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    • 1. 发明授权
    • Quality evaluation apparatus for fruits and vegetables
    • 水果和蔬菜质量评估仪器
    • US07316322B2
    • 2008-01-08
    • US10540742
    • 2003-12-24
    • Shinichi KawabataKenichi IwamiYoshiyuki Katayama
    • Shinichi KawabataKenichi IwamiYoshiyuki Katayama
    • B07C5/00G01N21/00
    • G01N33/025G01N21/3563G01N21/359
    • In order to provide a quality evaluation apparatus having excellent measurement accuracy in obtaining quality evaluation values of fruits and vegetables, transmitted light from one or more measured objects is received by a photo-detective sensor of the charge storage type, charges are stored in the photo-detective sensor until a predetermined charge storage time lapses from start of the charge storage, a charge storage discharge process is repeatedly executed for releasing the charges stored in the photo-detective sensor until lapse of a predetermined discharge time, the stored charges are released when the measured object reach a position for measurement, and a measurement charge storage process is executed for storing charges to be used as photo-detective information for quality evaluation.
    • 为了提供在获得水果和蔬菜的质量评估值方面具有优异的测量精度的质量评估装置,来自一个或多个测量对象的透射光被电荷存储型的光检测传感器接收,电荷存储在照片中 - 检测传感器,直到从电荷存储开始经过预定的电荷存储时间,重复执行电荷存储放电处理,以释放存储在光检测传感器中的电荷,直到经过预定的放电时间,则存储的电荷在 测量对象到达测量位置,并且执行测量计费存储处理以存储要用作质量评估的光电检测信息的电荷。
    • 2. 发明申请
    • Fruit-vegetable quality evaluation device
    • 水果蔬菜质量评估装置
    • US20060118726A1
    • 2006-06-08
    • US10540742
    • 2003-12-24
    • Shinichi KawabataKenichi IwamiYoshlyuki Katayama
    • Shinichi KawabataKenichi IwamiYoshlyuki Katayama
    • G01F23/00
    • G01N33/025G01N21/3563G01N21/359
    • In order to provide a quality evaluation apparatus having excellent measurement accuracy in obtaining quality evaluation values of fruits and vegetables, transmitted light from one or more measured objects is received by a photo-detective sensor of the charge storage type, charges are stored in the photo-detective sensor until a predetermined charge storage time lapses from start of the charge storage, a charge storage discharge process is repeatedly executed for releasing the charges stored in the photo-detective sensor until lapse of a predetermined discharge time, the stored charges are released when the measured object reach a position for measurement, and a measurement charge storage process is executed for storing charges to be used as photo-detective information for quality evaluation.
    • 为了提供在获得水果和蔬菜的质量评估值方面具有优异的测量精度的质量评估装置,来自一个或多个测量对象的透射光被电荷存储型的光检测传感器接收,电荷存储在照片中 - 检测传感器,直到从电荷存储开始经过预定的电荷存储时间,重复执行电荷存储放电处理,以释放存储在光检测传感器中的电荷,直到经过预定的放电时间,则存储的电荷在 测量对象到达测量位置,并且执行测量计费存储处理以存储要用作质量评估的光电检测信息的电荷。
    • 3. 发明申请
    • Speed Changing Transmission Apparatus
    • 变速传动装置
    • US20090156345A1
    • 2009-06-18
    • US12281719
    • 2007-09-25
    • Shoso IshimoriYoshiyuki KatayamaYoshihiro UedaShinichi MoritaShinichi KawabataShigeki HayashiMasaaki NishinakaTakayasu KobayashiGo Takagi
    • Shoso IshimoriYoshiyuki KatayamaYoshihiro UedaShinichi MoritaShinichi KawabataShigeki HayashiMasaaki NishinakaTakayasu KobayashiGo Takagi
    • F16H37/00B60K17/06
    • F16H47/04F16H2037/088F16H2037/0886F16H2200/201
    • A composite planetary transmission section (P) is provided for synthesizing output from a stepless speed changing section (20) with an engine drive force. In a transmission line from the planetary transmission section (P) to an output rotational body (90), there are provided first clutch mechanism (60), a second clutch mechanism (70), a speed-reducing planetary transmission mechanism (80), an operable coupling clutch mechanism (110) and an output clutch mechanism (120). A ring gear (83) of the speed-reducing planetary transmission mechanism (80) includes a brake mechanism (100). A sun gear (43) of the planetary transmission section (P), an input side rotational member (62) of the first clutch mechanism (60), an input side rotational member (71) of the second clutch mechanism (70), a sun gear (84) of the speed-reducing planetary transmission mechanism (80), and an input side rotational member (122) of the output clutch mechanism (120) are rotatable about a common rotational axis. A rotational shaft (97) operably coupling a carrier (44) of the composite planetary transmission section (P) with the output rotational body (90) is inserted through a planetary transmission mechanism (50) of the composite planetary transmission section (P), the first clutch mechanism (60), the second clutch mechanism (70) and the speed-reducing planetary transmission mechanism (80).
    • 复合行星传动部分(P)用于合成来自无级变速部分(20)的输出与发动机驱动力。 在从行星传动部(P)到输出旋转体(90)的传输线中,设置有第一离合器机构(60),第二离合器机构(70),减速行星传动机构(80) 可操作的联接离合器机构(110)和输出离合器机构(120)。 减速行星传动机构(80)的齿圈(83)包括制动机构(100)。 行星传动部(P)的太阳齿轮(43),第一离合器机构(60)的输入侧旋转部件(62),第二离合器机构(70)的输入侧旋转部件(71) 减速行星传动机构80的太阳齿轮(84)和输出离合器机构(120)的输入侧旋转部件(122)能够绕公共旋转轴线旋转。 通过复合行星传动部(P)的行星传动机构(50)插入将复合行星传动部(P)的托架(44)与输出转动体(90)可操作地连接的旋转轴(97) 第一离合器机构(60),第二离合器机构(70)和减速行星传动机构(80)。
    • 4. 发明授权
    • Speed changing transmission apparatus
    • 变速传动装置
    • US08172714B2
    • 2012-05-08
    • US12281719
    • 2007-09-25
    • Shoso IshimoriYoshiyuki KatayamaYoshihiro UedaShinichi MoritaShinichi KawabataShigeki HayashiMasaaki NishinakaTakayasu KobayashiGo Takagi
    • Shoso IshimoriYoshiyuki KatayamaYoshihiro UedaShinichi MoritaShinichi KawabataShigeki HayashiMasaaki NishinakaTakayasu KobayashiGo Takagi
    • F16H3/72F16H37/06F16H47/04F16H3/44B60K17/06
    • F16H47/04F16H2037/088F16H2037/0886F16H2200/201
    • A composite planetary transmission section (P) is provided for synthesizing output from a stepless speed changing section (20) with an engine drive force. In a transmission line from the planetary transmission section (P) to an output rotational body (90), there are provided first clutch mechanism (60), a second clutch mechanism (70), a speed-reducing planetary transmission mechanism (80), an operable coupling clutch mechanism (110) and an output clutch mechanism (120). A ring gear (83) of the speed-reducing planetary transmission mechanism (80) includes a brake mechanism (100). A sun gear (43) of the planetary transmission section (P), an input side rotational member (62) of the first clutch mechanism (60), an input side rotational member (71) of the second clutch mechanism (70), a sun gear (84) of the speed-reducing planetary transmission mechanism (80), and an input side rotational member (122) of the output clutch mechanism (120) are rotatable about a common rotational axis. A rotational shaft (97) operably coupling a carrier (44) of the composite planetary transmission section (P) with the output rotational body (90) is inserted through a planetary transmission mechanism (50) of the composite planetary transmission section (P), the first clutch mechanism (60), the second clutch mechanism (70) and the speed-reducing planetary transmission mechanism (80).
    • 复合行星传动部分(P)用于合成来自无级变速部分(20)的输出与发动机驱动力。 在从行星传动部(P)到输出旋转体(90)的传输线中,设置有第一离合器机构(60),第二离合器机构(70),减速行星传动机构(80) 可操作的联接离合器机构(110)和输出离合器机构(120)。 减速行星传动机构(80)的齿圈(83)包括制动机构(100)。 行星传动部(P)的太阳齿轮(43),第一离合器机构(60)的输入侧旋转部件(62),第二离合器机构(70)的输入侧旋转部件(71) 减速行星传动机构80的太阳齿轮(84)和输出离合器机构(120)的输入侧旋转部件(122)能够绕公共旋转轴线旋转。 通过复合行星传动部(P)的行星传动机构(50)插入将复合行星传动部(P)的托架(44)与输出转动体(90)可操作地连接的旋转轴(97) 第一离合器机构(60),第二离合器机构(70)和减速行星传动机构(80)。
    • 6. 发明申请
    • IMAGE FORMING APPARATUS
    • 图像形成装置
    • US20100290824A1
    • 2010-11-18
    • US12810829
    • 2009-07-09
    • Keisuke TanakaShinichi Kawabata
    • Keisuke TanakaShinichi Kawabata
    • G03G21/10
    • G03G21/105
    • The image forming apparatus includes plurality of image forming units having photosensitive elements; a plurality of toner containers, cleaning units for removing the toner left on the photosensitive elements, a waste toner recovering container for accumulating the waste toners removed from the photosensitive elements, and waste toner transfer passages connecting the cleaning units and the waste toner recovering container, for transferring the waste toners to the waste toner recovering container. The waste toner transfer passages, which is formed in the image forming unit using the toner container of the largest capacity, for transferring the waste toners in the cleaning units, is to be longest.
    • 图像形成装置包括具有感光元件的多个图像形成单元; 多个调色剂容器,用于除去感光元件上残留的调色剂的清洁单元,用于积聚从感光元件除去的废色调剂的废调色剂回收容器,以及连接清洁单元和废调色剂回收容器的废调色剂传送通道, 用于将废调色剂转移到废调色剂回收容器。 在使用最大容量的调色剂容器的图像形成单元中形成的用于将废弃调色剂转印在清洁单元中的废调色剂传送通道最长。