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公开(公告)号:US20110135429A1
公开(公告)日:2011-06-09
申请号:US13058374
申请日:2009-08-31
CPC分类号: B23P21/00 , B23P21/004 , B23Q37/007 , B25J19/06 , Y02P90/083 , Y10T29/49829 , Y10T29/534
摘要: Provided is a production facility which allows a worker to perform manual works such as restoration, setting change, and manufacturing, without entering an action area of a robot.The production facility (1) includes a casing (11), a swaging device (12) as a dedicated device housed in the casing (11), for performing swaging using a boot band, and an internal transfer device (13). A human work area (F) on the front side of the production facility (1) and an action area (B) of a transfer robot (2) on the back side of the production facility (1) are separated by the swaging device (12) and the casing (11). The worker positioned on the front side of the production facility (1) operates swaging device (12) without entering the action area (B) of the transfer robot (2) so that the transfer robot (2) need not be stopped when the work is performed. Therefore, production efficiency can be increased, and neither a safety fence nor a partition need be provided separately from the production facility (1) so that a size of a production area can be reduced.
摘要翻译: 提供了一种生产设备,其允许工人在不进入机器人的动作区域的情况下执行诸如恢复,设置改变和制造的手动工作。 生产设备(1)包括壳体(11),作为容纳在壳体(11)中的专用装置的模锻装置(12),用于使用靴形带进行模锻,以及内部转移装置。 生产设备(1)前侧的人工作区域(F)和生产设备(1)后侧的传送机器人(2)的动作区域(B)由模锻装置 12)和壳体(11)。 位于生产设备(1)的前侧的工人在不进入传送机器人(2)的动作区域(B)的情况下操作模锻装置(12),从而当工作时不需要停止传送机器人(2) 被执行。 因此,可以提高生产效率,并且不需要与生产设备(1)分开设置安全栅栏和分隔件,从而可以减小生产区域的尺寸。
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公开(公告)号:US08979464B2
公开(公告)日:2015-03-17
申请号:US13058374
申请日:2009-08-31
CPC分类号: B23P21/00 , B23P21/004 , B23Q37/007 , B25J19/06 , Y02P90/083 , Y10T29/49829 , Y10T29/534
摘要: Provided is a production facility which allows a worker to perform manual works such as restoration, setting change, and manufacturing, without entering an action area of a robot. The production facility includes a casing, a swaging as a dedicated device housed in the casing, for performing swaging using a boot band, and an internal transfer device. A human work area on the front side of the production facility and an action area of a transfer robot on the back side of the production facility are separated by the swaging device and the casing. The worker positioned on the front side of the production facility operates swaging device without entering the action area of the transfer robot so that the transfer robot need not be stopped when the work is performed.
摘要翻译: 提供了一种生产设备,其允许工人在不进入机器人的动作区域的情况下执行诸如恢复,设置改变和制造的手动工作。 生产设备包括壳体,作为容纳在壳体中的专用装置的型锻,用于使用引导带进行模锻和内部转移装置。 生产设备前侧的人工作区域和生产设备背侧的传送机器人的动作区域由模锻装置和壳体分开。 位于生产设备前侧的工人操作模锻装置,而不进入传送机器人的动作区域,从而在执行工作时不需要停止传送机器人。
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公开(公告)号:US09427837B2
公开(公告)日:2016-08-30
申请号:US14127235
申请日:2012-06-18
申请人: Hiroshi Hatano , Nao Ishiyama , Shinya Inui , Yuuki Ogata
发明人: Hiroshi Hatano , Nao Ishiyama , Shinya Inui , Yuuki Ogata
CPC分类号: B23P19/086 , B23P19/04 , B23P19/084 , B23P19/10 , B23P19/107 , B23P21/002 , F16D3/16 , F16D3/2055 , F16D3/223 , F16D3/845 , F16D2003/22316 , Y10T29/49778 , Y10T29/4978 , Y10T29/49959 , Y10T29/53061 , Y10T29/53978 , Y10T29/53991
摘要: A boot band for fixing a boot that is mounted to a constant velocity universal joint is clamped. The boot band and the constant velocity universal joint are aligned in phase with each other in a circumferential direction. An axial position of a clamping portion is thereafter aligned with an axial position of the boot band. Then, the boot band is clamped by the clamping portion.
摘要翻译: 用于固定安装到等速万向接头的引导件的引导带被夹紧。 引导带和等速万向接头在圆周方向上彼此相位对齐。 然后夹紧部分的轴向位置与引导带的轴向位置对准。 然后,该引导带被夹持部夹紧。
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公开(公告)号:US09993901B2
公开(公告)日:2018-06-12
申请号:US15216798
申请日:2016-07-22
申请人: Hiroshi Hatano , Nao Ishiyama , Shinya Inui , Yuuki Ogata
发明人: Hiroshi Hatano , Nao Ishiyama , Shinya Inui , Yuuki Ogata
CPC分类号: B23P19/086 , B23P19/04 , B23P19/084 , B23P19/10 , B23P19/107 , B23P21/002 , F16D3/16 , F16D3/2055 , F16D3/223 , F16D3/845 , F16D2003/22316 , Y10T29/49778 , Y10T29/4978 , Y10T29/49959 , Y10T29/53061 , Y10T29/53978 , Y10T29/53991
摘要: A boot band for fixing a boot that is mounted to a constant velocity universal joint is clamped. The boot band and the constant velocity universal joint are aligned in phase with each other in a circumferential direction. An axial position of a clamping portion is thereafter aligned with an axial position of the boot band. Then, the boot band is clamped by the clamping portion.
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公开(公告)号:US20140115857A1
公开(公告)日:2014-05-01
申请号:US14127235
申请日:2012-06-18
申请人: Hiroshi Hatano , Nao Ishiyama , Shinya Inui , Yuuki Ogata
发明人: Hiroshi Hatano , Nao Ishiyama , Shinya Inui , Yuuki Ogata
CPC分类号: B23P19/086 , B23P19/04 , B23P19/084 , B23P19/10 , B23P19/107 , B23P21/002 , F16D3/16 , F16D3/2055 , F16D3/223 , F16D3/845 , F16D2003/22316 , Y10T29/49778 , Y10T29/4978 , Y10T29/49959 , Y10T29/53061 , Y10T29/53978 , Y10T29/53991
摘要: Provided are a clamping method and a clamping device that enable automatic mount and fixation of a boot to a constant velocity universal joint with a band. A boot band (11) for fixing a boot (10) that is mounted to a constant velocity universal joint (S) is clamped. The boot band (11) and the constant velocity universal joint (S) are aligned in phase with each other in a circumferential direction, and an axial position of a clamping portion (13) of clamping means (12) is thereafter aligned with an axial position of the boot band (11). Then, the boot band (11) is clamped by the clamping means (12).
摘要翻译: 提供了一种夹紧方法和夹紧装置,其能够将靴子自动安装和固定到具有带的等速万向节。 用于固定安装到等速万向接头(S)上的护罩(10)的开启带(11)被夹紧。 引导带(11)和等速万向接头(S)在圆周方向上彼此相位对准,然后夹紧装置(12)的夹紧部分(13)的轴向位置与轴向 引导带(11)的位置。 然后,该夹持装置(12)将该引导带(11)夹紧。
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公开(公告)号:US09260033B2
公开(公告)日:2016-02-16
申请号:US14131741
申请日:2012-07-10
申请人: Atsushi Hayashida , Shinya Inui
发明人: Atsushi Hayashida , Shinya Inui
CPC分类号: B60L11/1862 , G01R31/3606 , G01R31/3662 , H02J7/0063
摘要: A power supply device according to the present invention includes a detector, a memory, and a determinator. The detector detects internal resistance, temperature, and SOC of a battery. The memory stores record data and a predetermined SOC range as storage data. The record data is used for estimating standardized available power at standard SOC temperature corresponding to the detected internal resistance and temperature. If the detected SOC of the battery falls within the range, the determinator estimates standardized available power at the standard SOC and temperature based on the detected internal resistance and temperature, and the record data. When the internal resistance, temperature, and SOC are detected by the detector, if the detected SOC falls within the range, the determinator estimates standardized available power at standard SOC temperature based on the detected internal resistance and temperature, and the record data.
摘要翻译: 根据本发明的电源装置包括检测器,存储器和确定器。 检测器检测电池的内部电阻,温度和SOC。 存储器将记录数据和预定的SOC范围存储为存储数据。 记录数据用于在与检测到的内部电阻和温度相对应的标准SOC温度下估计标准可用功率。 如果电池的检测到的SOC落在该范围内,则判定器基于检测到的内部电阻和温度以及记录数据来估计标准SOC和温度下的标准可用功率。 当检测器检测到内部电阻,温度和SOC时,如果检测到的SOC在该范围内,则判定器基于检测到的内部电阻和温度以及记录数据,估计标准SOC温度下的标准可用功率。
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公开(公告)号:US07413827B2
公开(公告)日:2008-08-19
申请号:US11135386
申请日:2005-05-24
申请人: Shinya Inui
发明人: Shinya Inui
IPC分类号: H01M10/50 , H01M2/12 , H01M6/42 , H02J7/04 , H05B1/00 , H05B6/10 , B60K1/00 , B60K16/00 , B60R22/00 , H02H7/18
CPC分类号: B60L11/123 , B60L1/10 , B60L11/1851 , B60L11/187 , B60L11/1875 , B60W2510/246 , H01M10/615 , Y02T10/6217 , Y02T10/7005 , Y02T10/705 , Y02T10/7077 , Y10S903/907
摘要: A car power source apparatus is provided with a driving battery which drives an electric motor, heaters which heat the driving battery, a control circuit which controls power to the heaters, a temperature sensor which detects battery temperature and issues a detected temperature signal to the control circuit, and a surrounding temperature sensor which detects surrounding temperature and also issues a detected temperature signal to the control circuit. When the car is not being driven and the driving battery is heated via the heaters powered by the driving battery, the set temperature is changed corresponding to the detected surrounding temperature in the control circuit.
摘要翻译: 汽车电源装置具有驱动电动机的驱动电池,对驱动电池进行加热的加热器,控制加热器电力的控制电路,检测电池温度的温度传感器,并向控制器发出检测到的温度信号 电路和周围温度传感器,其检测周围温度并且还向控制电路发出检测到的温度信号。 当汽车未被驱动并且通过由驱动电池供电的加热器来驱动驱动电池时,设定温度根据控制电路中检测到的周围温度而改变。
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公开(公告)号:US20110291481A1
公开(公告)日:2011-12-01
申请号:US13114260
申请日:2011-05-24
申请人: Satoru Matsumoto , Shinya Inui , Hiroshi Tatsumi
发明人: Satoru Matsumoto , Shinya Inui , Hiroshi Tatsumi
IPC分类号: H02J7/00
CPC分类号: H01H85/46 , B60L3/04 , H01H2085/025 , Y10T307/549
摘要: The power source apparatus is provided with batteries 1 that supply power to a load; a current regulating circuit 2 that controls battery 1 current; a fuse 6 connected in series with the batteries 1; a first computation circuit 3 that computes a first allowable current that can flow through the batteries 1 based on at least one parameter including battery 1 specified current, temperature, voltage, and remaining capacity; and a second computation circuit 4 that computes a second allowable current that can flow through the fuse 6 without blowing the fuse 6 based on the time integral of current flow through the fuse 6. The current regulating circuit 2 controls the battery 1 current to a value lower than the first allowable current computed by the first computation circuit 3 and the second allowable current computed by the second computation circuit 4.
摘要翻译: 电源装置设置有向负载供电的电池1; 控制电池1电流的电流调节电路2; 与电池1串联连接的保险丝6; 第一计算电路3,其基于包括电池1指定的电流,温度,电压和剩余容量的至少一个参数来计算能够流过电池1的第一容许电流; 以及第二计算电路4,其基于通过保险丝6的电流的时间积分,计算能够流过保险丝6的第二容许电流而不使保险丝6熔断。电流调节电路2将电池1的电流控制为值 低于由第一计算电路3计算的第一容许电流和由第二计算电路4计算的第二容许电流。
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公开(公告)号:US20050264257A1
公开(公告)日:2005-12-01
申请号:US11135386
申请日:2005-05-24
申请人: Shinya Inui
发明人: Shinya Inui
IPC分类号: B60R16/04 , B60K1/04 , B60L3/00 , B60L11/12 , B60L11/18 , H01M10/60 , H01M10/615 , H01M10/625 , H01M10/633 , H01M10/635 , H01M10/643 , H01M10/6554 , H01M10/6561 , H01M10/6563 , H01M10/6565 , H01M10/6566 , H01M10/6571 , H02J7/00
CPC分类号: B60L11/123 , B60L1/10 , B60L11/1851 , B60L11/187 , B60L11/1875 , B60W2510/246 , H01M10/615 , Y02T10/6217 , Y02T10/7005 , Y02T10/705 , Y02T10/7077 , Y10S903/907
摘要: The car power source apparatus is provided with a driving battery which drives an electric motor, heaters which heat the driving battery, a control circuit which controls power to the heaters, a temperature sensor which detects battery temperature and issues a detected temperature signal to the control circuit, and a surrounding temperature sensor which detects surrounding temperature and also issues a detected temperature signal to the control circuit. When the car is not being driven and the driving battery is heated via the heaters powered by the driving battery, the set temperature is changed corresponding to the detected surrounding temperature in the control circuit.
摘要翻译: 汽车电源装置设置有驱动电动机的驱动电池,对驱动电池进行加热的加热器,控制加热器电力的控制电路,检测电池温度的温度传感器,并向控制器发出检测到的温度信号 电路和周围温度传感器,其检测周围温度并且还向控制电路发出检测到的温度信号。 当汽车未被驱动并且通过由驱动电池供电的加热器来驱动驱动电池时,设定温度根据控制电路中检测到的周围温度而改变。
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公开(公告)号:US20140139149A1
公开(公告)日:2014-05-22
申请号:US14131741
申请日:2012-07-10
申请人: Atsushi Hayashida , Shinya Inui
发明人: Atsushi Hayashida , Shinya Inui
CPC分类号: B60L11/1862 , G01R31/3606 , G01R31/3662 , H02J7/0063
摘要: A power supply device according to the present invention includes a detector, a memory, and a determinator. The detector detects internal resistance, temperature, and SOC of a battery. The memory stores record data and a predetermined SOC range as storage data. The record data is used for estimating standardized available power at standard SOC temperature corresponding to the detected internal resistance and temperature. If the detected SOC of the battery falls within the range, the determinator estimates standardized available power at the standard SOC and temperature based on the detected internal resistance and temperature, and the record data. When the internal resistance, temperature, and SOC are detected by the detector, if the detected SOC falls within the range, the determinator estimates standardized available power at standard SOC temperature based on the detected internal resistance and temperature, and the record data.
摘要翻译: 根据本发明的电源装置包括检测器,存储器和确定器。 检测器检测电池的内部电阻,温度和SOC。 存储器将记录数据和预定的SOC范围存储为存储数据。 记录数据用于在与检测到的内部电阻和温度相对应的标准SOC温度下估计标准可用功率。 如果电池的检测到的SOC落在该范围内,则判定器基于检测到的内部电阻和温度以及记录数据来估计标准SOC和温度下的标准可用功率。 当检测器检测到内部电阻,温度和SOC时,如果检测到的SOC在该范围内,则判定器基于检测到的内部电阻和温度以及记录数据来估计标准SOC温度下的标准可用功率。
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