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    • 71. 发明专利
    • Rotation detector
    • 旋转探测器
    • JP2006300599A
    • 2006-11-02
    • JP2005119742
    • 2005-04-18
    • Shinko Electric Co Ltd神鋼電機株式会社
    • KAWABE MORIOHAMAGUCHI MASAYUKI
    • G01P3/488
    • PROBLEM TO BE SOLVED: To raise a coil output voltage in a rotation detector.
      SOLUTION: The rotation detector is provided with a stator 3 and an inductor 2. Protrusions 21 and recesses 22 are formed at regular intervals in the overall circumference of a circumferential surface of the inductor 2. The stator 30 is provided with a permanent magnet 30; a first yoke 31 joined to one pole on one side of the permanent magnet 30; and a second yoke 32 jointed to the other pole on the other end of the permanent magnet 30. The first yoke 31 and the second yoke 32 are each provided with magnetic poles 41-43 and 44-46 in such a way as to be opposed to the circumferential surface of the inductor 2 at the intervals of gaps g
      1 -g
      6 , and coils 51-56 are each fitted in the magnetic poles 41-46. The magnetic poles 41-43 of the first yoke 31 and the magnetic poles 44-46 of the second yoke 32 are symmetrically arranged, and coils (53 and 54, 52 and 55, and 51 and 56) of the symmetrically arranged magnetic poles are connected in parallel.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提高旋转检测器中的线圈输出电压。 旋转检测器设置有定子3和电感器2.突起21和凹部22在电感器2的圆周表面的整个圆周上以规则的间隔形成。定子30设置有永久 磁铁30; 与永磁体30一侧的一个极接合的第一磁轭31; 以及与永磁体30的另一端连接的另一极的第二磁轭32.第一磁轭31和第二磁轭32分别设置有磁极41-43和44-46,以相对的方式 以间隙g -g 6 连接到电感器2的圆周表面,并且线圈51-56各自装配在磁极41-46中。 第一磁轭31的磁极41-43和第二磁轭32的磁极44-46对称地配置,对称配置的磁极的线圈(53,54,52,55,51,56) 并联连接 版权所有(C)2007,JPO&INPIT
    • 72. 发明专利
    • Rotation detector
    • 旋转探测器
    • JP2006300598A
    • 2006-11-02
    • JP2005119741
    • 2005-04-18
    • Shinko Electric Co Ltd神鋼電機株式会社
    • KAWABE MORIOHAMAGUCHI MASAYUKI
    • G01P3/488
    • PROBLEM TO BE SOLVED: To provide a rotation detector having a large coil output voltage for improving accuracy and stability of a control system using AC signals acquired from the rotation detector.
      SOLUTION: The rotation detector is provided with a stator 3 and an inductor 2, and protrusions 21 and recesses 22 are formed at regular intervals in the overall circumference of a circumferential surface of the inductor 2. The stator 30 comprises a permanent magnet 30; pole pieces 3132 joined to the poles of the permanent magnet 30; a plurality of magnetic poles 41-44 provided for the pole pieces 3132 in such a way as to be opposed to the protrusions and the recesses of the inductor 2 at the intervals of gaps (g); and coils 51 and 54 each fitted in the magnetic poles 41-44. The coils 51-54 are each arranged on the side of the tips of the magnetic poles 41-44. To be concrete, h≥0.5 L (wherein, the length of the magnetic pole is L; and the distance between a root part of the magnetic pole to a coil end on the root side is h), and a≤0.5 L (wherein, the length of the coil is a).
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供具有大的线圈输出电压的旋转检测器,以提高使用从旋转检测器获取的AC信号的控制系统的精度和稳定性。 解决方案:旋转检测器设置有定子3和电感器2,并且在电感器2的圆周表面的整个圆周上以规则的间隔形成突起21和凹部22.定子30包括永磁体 30; 接合到永磁体30的极的极片3132; 设置用于极片3132的多个磁极41-44,以与间隔(g)间隔的电感器2的突起和凹部相对的方式; 以及各自装配在磁极41-44中的线圈51和54。 线圈51-54各自布置在磁极41-44的尖端的侧面。 具体而言,h≥0.5L(其中,磁极的长度为L,磁极的根部与根侧的线圈端的距离为h),a≤0.5L(其中, 线圈的长度为a)。 版权所有(C)2007,JPO&INPIT
    • 74. 发明专利
    • Testing device for power transmission system, and control method therefor
    • 用于电力传输系统的测试装置及其控制方法
    • JP2006242593A
    • 2006-09-14
    • JP2005054860
    • 2005-02-28
    • Shinko Electric Co Ltd神鋼電機株式会社
    • KAWAMURA HIROTOSHI
    • G01M15/04
    • PROBLEM TO BE SOLVED: To suppress ripple of torque estimation without largely reducing response of electric inertial control even when the gain of a torque observer is increased. SOLUTION: A control means 5 estimates the speed of a dynamometer 3 using one inertial system as a model in the torque observer 6, and multiplies the deviation of the estimated speed ω m ^ from the real speed ω m of the dynamometer 3 by a proportional gain G with a torque estimating section 8, thereby estimating the generated torque τ e ^ of a power source. At this time, the ripple of the torque estimation is suppressed by removing a high frequency component of the deviation with a low pass filter 40 in a front stage of the torque estimation, a torque command τ* of the dynamometer 3 is calculated based on the generated torque τ e ^ of the power source, and the generated torque of the dynamometer 3 is controlled. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:即使当扭矩观测器的增益增加时,也可以抑制转矩估计的波动,而不会大大降低电动惯性控制的响应。 解决方案:控制装置5使用一个惯性系统作为扭矩观测器6中的模型来估计测力计3的速度,并将估计速度ω m 的偏差与真实的 通过具有转矩估计部分8的比例增益G,测量机3的速度ω m ,从而估计电源的产生转矩τ。 此时,通过在转矩推定的前级中用低通滤波器40去除偏差的高频分量来抑制转矩估计的纹波,基于该方法计算测力计3的转矩指令τ* 产生电力的转矩τ,控制测功机3产生的转矩。 版权所有(C)2006,JPO&NCIPI
    • 75. 发明专利
    • Clutch device
    • 离合器件
    • JP2006242258A
    • 2006-09-14
    • JP2005057712
    • 2005-03-02
    • Shinko Electric Co Ltd神鋼電機株式会社
    • KUWABARA HIDEAKIMURASE SHINKO
    • F16D27/112
    • PROBLEM TO BE SOLVED: To provide a clutch device composed by further reducing its diameter and its thickness while succeeding advantages of a conventional technique. SOLUTION: This clutch device having a structure for transmitting torque to an armature 20 via a hub armature 10 is so structured that projection parts 22 for receiving torque transmitted from the hub armature 10 are formed on the inner diameter side of the armature 20; and surfaces 22a of the projection parts 22 for receiving the torque at an end thereof are axially bent. The projection part may be formed into a double bent shape where the base part of the projection part is axially bent and the branch part of the projection part is radially bent. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种通过进一步减小其直径和厚度而组合的离合器装置,同时具有传统技术的优点。 解决方案:具有用于经由轮毂电枢10向电枢20传递扭矩的结构的离合器装置被构造成使得用于接收从轮毂电枢10传递的扭矩的突出部22形成在衔铁20的内径侧 ; 并且用于在其一端接收转矩的突出部分22的表面22a被轴向弯曲。 突起部可以形成为双弯曲形状,其中突出部的基部轴向弯曲并且突出部的分支部分径向弯曲。 版权所有(C)2006,JPO&NCIPI
    • 76. 发明专利
    • Component transfer device
    • 组件传输设备
    • JP2006240793A
    • 2006-09-14
    • JP2005056764
    • 2005-03-02
    • Shinko Electric Co Ltd神鋼電機株式会社
    • MORIHANA TOSHIMITSU
    • B65G27/24
    • PROBLEM TO BE SOLVED: To solve a problem that large vibrations are generated on a transfer passage even though vibrations given by an excitation device are small. SOLUTION: A component transfer device comprises a base 5, a transfer passage supporting member 2 for supporting the transfer passage 1, and a pair of plate springs 3a, 3b supporting the transfer passage supporting member 2 to be able to vibrate in the transfer direction of a component 10 and provided on the base 5 to incline to the upstream side of the transfer direction with a space between themselves in the transfer direction. Furthermore, the device also comprises an excitation device 4 for giving vibrations to the transfer passage supporting member 2, having a movable element 42 capable of reciprocating, positioned below the transfer passage supporting member 2, and provided at the base 5 so as to make the movable element 42 reciprocate obliquely upward to the downstream side of the transfer direction. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了解决即使由励磁装置给出的振动较小也能在传送路径上产生大的振动的问题。 解决方案:组件传送装置包括底座5,用于支撑传送通道1的传送通道支撑构件2和支撑传送通道支撑构件2以能够在传送通道1中振动的一对板簧3a,3b 组件10的传送方向并设置在基座5上,在传送方向上以它们之间的空间向传送方向的上游侧倾斜。 此外,该装置还包括用于向传送通道支撑构件2施加振动的激励装置4,具有能够往复运动的可移动元件42,位于传送通道支撑构件2的下方,并且设置在基部5处, 可移动元件42向斜上方往复移动到传送方向的下游侧。 版权所有(C)2006,JPO&NCIPI
    • 77. 发明专利
    • METHOD FOR MELTING ALLOY IN MELTING FURNACE
    • JP2006225698A
    • 2006-08-31
    • JP2005039076
    • 2005-02-16
    • SHINKO ELECTRIC CO LTD
    • TSUDA MASANORINAKAI YASUHIRO
    • C22C1/02F27B14/06F27D11/06
    • PROBLEM TO BE SOLVED: To provide a method for melting an alloy in a melting furnace, in which the additive is prevented from being left without melt so as to prevent the composition of the alloy from being mismatched. SOLUTION: The method for melting the alloy includes: a process in which before adding the additive 54, an electric power less in a prescribed amount than the necessary power consumption to melt and hold the alloy formed by melting the molten metal 52 and the additive 54, is supplied to the melting furnace 50; a process in which the additive 54 is added while supplying the power less in the prescribed amount to the melting furnace 50; and a process in which after adding the additive 54, the power consumption for supplying to the melting furnace 50 is returned back to the original necessary power consumption for melting and holding the alloy formed by melting the molten metal 52 and the additive 54. In this case, the power consumption for reducing the power is preferably set to the reduced power consumption for attaining a skull thickness almost matched to the assumed amount of the skull thickness in the case of being the necessary power consumption for melting and holding after adding the additive 54. COPYRIGHT: (C)2006,JPO&NCIPI
    • 80. 发明专利
    • Lift
    • 电梯
    • JP2006176276A
    • 2006-07-06
    • JP2004371221
    • 2004-12-22
    • Shinko Electric Co Ltd神鋼電機株式会社
    • FUNATO MANABU
    • B65G49/06H01L21/677
    • PROBLEM TO BE SOLVED: To provide a lift capable of stably lifting a large size work and restraining increase of dimension and weight of the device and, furthermore, capable of reducing the labor for delivery. SOLUTION: The lift 10 is provided with a base unit 12 having a plurality of posts 21 and 22, a work support unit 13 for supporting works, and a lifting mechanism 14 having a plurality of bending arm units 41, 42, 43 and 44 connected to the posts 21 and 22 of the base unit 12 in one end thereof and connected to the work support unit 13 in the other end thereof. When lifting the work, the work support unit 13 is arranged at a position higher than the plurality of posts 21 and 22, and when lowering the work, at least one part of the work support unit 13 is arranged between the plurality of posts 21 and 22. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种能够稳定地提升大型作业并且抑制装置的尺寸和重量的增加的电梯,并且还能够减少输送的劳动。 解决方案:升降机10设置有具有多个支柱21和22的基座单元12,用于支撑工件的工件支撑单元13和具有多个弯曲臂单元41,42,43的提升机构14 并且在其一端连接到基座单元12的柱21和22并在其另一端连接到工件支撑单元13。 在起作用的同时,工件支承部13配置在比多个支柱21,22高的位置,在下降工时,工件支承部13的至少一部分配置在多个支柱21和 (C)2006年,JPO&NCIPI