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公开(公告)号:US20120280501A1
公开(公告)日:2012-11-08
申请号:US13462041
申请日:2012-05-02
申请人: Motofumi Tanaka , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda , Toshiki Osako , Toshimasa Yamada
发明人: Motofumi Tanaka , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda , Toshiki Osako , Toshimasa Yamada
IPC分类号: H02P9/04
CPC分类号: F03D7/022 , F03D7/0256 , F03D17/00 , F03D80/00 , F05B2270/304 , F05B2270/327 , F05B2270/335 , H05H1/2406 , Y02E10/721 , Y02E10/722 , Y02E10/723
摘要: A wind power generation system 10 of an embodiment includes a rotor 40 having a hub 41 and blades 42, a nacelle 31 pivotally supporting the rotor 40, a tower 30 supporting the nacelle 31, an airflow generation device 60 provided in a leading edge of each of the blades 42 and having a first electrode 61 and a second electrode 62 which are separated via a dielectric, and a discharge power supply 65 capable of applying a voltage between the electrodes of the airflow generation device 60. Further, the system includes a measurement device detecting information related to at least one of output in the wind power generation system 10, torque in the rotor 40 and a rotation speed of the blades 42, and a control unit 110 controlling the discharge power supply 65 based on an output from the measurement device.
摘要翻译: 一个实施例的风力发电系统10包括具有轮毂41和叶片42的转子40,枢转地支撑转子40的机舱31,支撑机舱31的塔架30,设置在每个的前缘的气流产生装置60 并且具有通过电介质分离的第一电极61和第二电极62以及能够在气流发生装置60的电极之间施加电压的放电电源65.此外,该系统包括测量 与风力发电系统10的输出中的至少一个相关的装置检测信息,转子40的转矩和叶片42的转速以及基于测量的输出来控制放电用电源65的控制部110 设备。
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公开(公告)号:US09297260B2
公开(公告)日:2016-03-29
申请号:US13419211
申请日:2012-03-13
申请人: Motofumi Tanaka , Hisashi Matsuda , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Kunihiko Wada , Tamon Ozaki , Toshiki Osako , Masahiro Asayama , Yutaka Uchida
发明人: Motofumi Tanaka , Hisashi Matsuda , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Kunihiko Wada , Tamon Ozaki , Toshiki Osako , Masahiro Asayama , Yutaka Uchida
CPC分类号: F01D5/145 , B64C23/005 , B64C2230/12 , B64C2230/14 , F05D2240/127 , F05D2270/17 , F05D2270/172 , Y10T137/0391 , Y10T137/2185 , Y10T137/2191 , Y10T137/2224
摘要: An airflow control device 10 in an embodiment includes: a vortex shedding structure portion 20 discharging an airflow flowing on a surface in a flow direction as a vortex flow; and a first electrode 40 and a second electrode 41 disposed on a downstream side of the vortex shedding structure portion 20 via a dielectric. By applying a voltage between the first electrode 40 and the second electrode 41, flow of the airflow on the downstream side of the vortex shedding structure portion 20 is controlled.
摘要翻译: 在一个实施例中的气流控制装置10包括:涡流脱落结构部分20,其以流动方向排出在流动方向上流动的气流的涡流; 以及经由电介质设置在涡流脱落结构部20的下游侧的第一电极40和第二电极41。 通过在第一电极40和第二电极41之间施加电压,控制涡流脱落结构部20的下游侧的气流。
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公开(公告)号:US20120267892A1
公开(公告)日:2012-10-25
申请号:US13407036
申请日:2012-02-28
申请人: Hisashi Matsuda , Motofumi Tanaka , Hiroyuki Yasui , Shohei Goshima , Kunihiko Wada , Tamon Ozaki , Toshiki Osako
发明人: Hisashi Matsuda , Motofumi Tanaka , Hiroyuki Yasui , Shohei Goshima , Kunihiko Wada , Tamon Ozaki , Toshiki Osako
CPC分类号: F03D7/022 , F03D80/00 , F05B2240/30 , F05B2240/32 , F15D1/0075 , H05H1/2406 , H05H2001/2412 , H05H2001/2418 , Y02E10/721 , Y02E10/723
摘要: According to the present invention, there is provided a wind power generating system, having a plurality of plasma airflow generating units, each including a first electrode and a second electrode arranged being separated from the first electrode with a dielectric film and generating plasma airflow owing to dielectric barrier discharge when voltage is applied between the first electrode and the second electrode; and at least one plasma power source which supplies voltage to the plasma airflow generating units, wherein the plasma airflow generating units are arranged at a blade of the wind power generating system and are supplied with voltage as being separated into a plurality of lines separately for each of the lines.
摘要翻译: 根据本发明,提供了一种风力发电系统,具有多个等离子体气流发生单元,每个等离子体气流发生单元包括第一电极和第二电极,第一电极和第二电极与第一电极分离并具有电介质膜,并产生等离子体气流,由于 当在第一电极和第二电极之间施加电压时介质阻挡放电; 以及至少一个等离子体电源,其向等离子体气流产生单元提供电压,其中等离子体气流产生单元布置在风力发电系统的叶片处,并且被分别供给各个电压,分别分成多条线 的线。
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公开(公告)号:US08890347B2
公开(公告)日:2014-11-18
申请号:US13462041
申请日:2012-05-02
申请人: Motofumi Tanaka , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda , Toshiki Osako , Toshimasa Yamada
发明人: Motofumi Tanaka , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda , Toshiki Osako , Toshimasa Yamada
CPC分类号: F03D7/022 , F03D7/0256 , F03D17/00 , F03D80/00 , F05B2270/304 , F05B2270/327 , F05B2270/335 , H05H1/2406 , Y02E10/721 , Y02E10/722 , Y02E10/723
摘要: A wind power generation system 10 of an embodiment includes a rotor 40 having a hub 41 and blades 42, a nacelle 31 pivotally supporting the rotor 40, a tower 30 supporting the nacelle 31, an airflow generation device 60 provided in a leading edge of each of the blades 42 and having a first electrode 61 and a second electrode 62 which are separated via a dielectric, and a discharge power supply 65 capable of applying a voltage between the electrodes of the airflow generation device 60. Further, the system includes a measurement device detecting information related to at least one of output in the wind power generation system 10, torque in the rotor 40 and a rotation speed of the blades 42, and a control unit 110 controlling the discharge power supply 65 based on an output from the measurement device.
摘要翻译: 一个实施例的风力发电系统10包括具有轮毂41和叶片42的转子40,枢转地支撑转子40的机舱31,支撑机舱31的塔架30,设置在每个的前缘的气流产生装置60 并且具有通过电介质分离的第一电极61和第二电极62以及能够在气流发生装置60的电极之间施加电压的放电电源65.此外,该系统包括测量 与风力发电系统10的输出中的至少一个相关的装置检测信息,转子40的转矩和叶片42的转速以及基于测量的输出来控制放电用电源65的控制部110 设备。
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公开(公告)号:US20120291874A1
公开(公告)日:2012-11-22
申请号:US13419211
申请日:2012-03-13
申请人: Motofumi Tanaka , Hisashi Matsuda , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Kunihiko Wada , Tamon Ozaki , Toshiki Osako , Masahiro Asayama , Yutaka Uchida
发明人: Motofumi Tanaka , Hisashi Matsuda , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Kunihiko Wada , Tamon Ozaki , Toshiki Osako , Masahiro Asayama , Yutaka Uchida
CPC分类号: F01D5/145 , B64C23/005 , B64C2230/12 , B64C2230/14 , F05D2240/127 , F05D2270/17 , F05D2270/172 , Y10T137/0391 , Y10T137/2185 , Y10T137/2191 , Y10T137/2224
摘要: An airflow control device 10 in an embodiment includes: a vortex shedding structure portion 20 discharging an airflow flowing on a surface in a flow direction as a vortex flow; and a first electrode 40 and a second electrode 41 disposed on a downstream side of the vortex shedding structure portion 20 via a dielectric. By applying a voltage between the first electrode 40 and the second electrode 41, flow of the airflow on the downstream side of the vortex shedding structure portion 20 is controlled.
摘要翻译: 在一个实施例中的气流控制装置10包括:涡流脱落结构部分20,其以流动方向排出在流动方向上流动的气流的涡流; 以及经由电介质设置在涡流脱落结构部20的下游侧的第一电极40和第二电极41。 通过在第一电极40和第二电极41之间施加电压,控制涡流脱落结构部20的下游侧的气流。
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公开(公告)号:US08674537B2
公开(公告)日:2014-03-18
申请号:US13418736
申请日:2012-03-13
申请人: Motofumi Tanaka , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda
发明人: Motofumi Tanaka , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda
IPC分类号: F03D9/02
CPC分类号: F03D7/0256 , F03D7/022 , F03D80/00 , F05B2240/30 , H05H1/2406 , Y02E10/721 , Y02E10/723
摘要: A wind power generation system 10 of an embodiment includes a rotor 40 having blades 42, an airflow generation device 60 provided in a leading edge of each of the blades 42 and having a first electrode 61 and a second electrode 62 which are separated via a dielectric, a discharge power supply 65 applying a voltage between the electrodes of the airflow generation device 60, and a control unit 110 controlling the discharge power supply 65. The control unit 110 controls the voltage to perform pulse modulation so that the value of a relational expression fC/U is 0.1 or larger and 9 or smaller where f is a pulse modulation frequency of the voltage, C is a chord length of the blades 42, and U is a relative velocity combining a peripheral velocity of the blades 42 and a wind velocity, so as to generate plasma induced flow.
摘要翻译: 一个实施例的风力发电系统10包括具有叶片42的转子40,设置在每个叶片42的前缘中的气流发生装置60,并且具有通过电介质分离的第一电极61和第二电极62 ,在气流发生装置60的电极之间施加电压的放电电源65和控制放电电源65的控制单元110.控制单元110控制电压进行脉冲调制,使得关系式 fC / U为0.1以上且9以下,f是电压的脉冲调制频率,C是叶片42的弦长,U是组合叶片42的圆周速度的相对速度和风速 ,以产生等离子体感应流。
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公开(公告)号:US20120280500A1
公开(公告)日:2012-11-08
申请号:US13418736
申请日:2012-03-13
申请人: Motofumi TANAKA , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda
发明人: Motofumi TANAKA , Hisashi Matsuda , Kunihiko Wada , Hiroyuki Yasui , Shohei Goshima , Naohiko Shimura , Yutaka Ishiwata , Susumu Kinoshita , Tamon Ozaki , Sueyoshi Mizuno , Shinichi Noda
IPC分类号: H02P9/04
CPC分类号: F03D7/0256 , F03D7/022 , F03D80/00 , F05B2240/30 , H05H1/2406 , Y02E10/721 , Y02E10/723
摘要: A wind power generation system 10 of an embodiment includes a rotor 40 having blades 42, an airflow generation device 60 provided in a leading edge of each of the blades 42 and having a first electrode 61 and a second electrode 62 which are separated via a dielectric, a discharge power supply 65 applying a voltage between the electrodes of the airflow generation device 60, and a control unit 110 controlling the discharge power supply 65. The control unit 110 controls the voltage to perform pulse modulation so that the value of a relational expression fC/U is 0.1 or larger and 9 or smaller where f is a pulse modulation frequency of the voltage, C is a chord length of the blades 42, and U is a relative velocity combining a peripheral velocity of the blades 42 and a wind velocity, so as to generate plasma induced flow.
摘要翻译: 一个实施例的风力发电系统10包括具有叶片42的转子40,设置在每个叶片42的前缘中的气流发生装置60,并且具有通过电介质分离的第一电极61和第二电极62 ,在气流发生装置60的电极之间施加电压的放电电源65和控制放电电源65的控制单元110.控制单元110控制电压进行脉冲调制,使得关系式 fC / U为0.1以上且9以下,f是电压的脉冲调制频率,C是叶片42的弦长,U是组合叶片42的圆周速度的相对速度和风速 ,以产生等离子体感应流。
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公开(公告)号:US20100015513A1
公开(公告)日:2010-01-21
申请号:US12569387
申请日:2009-09-29
申请人: Takafumi NAKAHAMA , Mami Mizutani , Takeo Kakuchi , Tamon Ozaki , Nagaaki Muro , Takafumi Domoto , Yuusaku Hata , Yukitaka Monden , Taihei Koyama , Yosuke Tonami
发明人: Takafumi NAKAHAMA , Mami Mizutani , Takeo Kakuchi , Tamon Ozaki , Nagaaki Muro , Takafumi Domoto , Yuusaku Hata , Yukitaka Monden , Taihei Koyama , Yosuke Tonami
IPC分类号: H01M10/50
CPC分类号: B62M6/90 , B60K1/04 , B60K2001/005 , B60K2001/008 , B60L58/26 , B60Y2200/12 , H01M2/1077 , H01M10/615 , H01M10/617 , H01M10/625 , Y02T10/7005 , Y02T10/7055
摘要: There is provided a battery apparatus mounted in a vehicle that is not subjected to forced draft, the battery apparatus including a plurality of rectangular parallelepiped batteries stacked in a direction vertical to a traveling direction of the vehicle, a rectangular parallelepiped battery box that accommodates the plurality of rectangular parallelepiped batteries therein, and a heat equalizing plate that is brought into contact with the plurality of rectangular parallelepiped batteries.
摘要翻译: 提供了一种安装在不经受强制通风的车辆中的电池装置,所述电池装置包括沿垂直于车辆行进方向的方向堆叠的多个长方体电池,容纳多个的长方体电池盒 的长方体电池,和与多个长方体电池接触的热平衡板。
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公开(公告)号:US06906258B2
公开(公告)日:2005-06-14
申请号:US10619522
申请日:2003-07-16
申请人: Hisayuki Hirai , Susumu Kojima , Tamon Ozaki , Toshio Shimizu , Takahiro Imai , Hiroki Sekiya , Isao Onodera
发明人: Hisayuki Hirai , Susumu Kojima , Tamon Ozaki , Toshio Shimizu , Takahiro Imai , Hiroki Sekiya , Isao Onodera
IPC分类号: C09D7/12 , C09D179/08 , C09D201/00 , H01B3/00 , H01B3/30 , H01B3/42 , H01B3/44 , H01B7/00 , H01B7/02 , H01B7/29 , H01B7/34
摘要: An enameled wire capable of improving withstand lifetime with respect to the application of surge voltage of an inverter and thermal degradation thereof while restricting an amount of an inorganic filler material is provided. The enameled wire includes an electrically conductive wire (11) and a coating (12) formed of a high molecular compound uniformly mixed with an inorganic filler material in the form of fine flat particles provided around the electrically conductive wire (11). The enameled wire may include an electrically conductive wire (21), a coating (23) formed of a polyester imide resin solution mixed with an inorganic filler material in the form of fine flat particles and provided on the conductive wire and a coating (24) formed of polyamide imide and provided on the coating (23).
摘要翻译: 提供一种能够在限制一定量的无机填充材料的同时提高耐逆变器的浪涌电压的耐久寿命及其热劣化的漆包线。 漆包线包括导电线(11)和由设置在导电线(11)周围的细平坦颗粒形式的无机填料材料均匀混合的高分子化合物形成的涂层(12)。 漆包线可以包括导电线(21),由聚酰亚胺树脂溶液形成的涂层(23),该聚酯酰亚胺树脂溶液与细平坦颗粒形式的无机填料混合并设置在导线上,涂层(24) 由聚酰胺酰亚胺形成并提供在涂层(23)上。
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公开(公告)号:US20090305125A1
公开(公告)日:2009-12-10
申请号:US12162398
申请日:2007-01-26
申请人: Shinichiro Kosugi , Tamon Ozaki , Katsumasa Araoka
发明人: Shinichiro Kosugi , Tamon Ozaki , Katsumasa Araoka
IPC分类号: H01M6/42
CPC分类号: H01M2/105 , H01M2/204 , H01M10/425 , H01M10/482
摘要: Negative (−) terminals and positive (+) terminals of a plurality of cells in a connected state are housed in a metal case. The metal case is attached with positive-side and negative-side external terminals, and the external terminals and cell terminals are connected with each other through lead wires. The metal case is attached with a voltage monitoring connector, and the voltage monitoring connector and a voltage taking electric wires extending from the positive and negative sides of the respective cells are connected with each other. Through the voltage monitoring connector, the charging degrees of the individual cells can be obtained, thereby preventing the cells from being overcharged.
摘要翻译: 处于连接状态的多个单元的负( - )端子和正(+)端子容纳在金属外壳中。 金属外壳装有正极和负极外部端子,外部端子和电池端子通过引线相互连接。 金属外壳附有电压监视连接器,并且电压监视连接器和从各个单元的正负极延伸的电线彼此连接。 通过电压监视连接器,可以获得单个电池的充电程度,从而防止电池过充电。
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