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    • 1. 发明授权
    • Electrical adapter system
    • US10008817B2
    • 2018-06-26
    • US15095970
    • 2016-04-11
    • Correlated Magnetics Research, LLC
    • Larry W. FullertonMark D. Roberts
    • H01R31/06H01R33/22H01R13/62H01R13/66
    • H01R31/065H01R13/6205H01R13/6675H01R33/22
    • An electrical system includes an electrical adapter and a stackable electrical adapter. The electrical adapter includes at least one of an electrical plug or an Edison screw base configured to receive a primary voltage, a voltage converter circuit configured to convert the primary voltage to the secondary voltage, and a first electrical connector part configured to be detachably coupled to a second electrical connector part of an electrical fixture configured to be powered by the secondary voltage. The stackable electrical adapter is configured to be powered by the secondary voltage, the first stackable electrical adapter having a first side and a second side opposite the first side. The electrical adapter is configured to be electrically connected to the first side of the first stackable electrical adapter or to an electrical fixture using a two part electrical connector to provide the secondary voltage and a ground, the electrical fixture is configured to be powered by the secondary voltage, where the second side of the stackable electrical adapter is configured to be electrically connected to the electrical fixture or to be daisy-chained to a second stackable electrical adapter using the two part electrical connector to provide the secondary voltage and a ground, the second stackable electrical adapter being configured to be electrically connected to the electrical adapter and the electrical fixture and to be daisy-chained to the first stackable electrical adapter using the two part electrical connector to provide the secondary voltage and a ground.
    • 4. 发明申请
    • SYSTEM AND METHOD FOR MOVING AN OBJECT
    • 用于移动对象的系统和方法
    • US20150357108A1
    • 2015-12-10
    • US14829384
    • 2015-08-18
    • Correlated Magnetics Research, LLC.
    • Larry W. FullertonMark D. Roberts
    • H01F7/20H01F7/02
    • H01F7/0247H01F7/206H01F2003/103
    • An improved system and method for moving an object includes a first correlated magnetic structure associated with a first object and a second correlated magnetic structure associated with a second object. The first and second correlated magnetic structures are complementary coded to achieve a peak attractive tensile force and a peak shear force when their code modulos are aligned thereby enabling magnetic attachment of the two objects whereby movement of one object causes movement of the other object as if the two objects were one object. Applying an amount of torque to one correlated magnetic structures greater than a torque threshold causes misalignment and decorrelation of the code modulos enabling detachment of the two objects. The number, location, and coding of the correlated magnetic structures can be selected to achieve specific torque characteristics, tensile force characteristics, and shear force characteristics.
    • 用于移动对象的改进的系统和方法包括与第一对象相关联的第一相关磁结构和与第二对象相关联的第二相关磁结构。 第一和第二相关磁结构是互补编码的,以便当它们的编码模块对准时实现峰值有吸引力的拉力和峰值剪切力,从而使得两个对象能够磁性附接,从而一个对象的运动引起另一个对象的运动,如同 两个对象是一个对象。 将一定数量的扭矩应用于大于扭矩阈值的一个相关磁结构会导致代码模块的未对准和去相关,从而使两个对象脱离。 可以选择相关磁性结构的数量,位置和编码以实现特定的扭矩特性,拉力特性和剪切力特性。
    • 5. 发明授权
    • System and method for moving an object
    • 用于移动物体的系统和方法
    • US09111673B2
    • 2015-08-18
    • US14258776
    • 2014-04-22
    • Correlated Magnetics Research, LLC
    • Larry W. FullertonMark D. Roberts
    • H01F7/02
    • H01F7/0247H01F7/206H01F2003/103
    • An improved system and method for moving an object includes a first correlated magnetic structure associated with a first object and a second correlated magnetic structure associated with a second object. The first and second correlated magnetic structures are complementary coded to achieve a peak attractive tensile force and a peak shear force when their code modulos are aligned thereby enabling magnetic attachment of the two objects whereby movement of one object causes movement of the other object as if the two objects were one object. Applying an amount of torque to one correlated magnetic structures greater than a torque threshold causes misalignment and decorrelation of the code modulos enabling detachment of the two objects. The number, location, and coding of the correlated magnetic structures can be selected to achieve specific torque characteristics, tensile force characteristics, and shear force characteristics.
    • 用于移动对象的改进的系统和方法包括与第一对象相关联的第一相关磁结构和与第二对象相关联的第二相关磁结构。 第一和第二相关磁结构是互补编码的,以便当它们的编码模块对准时实现峰值有吸引力的拉力和峰值剪切力,从而使得两个对象能够磁性附接,从而一个对象的运动引起另一个对象的运动,如同 两个对象是一个对象。 将一定数量的扭矩应用于大于扭矩阈值的一个相关磁结构会导致代码模块的未对准和去相关,从而使两个对象脱离。 可以选择相关磁性结构的数量,位置和编码以实现特定的扭矩特性,拉力特性和剪切力特性。
    • 9. 发明申请
    • SYSTEM AND METHOD FOR AFFECTING FLUX OF MULTI-POLE MAGNETIC STRUCTURES
    • 影响多个磁性结构的通量的系统和方法
    • US20140191830A1
    • 2014-07-10
    • US14066426
    • 2013-10-29
    • Correlated Magnetics Research, LLC
    • Larry W. FullertonMark D. Roberts
    • H05K9/00
    • H05K9/00H01F3/12H01F7/0205
    • A shunt plate is provided that is associated with a first side of a multi-pole magnetic structure. The shunt plate provides a magnetic short between opposite polarity magnetic sources on the first side of said magnetic structure, the magnetic short causing a magnetic flux of said opposite polarity magnetic sources to be routed from said first side of the magnetic structure through said magnetic structure to the second side of said magnetic structure. The thickness of the shunt plate is selected by determining the integrated flux across a magnetic source of the magnetic structure such that the corresponding flux density in the shunt plate does not substantially exceed the flux density saturation level of a cross section of the shunt plate.
    • 提供了与多极磁性结构的第一侧相关联的并联板。 分流板在所述磁性结构的第一侧上的相反极性磁源之间提供磁性短路,使得所述相反极性磁体的磁通量通过所述磁性结构从所述磁性结构的所述第一侧路由到所述磁性短路到 所述磁性结构的第二面。 通过确定磁性结构的磁源上的积分磁通来选择分流板的厚度,使得分流板中的对应的磁通密度基本上不超过分流板的截面的磁通密度饱和度水平。
    • 10. 发明申请
    • MAGNETIC SHEAR FORCE TRANSFER DEVICE
    • 磁力剪切力传递装置
    • US20140062241A1
    • 2014-03-06
    • US13604939
    • 2012-09-06
    • Robert S. Evans
    • Robert S. Evans
    • H02K49/10
    • H02K49/104H02K49/108H02K2213/03
    • A magnetic shear force transfer device for transferring shear forces across a non-magnetic gap includes a first magnetic structure comprising concentric circular tracks of magnetic sources magnetically printed into a first magnetizable material a second magnetic structure comprising concentric circular tracks of magnetic sources magnetically printed into a second magnetizable material. Each concentric circular track has an even number of magnetic sources where adjoining magnetic sources alternate in polarity. One or more tracks of the first magnetic structure are rotated relative to one or more tracks of the second magnetic structure such that a maximum torque condition coincides to one angular orientation between the first and second magnetic structures.
    • 用于在非磁性间隙上传递剪切力的磁性剪切力传递装置包括第一磁性结构,其包括磁性地印刷到第一可磁化材料中的磁性体的同心圆形轨道,第二磁性结构包括磁性地印刷成 第二可磁化材料。 每个同心圆形轨道具有偶数个磁源,其中相邻的磁源在极性上交替。 第一磁性结构的一个或多个轨道相对于第二磁性结构的一个或多个轨道旋转,使得最大转矩条件与第一和第二磁性结构之间的一个角度取向一致。