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    • 2. 发明申请
    • MOTOR-TYPE POWER DEVICE
    • 电机型动力装置
    • US20090127954A1
    • 2009-05-21
    • US12267891
    • 2008-11-10
    • Seiichi MOGI
    • Seiichi MOGI
    • H02K7/08H02K7/116
    • H02K7/116B60K17/12F16H57/0443F16H57/0476H02K9/19H02K2205/09
    • Due to a centrifugal force in a vehicle width direction due to turning of an automobile, oil in an electric motor housing chamber housing an electric motor and oil in a transmission housing chamber housing a reduction gear and a differential gear flows to-and-fro via oil communication passages that penetrate a partitioning wall. An opening on the transmission housing chamber side of the oil communication passages is spaced from the partitioning wall. Hence, when oil moves from the transmission housing chamber side to the electric motor housing chamber side, it is possible to prevent the oil quantity on the electric motor housing chamber side from increasing excessively and suppress an increase in resistance to oil stirring by a rotor of the electric motor while retaining a constant oil amount on the transmission housing chamber side to ensure lubricating performance for the reduction gear and the differential gear.
    • 由于汽车的转动引起的车辆宽度方向上的离心力,容纳电动机的电动机容纳室中的油和容纳减速齿轮和差动齿轮的变速器容纳室中的油经由 穿透分隔壁的油连通通道。 油连通通道的变速器容纳室侧的开口与分隔壁间隔开。 因此,当油从变速器容纳室侧移动到电动机容纳室侧时,可以防止电动机容纳室侧的油量过度增加,并且抑制转子对油搅拌的抵抗力的增加 电动机同时在变速器容纳室侧保持恒定的油量,以确保减速齿轮和差动齿轮的润滑性能。
    • 3. 发明授权
    • Motor drive unit
    • 电机驱动单元
    • US06952061B2
    • 2005-10-04
    • US10694405
    • 2003-10-28
    • Seiichi MogiKiyoshi Kimura
    • Seiichi MogiKiyoshi Kimura
    • F16H1/20H02K5/173H02K5/20H02K5/24H02K7/116F16C25/08H02K23/00
    • H02K7/116F16H1/20H02K5/1732H02K5/20H02K5/24
    • A motor drive unit 1 comprises an input shaft 10, a countershaft 20, a couple of helical gears, a housing 5 and a seventh bearing 57. The input shaft 10 is connected with the rotor shaft 60 of an electrical motor M for driving a vehicle, and the countershaft 20 is disposed in parallel with the input shaft 10, for rotational connection leading to drive wheels of the vehicle. The helical gears comprise a first gear 12 and a second gear 22, which enable power transmission from the input shaft 10 to the countershaft 20, and the housing 5 covers and retains the electrical motor M. The seventh bearing 57 is mounted in the housing 5, and it retains rotatably the end of the rotor shaft 60 that is located opposite to the coupled portion 14 of the rotor shaft 60 and the input shaft 10. At the coupled portion 14, a wave spring 82 is sandwiched between the rotor shaft 60 and the input shaft 10, so that the wave spring 82 pushes the rotor shaft 60 and the input shaft 10 axially away from each other, with the rotor shaft 60 pushing the housing 5 axially via the seventh bearing 57. Furthermore, the drive unit is arranged such that while the electrical motor M is in operation, an axial thrust acting on the input shaft 10 from the first gear 12 pushes the input shaft 10 to the rotor shaft 60. In this arrangement, the pushing force by which the rotor shaft 60 pushes the housing 5 is variable in correspondence to the operational condition of the electrical motor M.
    • 马达驱动单元1包括输入轴10,中间轴20,一对螺旋齿轮,壳体5和第七轴承57。 输入轴10与用于驱动车辆的电动机M的转子轴60连接,并且中间轴20与输入轴10平行设置,用于通向车辆的驱动轮的旋转连接。 螺旋齿轮包括第一齿轮12和第二齿轮22,其能够从输入轴10到中间轴20的动力传递,并且壳体5覆盖并保持电动机M.第七轴承57安装在壳体5中 并且其可旋转地保持转子轴60的与转子轴60和输入轴10的联接部分14相对的端部。 在耦合部分14处,波形弹簧82被夹在转子轴60和输入轴10之间,使得波形弹簧82将转子轴60和输入轴10轴向地相互转动,转子轴60 通过第七轴承57轴向推动壳体5。 此外,驱动单元布置成使得在电动机M运行时,从第一齿轮12作用在输入轴10上的轴向推力将输入轴10推到转子轴60。 在这种布置中,转子轴60推动壳体5的推力可根据电动机M的操作条件而变化。
    • 7. 发明授权
    • Electronic part mounting device
    • 电子零件安装装置
    • US06293003B1
    • 2001-09-25
    • US09000467
    • 1998-01-23
    • Kunio SakuraiWataru HiraiMinoru YamamotoSeiichi Mogi
    • Kunio SakuraiWataru HiraiMinoru YamamotoSeiichi Mogi
    • B23P1900
    • H05K13/0409Y10T29/53178Y10T29/53191Y10T74/18296Y10T74/2107
    • An electronic component mounting apparatus includes a plurality of pickup nozzles (1) which are attached to the periphery of a rotary table, that intermittently rotates. The apparatus also includes a cylindrical cam (105) having a cam groove (106, 107a, 107b) which allows the pickup nozzles (1) to move up and down. A first roller (5) is attached to a first slide portion (4a), which is equipped with the pickup nozzles 1. The first roller runs within the cam grooves (106, 107a, 107b) to make the pickup nozzles 1 move up and down. A second roller (6) is attached to a second slide portion 4b, which is attached to the pickup nozzles (1). The second roller runs within the cam grooves (106, 107a, 107b) to make the pickup nozzles move up and down together with the first roller. Also, springs (9) are provided for biasing the first and second rollers (5, 6) into contact with the two side surfaces, respectively, of the cam grooves (106, 107a, 107b).
    • 电子部件安装装置包括多个拾取喷嘴(1),其连接到旋转台的周边,其间歇地旋转。 该装置还包括具有允许拾取喷嘴(1)上下移动的凸轮槽(106,107a,107b)的圆柱形凸轮(105)。 第一辊(5)附接到配备有拾取喷嘴1的第一滑动部分(4a)。第一辊在凸轮槽(106,107a,107b)内延伸以使拾取喷嘴1向上移动, 下。 第二辊(6)附接到附接到拾取喷嘴(1)的第二滑动部分4b。 第二辊在凸轮槽(106,107a,107b)内延伸,以使拾取喷嘴与第一辊一起上下移动。 此外,弹簧(9)设置成用于使第一和第二辊(5,6)分别与凸轮槽(106,107a,107b)的两个侧表面接触。
    • 10. 发明授权
    • Method and apparatus for supporting printed board
    • 支撑印刷电路板的方法和装置
    • US5850689A
    • 1998-12-22
    • US586314
    • 1996-01-17
    • Seiichi MogiWataru HiraiMuneyoshi FujiwaraOsamu OkudaHirokazu Honkawa
    • Seiichi MogiWataru HiraiMuneyoshi FujiwaraOsamu OkudaHirokazu Honkawa
    • B23P19/00H05K13/00H05K13/04H05K3/30
    • H05K13/0061Y10T29/49131Y10T29/49133Y10T29/53178Y10T29/53261
    • A method for supporting a printed board. Includes a first step of conveying to a specified position by a conveying a printed board having a first reference hole and a second reference hole device a for setting a position and posture thereof. A second step stops the conveyed printed board at the specified position with a stop member. A third step inserts a first reference pin provided at the specified position into the first reference hole of the stopped printed board. A fourth step inserts a second reference pin into the second reference hole of the printed board. The second reference pin is movable in parallel to a mounting surface of the printed board and in any arbitrary direction relative to the first reference pin. A fifth step pinches the printed board to hold the position and posture thereof of a holding device with the first reference pin and the second reference pin both inserted. A sixth step draws out, after the fifth step, at least one reference pin of the first reference pin and the second reference pin from its corresponding reference hole. A seventh step mounts after the sixth step, an electronic component onto the printed board under the control of a control unit.
    • 一种用于支撑印刷电路板的方法。 包括通过输送具有第一参考孔的印刷电路板和用于设定其位置和姿势的第二参考孔装置a来输送到指定位置的第一步骤。 第二步将停止部件的输送印刷板停留在指定位置。 第三步将设置在指定位置的第一基准销插入已停止的印刷电路板的第一基准孔中。 第四步骤将第二参考销插入到印刷电路板的第二参考孔中。 第二参考销可平行于印刷电路板的安装表面并相对于第一参考销在任意任意方向上移动。 第五步骤夹住印刷板以保持其中插入有第一参考销和第二参考销的保持装置的位置和姿势。 在第五步骤之后,第六步骤从其相应的参考孔至少引出第一参考引脚和第二参考引脚的参考引脚。 在第六步骤之后,在控制单元的控制下,将电子部件安装到印刷电路板上。