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    • 1. 发明申请
    • VIBRATION ENERGY HARVESTING APPARATUS
    • 振动能量收集装置
    • WO2012088271A2
    • 2012-06-28
    • PCT/US2011/066486
    • 2011-12-21
    • OSCILLA POWER INC.NAIR, BalakrishnanMURPHREE, Zachary
    • NAIR, BalakrishnanMURPHREE, Zachary
    • H02K35/02
    • H01L41/125H02N2/186H02N2/188
    • An apparatus for harvesting energy is described. The apparatus includes a vibration component and a moving mass. The vibration component has a first and second end and further includes a magnetostrictive material. The vibration component further includes a conduction coil wrapped around the magnetostrictive material. The moving mass is coupled to the second end of the vibration assembly. The mass is configured to move in an oscillating path in response to forces acting on the vibration energy harvesting apparatus, inducing strain on the magnetostrictive material. The strain on the magnetostrictive material changes a magnetic property of the magnetostrictive material, inducing electrical energy in the conduction coil wrapped around the magnetostrictive material. Other embodiments of the apparatus are also described.
    • 描述了一种用于收集能量的设备。 该设备包括振动部件和运动质量。 振动部件具有第一端和第二端并且还包括磁致伸缩材料。 振动部件还包括缠绕在磁致伸缩材料周围的导电线圈。 运动质量块联接到振动组件的第二端。 质量块被配置为响应于作用在振动能量收集设备上的力在振荡路径中移动,从而在磁致伸缩材料上引起应变。 磁致伸缩材料上的应变改变了磁致伸缩材料的磁性特性,在卷绕在磁致伸缩材料周围的传导线圈中感应出电能。 该装置的其他实施例也被描述。
    • 3. 发明申请
    • WAVE ENERGY HARVESTER WITH IMPROVED PERFORMANCE
    • 具有改进性能的能量捕获器
    • WO2012024000A1
    • 2012-02-23
    • PCT/US2011/030977
    • 2011-04-01
    • OSCILLA POWER INC.NAIR, Balakrishnan
    • NAIR, Balakrishnan
    • F03B13/12
    • F03B13/1885F05B2220/707H01F1/147H01L41/125H02K7/18H02K99/10Y02E10/38
    • An apparatus for harvesting electrical power from hydrodynamic energy, the apparatus including a buoy or other water flotation device connected to an anchor by a tether and a magnetostrictive component having an internal pre-stressed magnetostrictive core that experiences at least a part of load changes experienced by the tether. The magnetic property of the magnetostrictive core is configured to change with changes in stress within the magnetostrictive core along at least one direction within the magnetostrictive component. The hydrodynamic energy acting on the buoy or other water flotation device results in changes in force within the tether, which in turn changes the stress within the magnetostrictive core and consequently changes a magnetic property. The magnetostrictive component is also configured such that the change in the magnetic property will result in a change in magnetic flux, which change can be used to generate electrical power.
    • 一种用于从流体动力能量收集电力的装置,该装置包括通过系绳连接到锚固件的浮标或其它水浮选装置,以及具有内部预应力磁致伸缩芯的磁致伸缩部件,其经受至少部分负载变化 系绳 磁致伸缩芯的磁特性被配置为沿着磁致伸缩部件内的至少一个方向随磁致伸缩芯内的应力变化而变化。 作用在浮标或其他水浮选装置上的流体动力能导致系链内的力的变化,这又改变了磁致伸缩芯内的应力并因此改变了磁性。 磁致伸缩部件也被配置为使得磁特性的变化将导致磁通量的变化,该变化可用于产生电力。
    • 5. 发明申请
    • DOWNHOLE ENERGY HARVESTING METHOD AND DEVICE
    • 井下能量采集方法和装置
    • WO2014100267A1
    • 2014-06-26
    • PCT/US2013/076276
    • 2013-12-18
    • OSCILLA POWER INC.
    • MURPHREE, ZacharyNAIR, Balakrishnan
    • H01L41/12
    • H02N2/18E21B41/0085H01L41/125
    • A device generates electrical energy from mechanical motion in a downhole environment. The device includes a magnetostrictive element and an electrically conductive coil. The magnetostrictive element has a first end and a second end. The first and second ends are coupled between a rotor and a bearing. The magnetostrictive element is configured to experience axial strain in response to radial movement of at least one of the rotor or the bearing with reference to the other. The electrically conductive coil is disposed in proximity to the magnetostrictive element. The coil is configured to generate an electrical current in response to a change in flux density of the magnetostrictive element.
    • 设备在井下环境中从机械运动产生电能。 该器件包括一个磁致伸缩元件和一个导电线圈。 磁致伸缩元件具有第一端和第二端。 第一和第二端联接在转子和轴承之间。 磁致伸缩元件构造为响应于参考另一个的转子或轴承中的至少一个的径向运动而经历轴向应变。 导电线圈设置在磁致伸缩元件附近。 线圈被配置为响应于磁致伸缩元件的磁通密度的变化而产生电流。
    • 7. 发明申请
    • ENERGY HARVESTING METHODS AND DEVICES, AND APPLICATIONS THEREOF
    • 能源采集方法和设备及其应用
    • WO2012103553A1
    • 2012-08-02
    • PCT/US2012/023179
    • 2012-01-30
    • OSCILLA POWER INC.NAIR, BalakrishnanGILL, Andrew, JosephMURPHREE, Zachary
    • NAIR, BalakrishnanGILL, Andrew, JosephMURPHREE, Zachary
    • H01L41/06
    • H02N2/186H01L41/125Y02E10/38
    • An apparatus harvests electrical power from mechanical energy. The apparatus includes first and second load-bearing structures, a plurality of magnetostrictive elements, and an electrical circuit or coil. The load-bearing structures experience a force from an external source. The magnetostrictive elements are arranged between the load-bearing structures. The load- bearing structures transfer at least a portion of the force to at least one of the magnetostrictive elements. In this way, at least one of the magnetostrictive elements experiences the force transferred from the load-bearing structures. The force on the magnetostrictive element causes a change in magnetic flux of the magnetostrictive element. The electrical circuit or coil is disposed within a vicinity of the magnetostrictive element which experiences the force. The electrical circuit or coil generates electric power in response to the change in the magnetic flux of the magnetostrictive element.
    • 一种装置从机械能收获电力。 该装置包括第一和第二承载结构,多个磁致伸缩元件以及电路或线圈。 承重结构经受外部来源的力。 磁致伸缩元件布置在承载结构之间。 承载结构将至少一部分力传递到至少一个磁致伸缩元件。 以这种方式,至少一个磁致伸缩元件经受从承载结构传递的力。 磁致伸缩元件上的力导致磁致伸缩元件的磁通量的变化。 电路或线圈设置在经历该力的磁致伸缩元件附近。 电路或线圈响应于磁致伸缩元件的磁通量的变化而产生电力。
    • 8. 发明申请
    • A ROTARY TO LINEAR CONVERTER FOR DOWNHOLE APPLICATIONS
    • 用于井下应用的线性转换器旋转
    • WO2014134227A1
    • 2014-09-04
    • PCT/US2014/018809
    • 2014-02-26
    • OSCILLA POWER INC.
    • NAIR, BalakrishnanGILL, Andrew, JosephDUDLEY, James, H.
    • H01L41/00
    • H01L41/125E21B41/0085H02N2/18
    • A device generates electrical energy from mechanical motion in a downhole environment. The device converts rotary motion into a linear strain in a magnetostrictive material. The device includes a rotor, a magnetostrictive element, and an electrically conductive coil. The rotor rotates within a stator of a drill string. The magnetostrictive element is attached to the rotor by a first ball joint. The magnetostrictive element is configured to experience axial strain in response to rotational movement of the rotor. The magnetostrictive element includes a second ball joint on an end of the magnetostrictive element opposite the first ball joint. The electrically conductive coil is disposed in proximity to the magnetostrictive element. The electrically conductive coil is configured to generate an electrical current in response to a change in flux density of the magnetostrictive element.
    • 设备在井下环境中从机械运动产生电能。 该装置将旋转运动转换成磁致伸缩材料中的线性应变。 该装置包括转子,磁致伸缩元件和导电线圈。 转子在钻柱的定子内旋转。 磁致伸缩元件通过第一球窝接头附接到转子。 磁致伸缩元件构造成响应于转子的旋转运动而经历轴向应变。 磁致伸缩元件包括位于与第一球窝接头相对的磁致伸缩元件端部的第二球形接头。 导电线圈设置在磁致伸缩元件附近。 导电线圈被配置为响应于磁致伸缩元件的磁通密度的变化而产生电流。