会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 8. 发明申请
    • ELECTRODYNAMIC ACTUATOR AND ELECTRODYNAMIC EXCITATION DEVICE
    • 电动执行器和电动激励装置
    • US20140049122A1
    • 2014-02-20
    • US14060969
    • 2013-10-23
    • Sigeru MATSUMOTO
    • Sigeru MATSUMOTO
    • H02K41/02
    • H02K41/02B06B1/045G01M7/027G01M7/06H02K33/12
    • A linear actuator, comprising: a base; a fixed part support mechanism attached to the base; a fixed part elastically supported by the fixed part support mechanism; and a movable part driven to reciprocate in a predetermined drive direction with respect to the fixed part, wherein the fixed part support mechanism comprises: a movable block attached to the fixed part; a linear guide that couples the movable block with the base to be slidable in the predetermined drive direction; and an elastic member that is disposed between the base and the movable block and prevents transmission of a high frequency component of vibration in the predetermined drive direction.
    • 一种线性致动器,包括:基座; 固定部分支撑机构附着在基座上; 固定部分,由固定部分支撑机构弹性支撑; 以及可动部,被驱动成相对于所述固定部在预定的驱动方向上往复运动,其中,所述固定部支撑机构包括:附接到所述固定部的可动块; 线性引导件,其将可移动块与基座联接以在预定驱动方向上可滑动; 以及弹性构件,其设置在所述基座和所述可动块之间,并且防止在所述预定驱动方向上传输高频振动的分量。
    • 9. 发明申请
    • NACELLE TEST APPARATUS
    • NACELLE测试装置
    • US20130333478A1
    • 2013-12-19
    • US13898582
    • 2013-05-21
    • Jens Bomholt Jensen
    • Jens Bomholt Jensen
    • G01M7/02
    • G01M7/02F03D17/00F05B2260/83G01M7/027G01M7/06Y02E10/722Y02E10/726
    • A nacelle test apparatus for testing a wind turbine nacelle is provided. The test apparatus includes a physical tower model apparatus realised to model the behaviour of a wind turbine tower and/or a physical rotor model apparatus realised to model the behaviour of a wind turbine rotor, and an exciter apparatus for exciting a physical model apparatus. Also provided is a method of testing a wind turbine nacelle, which method includes mounting the nacelle onto a physical tower model apparatus of a nacelle test apparatus, which physical tower model apparatus is realised to model the behaviour of a wind turbine tower, and/or mounting a physical rotor model apparatus of the nacelle test apparatus to a hub of the nacelle, which physical rotor model apparatus is realised to model the behaviour of a wind turbine rotor, and exciting the physical tower model apparatus and/or the physical rotor model apparatus.
    • 提供了一种用于测试风力涡轮机机舱的机舱测试装置。 测试装置包括实现为对风力涡轮机塔架的行为进行建模的物理塔架模型设备和/或实现用于对风力涡轮机转子的行为进行建模而实现的物理转子模型设备,以及用于激励物理模型设备的激励器设备。 还提供了一种测试风力涡轮机机舱的方法,该方法包括将机舱安装到机舱试验装置的物理塔架模型装置上,该实际塔架模型装置被实现为对风力涡轮机塔架的行为进行建模和/或 将机舱试验装置的物理转子模型装置安装到机舱的轮毂上,该物理转子模型装置被实现以对风力涡轮机转子的行为进行建模,并激励物理塔架模型装置和/或物理转子模型装置 。
    • 10. 发明授权
    • High-frequency, hexapod six degree-of-freedom shaker
    • 高频,六足六自由度摇床
    • US08453512B2
    • 2013-06-04
    • US12802949
    • 2010-06-17
    • Felix T. SassoWalter H. ChungJohn A. L. Shishido
    • Felix T. SassoWalter H. ChungJohn A. L. Shishido
    • B06B3/00
    • G01C25/00G01C19/72G01M7/022G01M7/025G01M7/027G01M7/06
    • A shaker for enabling the testing of gyros and/or other devices for performance under realistic 6DOF motions. The shaker may be implemented as a hexapod, comprising a plate and six individually, simultaneously, and real-time controllable strut assemblies that are capable of extending and contracting linearly. The strut assemblies may comprise high-precision, linear electromagnetic actuators. The strut assemblies may also comprise high-precision non-contact sensors to sense the extension/contraction of the strut assemblies along their stroke length. In addition, the strut assemblies may comprise, at each end thereof, stiff, bendable flexures to attain the repeatable and linear motion required. The controller preferably has a control bandwidth of 1000 Hz or more, so that the motion of the plate can be precisely controlled to realize realistic 6DOF motions.
    • 振动筛,用于在现实的6DOF运动下进行陀螺仪和/或其他设备的性能测试。 振动器可以被实现为六足动物,包括板和六个单独地,同时的和实时可控的支柱组件,其能够线性地延伸和收缩。 支柱组件可以包括高精度线性电磁致动器。 支柱组件还可以包括高精度非接触传感器,以沿着其行程长度来感测支柱组件的伸缩。 此外,支柱组件在其每个端部可以包括刚性的可弯曲弯曲以获得所需的可重复和线性运动。 控制器优选地具有1000Hz以上的控制带宽,使得可以精确地控制板的运动以实现真实的6DOF运动。