
    • H01L31/05H01L31/0224
    • H01L31/0508H01L31/022433Y02E10/50
    • A solar cell module comprises a plurality of solar cell elements including a front surface electrode and a wiring member electrically interconnecting the solar cell elements. The front surface electrode includes a bus bar electrode and finger electrodes, the finger electrodes including a plurality of first finger electrodes and connected to the bus bar electrode, and a plurality of second finger electrodes not connected to the bus bar electrode. The front surface electrode further includes a fine wire electrode that is disposed in a region extending from the bus bar electrode in a longitudinal direction of the bus bar electrode and that is electrically connected to the second finger electrodes, the fine wire electrode including first and second fine wire electrodes intersecting to each other. The wiring member is connected to an intersection of the first and second fine wire electrodes and to the bus bar electrode.
    • 太阳能电池模块包括多个太阳能电池元件,其包括前表面电极和将太阳能电池元件电连接的布线构件。 前表面电极包括母线电极和指状电极,手指电极包括多个第一指状电极并连接到母线电极,以及多个第二指状电极未连接到母线电极。 前表面电极还包括细线电极,该细线电极设置在从汇流条电极沿汇流条电极的纵向方向延伸并且与第二指状电极电连接的区域中,细线电极包括第一和第二 细线电极彼此相交。 布线构件连接到第一和第二细线电极和母线电极的交叉点。
    • 2. 发明申请
    • TRAVELING VEHICLE
    • 旅行车
    • US20100017107A1
    • 2010-01-21
    • US12518782
    • 2007-12-26
    • Takafumi MiyakeKatsunori Doi
    • Takafumi MiyakeKatsunori Doi
    • G06F19/00
    • B62K17/00A61G5/041B62K11/007Y02T10/7258
    • A traveling vehicle (1) includes a vehicle body (2) that has an occupant mounting portion that mounts an occupant, and a wheel (8) that is provided on a shaft and rotatably supported on the vehicle body (2). The traveling vehicle (1) is characterized by including: occupant dismount detection means (152) that detects the occupant getting of the occupant mounting portion (3); and control means (100) that has a center of gravity position correcting function that holds a center of gravity position of the traveling vehicle (1) on a vertical line that passes through a center of the wheel (8), wherein the control means (100) cancels the center of gravity position correcting function if the occupant dismount detection means (152) detects the occupant getting off.
    • 行驶车辆(1)包括具有安装乘员的乘员安装部的车体(2)和设置在轴上并可旋转地支撑在车体(2)上的车轮(8)。 行驶车辆(1)的特征在于包括:乘员下载检测单元(152),其检测乘员安装部(3)的乘员; 以及控制装置(100),其具有将行进车辆(1)的重心位置保持在通过车轮(8)的中心的垂直线上的重心位置校正功能,其中,控制装置 100)如果乘员拆卸检测装置(152)检测到乘员下车,则取消重心位置校正功能。
    • 5. 发明申请
    • SOLAR CELL MODULE MANUFACTURING DEVICE AND SOLAR CELL MODULE MANUFACTURING METHOD
    • 太阳能电池模块制造设备和太阳能电池模块制造方法
    • US20130164863A1
    • 2013-06-27
    • US13819939
    • 2011-08-30
    • Takafumi MiyakeKoki Oda
    • Takafumi MiyakeKoki Oda
    • H01L31/18B21F3/00
    • B21F1/02B21C47/20H01L31/0508H01L31/18H01L31/188Y02E10/50
    • A solar cell module manufacturing device is disclosed. The device includes a wire supply portion, a correction portion, and a cutting portion. The supply portion includes a bobbin and wiring material on the bobbin. The correction portion corrects curvature of the wiring material. The correction portion comprises a first pulley that comes in contact with the wiring material which is drawn from the bobbin. The first pulley comprises at a periphery thereof a first groove. The first groove comprises a first basal surface and a pair of first inclined surfaces which are arranged on both sides of the first basal surface. An inclination angle θ1 of the first inclined surface relative to the first basal surface being less than or equal to an inclination angle θ2 of the wiring material which is drawn from the supply portion relative to the first basal surface.
    • 公开了太阳能电池模块制造装置。 该装置包括电线供应部分,校正部分和切割部分。 供给部分包括线轴上的线轴和布线材料。 校正部校正配线材料的曲率。 校正部包括与从线轴抽出的配线材料接触的第一带轮。 第一滑轮在其周围包括第一凹槽。 第一凹槽包括第一基面和布置在第一基面两侧的一对第一倾斜表面。 第一倾斜表面相对于第一基面的倾斜角度θ1小于或等于从供给部分相对于第一基面拉出的布线材料的倾斜角度θ2。
    • 6. 发明授权
    • Vehicle control device
    • 车辆控制装置
    • US08352147B2
    • 2013-01-08
    • US12734582
    • 2008-10-23
    • Takafumi MiyakeKoki Hayashi
    • Takafumi MiyakeKoki Hayashi
    • G08G1/09B62K3/00B62K17/00
    • B62K11/007B60W2030/041
    • To provide a vehicle control device that improves the accuracy of an automatic follow-up control in an inverted pendulum vehicle, a vehicle control device according to the present invention performs an automatic follow-up running control in an inverted pendulum vehicle so as to automatically follow a preceding vehicle. The vehicle control device is characterized by including: a communication unit that receives running condition data from the preceding vehicle regarding a vehicle speed and a joystick operation amount of the preceding vehicle; an inter-vehicle distance sensor that measures an inter-vehicle distance with the preceding vehicle; and a main control ECU that computes an acceleration command value for following the preceding vehicle, wherein the main control ECU sets one of a first acceleration command value, which is computed based on the vehicle speed of the preceding vehicle acquired through the communication unit and the inter-vehicle distance measured by the inter-vehicle distance sensor, and a second acceleration command value, which is computed based on the joystick operation amount acquired through the communication unit, as a target acceleration command value.
    • 为了提供提高倒立摆车辆中的自动跟进控制的精度的车辆控制装置,根据本发明的车辆控制装置在倒立摆车辆中执行自动跟进运行控制,以便自动跟随 前车。 车辆控制装置的特征在于包括:通信单元,其从前方车辆接收关于前方车辆的车速和操纵杆操作量的行驶状态数据; 测量与前一车辆的车辆间距离的车辆间距离传感器; 以及主控制ECU,其计算跟随前一车辆的加速度指令值,其中,所述主控制ECU设定基于通过所述通信单元获取的前一车辆的车速计算出的第一加速度指令值和 由车辆间距离传感器测量的车辆间距离,以及基于通过通信单元获取的操纵杆操作量计算的第二加速度指令值作为目标加速度指令值。
    • 7. 发明申请
    • VEHICLE CONTROL DEVICE
    • 车辆控制装置
    • US20100299044A1
    • 2010-11-25
    • US12734582
    • 2008-10-23
    • Takafumi MiyakeKoki Hayashi
    • Takafumi MiyakeKoki Hayashi
    • B60K31/00
    • B62K11/007B60W2030/041
    • To provide a vehicle control device that improves the accuracy of an automatic follow-up control in an inverted pendulum vehicle, a vehicle control device according to the present invention performs an automatic follow-up running control in an inverted pendulum vehicle so as to automatically follow a preceding vehicle. The vehicle control device is characterized by including: a communication unit that receives running condition data from the preceding vehicle regarding a vehicle speed and a joystick operation amount of the preceding vehicle; an inter-vehicle distance sensor that measures an inter-vehicle distance with the preceding vehicle; and a main control ECU that computes an acceleration command value for following the preceding vehicle, wherein the main control ECU sets one of a first acceleration command value, which is computed based on the vehicle speed of the preceding vehicle acquired through the communication unit and the inter-vehicle distance measured by the inter-vehicle distance sensor, and a second acceleration command value, which is computed based on the joystick operation amount acquired through the communication unit, as a target acceleration command value.
    • 为了提供提高倒立摆车辆中的自动跟进控制的精度的车辆控制装置,根据本发明的车辆控制装置在倒立摆车辆中执行自动跟进运行控制,以便自动跟随 前车。 车辆控制装置的特征在于包括:通信单元,其从前方车辆接收关于前方车辆的车速和操纵杆操作量的行驶状态数据; 测量与前一车辆的车辆间距离的车辆间距离传感器; 以及主控制ECU,其计算跟随前一车辆的加速度指令值,其中,所述主控制ECU设定基于通过所述通信单元获取的前一车辆的车速计算出的第一加速度指令值和 由车辆间距离传感器测量的车辆间距离,以及基于通过通信单元获取的操纵杆操作量计算的第二加速度指令值作为目标加速度指令值。
    • 9. 发明授权
    • Solar cell module
    • 太阳能电池组件
    • US09006559B2
    • 2015-04-14
    • US14344251
    • 2012-09-13
    • Naoya KobamotoYuta ShinikeTakafumi MiyakeMasayasu Yoshioka
    • Naoya KobamotoYuta ShinikeTakafumi MiyakeMasayasu Yoshioka
    • H01L31/0224H01L31/05
    • H01L31/0508H01L31/022433Y02E10/50
    • A solar cell module comprises a plurality of solar cell elements including a front surface electrode and a wiring member electrically interconnecting the solar cell elements. The front surface electrode includes a bus bar electrode and finger electrodes, the finger electrodes including a plurality of first finger electrodes and connected to the bus bar electrode, and a plurality of second finger electrodes not connected to the bus bar electrode. The front surface electrode further includes a fine wire electrode that is disposed in a region extending from the bus bar electrode in a longitudinal direction of the bus bar electrode and that is electrically connected to the second finger electrodes, the fine wire electrode including first and second fine wire electrodes intersecting to each other. The wiring member is connected to an intersection of the first and second fine wire electrodes and to the bus bar electrode.
    • 太阳能电池模块包括多个太阳能电池元件,其包括前表面电极和将太阳能电池元件电连接的布线构件。 前表面电极包括母线电极和指状电极,手指电极包括多个第一指状电极并连接到母线电极,以及多个第二指状电极未连接到母线电极。 前表面电极还包括细线电极,该细线电极设置在从汇流条电极沿汇流条电极的纵向方向延伸并且与第二指状电极电连接的区域中,细线电极包括第一和第二 细线电极彼此相交。 布线构件连接到第一和第二细线电极和母线电极的交叉点。
    • 10. 发明授权
    • Solar cell module manufacturing device and solar cell module manufacturing method
    • 太阳能电池组件制造装置及太阳能电池组件的制造方法
    • US08703506B2
    • 2014-04-22
    • US13819939
    • 2011-08-30
    • Takafumi MiyakeKoki Oda
    • Takafumi MiyakeKoki Oda
    • H01L31/18B21F3/00
    • B21F1/02B21C47/20H01L31/0508H01L31/18H01L31/188Y02E10/50
    • A solar cell module manufacturing device is disclosed. The device includes a wire supply portion, a correction portion, and a cutting portion. The supply portion includes a bobbin and wiring material on the bobbin. The correction portion corrects curvature of the wiring material. The correction portion comprises a first pulley that comes in contact with the wiring material which is drawn from the bobbin. The first pulley comprises at a periphery thereof a first groove. The first groove comprises a first basal surface and a pair of first inclined surfaces which are arranged on both sides of the first basal surface. An inclination angle θ1 of the first inclined surface relative to the first basal surface being less than or equal to an inclination angle θ2 of the wiring material which is drawn from the supply portion relative to the first basal surface.
    • 公开了太阳能电池模块制造装置。 该装置包括电线供应部分,校正部分和切割部分。 供给部分包括线轴上的线轴和布线材料。 校正部校正配线材料的曲率。 校正部包括与从线轴抽出的配线材料接触的第一带轮。 第一滑轮在其周围包括第一凹槽。 第一凹槽包括第一基面和布置在第一基面两侧的一对第一倾斜表面。 所述第一倾斜面相对于所述第一基面的倾斜角度θ1小于或等于从所述供给部分相对于所述第一基面拉出的所述布线材料的倾斜角度θ。