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公开(公告)号:US20100148463A1
公开(公告)日:2010-06-17
申请号:US12379899
申请日:2009-03-04
申请人: Fu-cheng Wang , Hsiang-an Chan
发明人: Fu-cheng Wang , Hsiang-an Chan
CPC分类号: F16F15/03 , B60G13/14 , B60G17/015 , B60G2202/16 , B60G2202/25 , B60G2202/42 , B60G2204/419 , F16F2232/06 , Y10T74/19749
摘要: The invention provides a mechatronic suspension system and a method for shock absorbing thereof. The invention applies the analogies between mechanical and electronic networks to propose a mechatronic suspension system, which combines a ball-screw inerter and a permanent magnet electric machinery, such that the complicated network structure can be realized through the combination of mechanical and electronic networks. The mechatronic suspension system is connected to two terminals, and consists of the inerter mechanism, the permanent magnet electric machinery and the feedback circuit. The inerter mechanism is connected to the terminals to transfer the linear motion into the rotational motion. The permanent magnet electric machinery is connected to the inerter mechanism to generate a corresponding voltage. And the feedback circuit is connected to the permanent magnet electric machinery to provide suitable system impedance and to generate a feedback force.
摘要翻译: 本发明提供一种机电一体化悬浮系统及其吸震方法。 本发明应用机械和电子网络之间的类比来提出一种组合滚珠丝杠惰化器和永磁电机的机电一体化悬挂系统,从而可以通过机械和电子网络的组合来实现复杂的网络结构。 机电一体式悬挂系统连接到两个端子,由重载机构,永磁电机和反馈电路组成。 重载机构连接到端子以将线性运动转移到旋转运动中。 永磁电机连接到惰化机构以产生相应的电压。 并且反馈电路连接到永磁电机,以提供适当的系统阻抗并产生反馈力。
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