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    • 2. 发明授权
    • Elastic mount and method of manufacturing the elastic mount
    • 弹性安装座及其制造方法
    • US5249782A
    • 1993-10-05
    • US985108
    • 1992-12-03
    • Akiyoshi IdeKatsuhiro GotoYutaka IshiokaYoshiki FunahashiRentaro KatoTetsu MatsuiRyouji KandaAtsushi MuramatsuKeiichi Ishiba
    • Akiyoshi IdeKatsuhiro GotoYutaka IshiokaYoshiki FunahashiRentaro KatoTetsu MatsuiRyouji KandaAtsushi MuramatsuKeiichi Ishiba
    • F16F13/26F16M1/00
    • F16F13/264
    • A fluid-filled elastic mount wherein an elastic body elastically connecting first and second supports partially defines a fluid chamber filled with a non-compressible fluid. The elastic mount includes an oscillating plate which partially defines the fluid chamber and which is displaceable to change a pressure of the fluid in the fluid chamber, and a permanent magnet disposed on one of opposite sides of the oscillating plate remote from the fluid chamber. The permanent magnet is made of a plastic magnetic material including a magnetic material and a plastic material as a binder for the magnetic material. First and second yoke members are held in contact with opposite magnetic pole faces of the magnet, and cooperate with the magnet to define a close magnetic circuit. The yoke members define therebetween an annular gap in the magnetic circuit, in which an annular moving coil is received. The coil is fixed to the oscillating plate, to oscillate the oscillating plate upon energization of the coil. Also disclosed is a method of manufacturing the elastic mount, in which a spacing between the yoke members is filled with the plastic magnetic material in a plasticized state, which is then solidified to provide the permanent magnet.
    • 一种流体充填的弹性支架,其中弹性连接第一和第二支撑件的弹性体部分地限定了填充有不可压缩流体的流体室。 弹性支架包括一个摆动板,该振动板部分地限定流体室并且可移动以改变流体室中的流体的压力,以及设置在远离流体室的振动板的相对侧中的一个上的永磁体。 永磁体由包括磁性材料的塑料磁性材料和作为磁性材料的粘合剂的塑料材料制成。 第一和第二轭构件与磁体的相对的磁极面保持接触,并与磁体配合以形成紧密的磁路。 轭构件在其间限定磁路中的环形间隙,其中接收环形活动线圈。 线圈被固定到振荡板上,以在线圈通电时振荡振荡板。 还公开了一种制造弹性安装件的方法,其中轭构件之间的间隔以塑化状态填充塑料磁性材料,然后固化以提供永磁体。
    • 5. 发明授权
    • Fluid-filled mounting device
    • 流体填充装置
    • US5143358A
    • 1992-09-01
    • US460071
    • 1990-01-30
    • Masayuki HibiYoshiki FunahashiKatsuhiro Goto
    • Masayuki HibiYoshiki FunahashiKatsuhiro Goto
    • F16M7/00F16F13/00F16F13/10F16F13/14F16F13/22
    • F16F13/1436
    • A mounting device such as an engine mount for automobiles, which receives various types of vibrations over a wide frequency range, is required to exhibit a low dynamic spring constant with respect to the input vibrations in a middle- to high-frequency range, while assuring high damping characteristics with respect to the input vibrations in a low frequency range. The present invention provides a fluid-filled mounting device wherein a pressure-receiving chamber (38) which receives vibrations and a variable-volume equilibrium chamber (40) are disposed between a first and a second support member (10, 14) which are elastically connected to each other by an elastic rubber body (26), such that the pressure-receiving and equilibrium chambers are filled with a predetermined non-compressible fluid, and are held in communication with each other via an orifice passage (46), and wherein a movable member (54) is movably accommodated in the pressure-receiving chamber (38) while a support member is provided for preventing the movable member (54) from contacting the inner wall of the pressure-receiving chamber (38) whereby a resonance portion having a predetermined space is formed around the movable member (54), so that the fluid is caused to flow through the resonance portion upon application of the vibrations. The mounting device according to the present invention can exhibit a high damping effect against the input vibrations in a low frequency range, due to a resonance of the fluid flowing through the orifice passage (46), and can also provide a low dynamic spring constant against the input vibrations in a middle- to high-frequency range, due to a resonance of the fluid flowing through the resonance portion formed around the movable member (54).
    • 9. 发明授权
    • Active vibration damping actuator and active damping apparatus using the same
    • 主动减振执行机构及使用其的主动减振装置
    • US07128311B2
    • 2006-10-31
    • US10808891
    • 2004-03-24
    • Katsuhiro GotoHajime MaenoKazuhiko KatoKei OkumuraKouichi MaedaTetsuo MikasaHirotomi NemotoHiroaki UeKen Iinuma
    • Katsuhiro GotoHajime MaenoKazuhiko KatoKei OkumuraKouichi MaedaTetsuo MikasaHirotomi NemotoHiroaki UeKen Iinuma
    • F16F5/00
    • F16F13/264F16F2230/0005
    • A vibration damping actuator including: a cup-shaped housing; an output member disposed spaced apart from an opening end of the housing; a guide rod disposed on the output member and positioned inserted into a guide hole; a coil member provided to one of the housing and the output member; an armature disposed on an other of the housing and the output member, the armature being adapted to exert actuating force on the output member; an annular fixing member arranged about the output member; a support rubber plate disposed between the annular fixing member and the output member; and a positioning projection formed at an inside peripheral edge of the fixing member by projecting the inside peripheral edge of the fixing member in cylindrical configuration in an axial direction towards an inside of the housing. The positioning projection is disposed at a location situated inward by a predetermined distance from the opening of the housing for positioning the fixing member relative to the housing.
    • 一种减震致动器,包括:杯形壳体; 输出构件,其与所述壳体的开口端间隔开设置; 引导杆,设置在所述输出构件上并定位成插入到引导孔中; 线圈构件,其设置在所述壳体和所述输出构件中的一个上; 设置在所述壳体和所述输出构件中的另一个上的衔铁,所述衔铁适于在所述输出构件上施加致动力; 围绕所述输出构件布置的环形固定构件; 设置在所述环形固定构件和所述输出构件之间的支撑橡胶板; 以及定位突起,其形成在所述固定构件的内周边缘处,通过使所述固定构件的内周缘沿轴向朝向所述壳体的内部突出。 定位突起设置在位于壳体的开口内侧预定距离内的位置处,用于相对于壳体定位固定构件。
    • 10. 发明授权
    • Air-pressure type excitation apparatus
    • 气压式励磁装置
    • US06742333B2
    • 2004-06-01
    • US10270646
    • 2002-10-16
    • Katsuhiro Goto
    • Katsuhiro Goto
    • F15B13044
    • F16F13/26
    • A control section outputs a reference signal which corresponding to a frequency and an amplitude of signals sent from a vibration generation source. The pulse width modulation section generates a drive control signal to, an electromagnetic valve, connection of an air chamber and is alternately switched between the side of an inlet port and the side of the atmosphere. The drive control signal corresponds to an amplitude of the reference signal and is composed of at least the same number of pulses corresponding to a duty ratio-changed frequency as that of each one period of the standard signal. The drive control signal is synchronized with the standard signal. The number of pulses of the drive control signal for each period of the reference signal is changed corresponding to a control frequency of the standard signal so that the number of pulses and the control frequency is not larger than a responding frequency of the electromagnetic valve.
    • 控制部分输出对应于从振动发生源发送的信号的频率和振幅的参考信号。 脉冲宽度调制部分产生一个驱动控制信号,一个电磁阀,一个空气室的连接,并且在入口侧和大气侧交替切换。 驱动控制信号对应于参考信号的幅度,并且由与标准信号的每个周期的占空比变化频率相对应的至少相同数量的脉冲组成。 驱动控制信号与标准信号同步。 参考信号的每个周期的驱动控制信号的脉冲数根据标准信号的控制频率而改变,使得脉冲数和控制频率不大于电磁阀的响应频率。