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    • 1. 发明授权
    • Parallel shaft transmission
    • 平行轴传动
    • US07121162B2
    • 2006-10-17
    • US10898375
    • 2004-07-26
    • Kazuma HatakeyamaYoshihiro YoshimuraTakashi Hotta
    • Kazuma HatakeyamaYoshihiro YoshimuraTakashi Hotta
    • F16H3/08
    • F16H3/093F16H2003/0938F16H2200/0047F16H2200/0086Y10T74/19223Y10T74/19233Y10T74/19391Y10T74/194Y10T74/19405
    • An input shaft 10 is connected rotationally with an intermediary shaft 20 through a connecting drive gear GCV, a connecting first idle gear GC1, a connecting second idle gear GC2 and a connecting driven gear GCN. A fourth speed drive gear G4V, which is formed in a one-piece body with a reverse drive gear GRV, is provided rotatably over the input shaft 10, and a third speed drive gear G3V is provided rotatably over the intermediary shaft 20. Both the third speed drive gear G3V and the fourth speed drive gear G4V mesh with a third and fourth speed driven gear G34N, which is provided rotatably over an output shaft 40. Also, a reverse driven gear GRN, which is connected rotationally with the reverse drive gear GRV through a reverse idle gear GRI, is provided rotatably over the output shaft 40.
    • 输入轴10通过连接驱动齿轮GCV,连接第一空转齿轮GC1,连接第二怠速齿轮GC2和连接从动齿轮GCN与中间轴20旋转连接。 形成在具有倒档驱动齿轮GRV的一体式主体中的第四速驱动齿轮G 4 V可旋转地设置在输入轴10上,并且三速驱动齿轮G 3 V可旋转地设置在中间轴 20。 第三速度驱动齿轮G 3 V和第四速度驱动齿轮G 4 V与第三和第四速度从动齿轮G 34 N啮合,第三和第四速度从动齿轮G 34 N可旋转地设置在输出轴40上。 此外,通过反向惰轮GRI与倒档驱动齿轮GRV旋转连接的反向从动齿轮GRN可旋转地设置在输出轴40上。
    • 2. 发明申请
    • Parallel shaft transmission
    • 平行轴传动
    • US20050028622A1
    • 2005-02-10
    • US10898375
    • 2004-07-26
    • Kazuma HatakeyamaYoshihiro YoshimuraTakashi Hotta
    • Kazuma HatakeyamaYoshihiro YoshimuraTakashi Hotta
    • F16H3/093F16H47/04
    • F16H3/093F16H2003/0938F16H2200/0047F16H2200/0086Y10T74/19223Y10T74/19233Y10T74/19391Y10T74/194Y10T74/19405
    • An input shaft 10 is connected rotationally with an intermediary shaft 20 through a connecting drive gear GCV, a connecting first idle gear GC1, a connecting second idle gear GC2 and a connecting driven gear GCN. A fourth speed drive gear G4V, which is formed in a one-piece body with a reverse drive gear GRV, is provided rotatably over the input shaft 10, and a third speed drive gear G3V is provided rotatably over the intermediary shaft 20. Both the third speed drive gear G3V and the fourth speed drive gear G4V mesh with a third and fourth speed driven gear G34N, which is provided rotatably over an output shaft 40. Also, a reverse driven gear GRN, which is connected rotationally with the reverse drive gear GRV through a reverse idle gear GRI, is provided rotatably over the output shaft 40. Either the third and fourth speed driven gear G34N or the reverse driven gear GRN is connected to the output shaft 40 by a selective clutch CTD.
    • 输入轴10通过连接驱动齿轮GCV,连接第一空转齿轮GC1,连接第二怠速齿轮GC2和连接从动齿轮GCN与中间轴20旋转地连接。 形成在具有倒档驱动齿轮GRV的一体式主体中的第四速度驱动齿轮G4V可旋转地设置在输入轴10上,并且第三速度驱动齿轮G3V可旋转地设置在中间轴20上。 第三速度驱动齿轮G3V和第四速度驱动齿轮G4V与可转动地设置在输出轴40上的第三和第四速度从动齿轮G34N啮合。而且,反向从动齿轮GRN,其与倒档驱动齿轮 GRV通过倒档惰轮GRI可旋转地设置在输出轴40上。第三和第四速度从动齿轮G34N或反向从动齿轮GRN都通过选择性离合器CTD连接到输出轴40。
    • 3. 发明申请
    • Parallel shaft transmission
    • 平行轴传动
    • US20050028625A1
    • 2005-02-10
    • US10898374
    • 2004-07-26
    • Kazuma Hatakeyama
    • Kazuma Hatakeyama
    • F16H3/093F16H3/08
    • F16H3/093F16H2003/0938F16H2200/006Y10T74/19233Y10T74/19242Y10T74/19251Y10T74/194
    • An input shaft 10 is connected rotationally with an intermediary shaft 20 through a main drive gear GMV, a connecting idle gear GCC and a connecting driven gear GCN and also connected rotationally with a countershaft 30 through the main drive gear GMV and a main driven gear GMN. A fourth speed drive gear G4V, which is provided on the countershaft 30, meshes with a fourth and sixth speed drive gear G46V, which is provided rotatably over the input shaft 10. Both the fourth and sixth speed drive gear G46V and a fifth speed drive gear G5V, which is provided rotatably over the intermediary shaft 20, mesh with a fourth, fifth and sixth speed driven gear G456N, which is provided on the output shaft 50.
    • 输入轴10通过主驱动齿轮GMV,连接空转齿轮GCC和连接从动齿轮GCN与中间轴20旋转地连接,并且还通过主驱动齿轮GMV和主从动齿轮GMN与副轴30旋转地连接 。 设置在中间轴30上的第四速驱动齿轮G4V与可旋转地设置在输入轴10上的第四和第六速度驱动齿轮G46V啮合。第四速度驱动齿轮G46V和第五速度驱动齿轮 齿轮G5V可旋转地设置在中间轴20上,与设置在输出轴50上的第四,第五和第六速度从动齿轮G456N啮合。
    • 4. 发明授权
    • Four parallel shaft type automatic transmission
    • 四轴并联轴式自动变速器
    • US06494110B2
    • 2002-12-17
    • US09822229
    • 2001-04-02
    • Kazuma Hatakeyama
    • Kazuma Hatakeyama
    • F16H3093
    • F16H3/093F16H2003/0938F16H2200/0047Y10T74/19223Y10T74/19228Y10T74/19233
    • In a four parallel shaft type automatic transmission, the driving force of a main shaft is transmitted to a first sub-shaft and a second sub-shaft via a gear train. A first speed clutch provided on the first sub-shaft and a fourth speed clutch and a fifth speed - reverse clutch provided on the main shaft on the left-hand side of the gear train are placed so that they are aligned in a direction perpendicular to the shafts, and a second speed clutch provided on the first sub-shaft and a third speed clutch provided on the second sub-shaft on the right-hand side of the gear train are placed so that they are aligned in a direction perpendicular to the shafts. Therefore, the overall axial length of the five clutches can be shortened so reducing the size of the automatic transmission.
    • 在四平行轴式自动变速器中,主轴的驱动力通过齿轮系传递到第一副轴和第二副轴。 设置在第一子轴上的第一速度离合器和设置在齿轮系左侧的主轴上的第四速度离合器和第五速度 - 倒档离合器被放置成使得它们沿垂直于 轴和设置在第一副轴上的第二速度离合器和设置在齿轮系右侧的第二副轴上的第三速离合器被放置成使得它们在与 轴。 因此,可以缩短五个离合器的整体轴向长度,从而减小自动变速器的尺寸。
    • 6. 发明授权
    • Hydraulically operated transmission with reverse torque limiter
    • 具有反向扭矩限制器的液压传动装置
    • US4934207A
    • 1990-06-19
    • US279691
    • 1988-12-05
    • Keiichi IshikawaKazuma Hatakeyama
    • Keiichi IshikawaKazuma Hatakeyama
    • F16H61/08
    • F16H61/08Y10T74/19158Y10T74/19433
    • Hydraulically operated transmission having plural gear trains each selectively established by engagement of an associated hydraulic clutch. Each hydraulic clutch has an outer member and an inner member with the inner member being divided into at least a first inner part and a second inner part engaged in parallel with the outer member. A one-way clutch is interposed between the first inner part and the second inner part of each hydraulic clutch. The first inner part of each clutch is directly coupled to a member on one of the input side and the output side of the hydraulic clutch. The second inner part is connected to that member through the one-way clutch so that the one-way clutch allows overrotation of the second inner part when the member is on the input side and overrotation of the member when it is on the output side.
    • 具有多个齿轮系的液压传动装置,每个齿轮系通过相关联的液压离合器的接合选择性地建立。 每个液压离合器具有外部构件和内部构件,其中内部构件被分成至少第一内部部分和与外部构件平行接合的第二内部部分。 单向离合器设置在每个液压离合器的第一内部部分和第二内部部分之间。 每个离合器的第一内部部分直接联接到液压离合器的输入侧和输出侧中的一个上的构件。 第二内部部件通过单向离合器连接到该构件,使得当构件在输入侧时,单向离合器允许第二内部部件的过度旋转,并且当构件在输出侧时,该单向离合器允许该构件的过度旋转。
    • 7. 发明授权
    • Transmission
    • 传输
    • US08677860B2
    • 2014-03-25
    • US13126582
    • 2009-11-13
    • Hisato NishidaKazuma HatakeyamaAkira FujimuraShuichi Fujimoto
    • Hisato NishidaKazuma HatakeyamaAkira FujimuraShuichi Fujimoto
    • F16H37/06
    • B60W10/06B60K6/36B60K6/387B60K6/48B60K6/547B60W10/08B60W10/113B60W10/26B60W10/30B60Y2400/428F16H3/006F16H2200/0052F16H2200/0056F16H2200/006Y02T10/6221Y02T10/6286
    • A transmission is provided in which gears (31 to 34) of a first gear group provided on a first auxiliary input shaft (13) to which driving force of a main input shaft (12) is transmitted via a first clutch (24) and gears (37 to 39) of a second gear group provided on a second auxiliary input shaft (14) to which the driving force of the main input shaft (12) is transmitted via an idle gear (17 to 19) and a second clutch (25) use in common gears (43 to 46) of a third gear group provided on an output shaft (16), whereby it becomes possible to cut the number of components and reduce the dimensions of the transmission. Further, since the advance/retard relationship between the timing with which the first and second clutches (24, 25) are switched over and the timing with which the synchronizing devices (35, 36, 41, 42) are switched over can be freely chosen when establishing any of the gear positions, it is possible to prevent the occurrence of shift shock due to timing lag, thus enabling gear shifting to be carried out smoothly.
    • 提供了一种变速器,其中设置在第一辅助输入轴(13)上的第一齿轮组的齿轮(31至34),主输入轴(12)的驱动力经由第一离合器(24)传递至齿轮 设置在第二辅助输入轴(14)上的第二齿轮组(37〜39),主输入轴(12)的驱动力经由空转齿轮(17〜19)和第二离合器(25)传递到第二辅助输入轴 )用于设置在输出轴(16)上的第三齿轮组的普通齿轮(43至46)中,从而可以切割部件的数量并减小变速器的尺寸。 此外,由于可以自由地选择第一和第二离合器(24,25)切换的定时与同步装置(35,36,41,42)切换的定时之间的提前/延迟关系 当建立任何齿轮位置时,可以防止由于定时滞后引起的换档冲击的发生,从而能够平稳地进行换档。
    • 8. 发明申请
    • Parallel shaft transmission
    • 平行轴传动
    • US20050028623A1
    • 2005-02-10
    • US10898305
    • 2004-07-26
    • Kazuma Hatakeyama
    • Kazuma Hatakeyama
    • F16H3/093F16H3/08
    • F16H3/093F16H2003/0938F16H2200/0056F16H2200/006Y10T74/19219Y10T74/19223Y10T74/19228Y10T74/19233
    • An input shaft 10 is connected rotationally with a first countershaft 40 through a second main drive gear GM2V and a second main driven gear GM2N, and a second countershaft 50 is provided externally, coaxially and rotatably with respect to the first countershaft 40. A first main drive gear GM1V which is provided on the input shaft 10, always meshes with a first main driven gear GM1N, which is provided rotatably over the second countershaft 50. A fourth, sixth and seventh speed drive gear G467V, which is provided rotatably over the input shaft 10, always meshes both with a fourth speed drive gear G4V, which is provided rotatably over the second countershaft 50, and with a fourth, fifth, sixth and seventh speed driven gear G4567N, which is provided on the output shaft 60.
    • 输入轴10通过第二主驱动齿轮GM2V和第二主从动齿轮GM2N与第一副轴40旋转连接,第二中间轴50相对于第一中间轴40在外部,同轴和可旋转地设置。第一主轴 设置在输入轴10上的驱动齿轮GM1V始终与可转动地设置在第二中间轴50上的第一主从动齿轮GM1N啮合。第四,第六和第七速度驱动齿轮G467V,其可旋转地设置在输入 轴10总是与在第二中间轴50上可旋转地设置的第四速度驱动齿轮G4V以及设置在输出轴60上的第四,第五,第六和第七速度从动齿轮G4567N啮合。
    • 10. 发明授权
    • Parallel shaft transmission
    • 平行轴传动
    • US07121161B2
    • 2006-10-17
    • US10898374
    • 2004-07-26
    • Kazuma Hatakeyama
    • Kazuma Hatakeyama
    • F16H3/08
    • F16H3/093F16H2003/0938F16H2200/006Y10T74/19233Y10T74/19242Y10T74/19251Y10T74/194
    • An input shaft 10 is connected rotationally with an intermediary shaft 20 through a main drive gear GMV, a connecting idle gear GCC and a connecting driven gear GCN and also connected rotationally with a countershaft 30 through the main drive gear GMV and a main driven gear GMN. A fourth speed drive gear G4V, which is provided on the countershaft 30, meshes with a fourth and sixth speed drive gear G46V, which is provided rotatably over the input shaft 10. Both the fourth and sixth speed drive gear G46V and a fifth speed drive gear G5V, which is provided rotatably over the intermediary shaft 20, mesh with a fourth, fifth and sixth speed driven gear G456N, which is provided on the output shaft 50.
    • 输入轴10通过主驱动齿轮GMV,连接空转齿轮GCC和连接从动齿轮GCN与中间轴20旋转地连接,并且还通过主驱动齿轮GMV和主从动齿轮GMN与副轴30旋转地连接 。 设置在中间轴30上的第四速度驱动齿轮G 4 V与可旋转地设置在输入轴10上的第四和第六速度驱动齿轮G 46 V啮合。 第四和第六速度驱动齿轮G 46 V和可转动地设置在中间轴20上的第五速度驱动齿轮G 5 V与第四,第五和第六速度从动齿轮G 456 N啮合, 输出轴50。