公开(公告)号：US07971342B2

公开(公告)日：2011-07-05

申请号：US12133721

申请日：2008-06-05

Applicant: Rainer Meinke

Inventor： Rainer Meinke

IPC: H01F7/06

CPC classification number: H01F6/06 ,  G01R33/34007 ,  G01R33/34046 ,  G01R33/34053 ,  G01R33/34084 ,  H01F5/00 ,  H01F5/02 ,  H01F6/02 ,  H01F7/202 ,  H01F27/323 ,  H01F41/048 ,  H01F41/064 ,  H01F41/071 ,  H01F41/086 ,  H01F41/098 ,  H01F2027/2833 ,  H05H7/04 ,  Y10T29/49002 ,  Y10T29/4902 ,  Y10T29/49071 ,  Y10T29/49073

Abstract: A conductor assembly and method of manufacture. The assembly includes a magnetic coil positioned about a curvilinear axis with one or more coil rows comprising conductive material having an arcuate shape. A generated field is characterized by a dipole component having a first magnitude, a quadrupole component having a second magnitude, a sextupole component having a third magnitude and a decupole component having a fourth magnitude. The third and fourth magnitudes are each 10−3 the first magnitude or less.

Abstract translation: 一种导体组件及其制造方法。 组件包括围绕曲线轴线定位的一个或多个线圈排的磁性线圈，其包括具有弓形形状的导电材料。 所产生的场的特征在于具有第一量值的偶极分量，具有第二量值的四极分量，具有第三量值的六极分量和具有第四量值的十极分量。 第三和第四大小都是10-3第一级或更小。

公开(公告)号：US07893808B2

公开(公告)日：2011-02-22

申请号：US12133760

申请日：2008-06-05

Applicant: Rainer Meinke

Inventor： Rainer Meinke

IPC: H01F27/28 ,  H01F21/04 ,  H01F27/24

CPC classification number: H01F6/06 ,  G01R33/34007 ,  G01R33/34046 ,  G01R33/34053 ,  G01R33/34084 ,  H01F5/00 ,  H01F5/02 ,  H01F6/02 ,  H01F7/202 ,  H01F27/323 ,  H01F41/048 ,  H01F41/064 ,  H01F41/071 ,  H01F41/086 ,  H01F41/098 ,  H01F2027/2833 ,  H05H7/04 ,  Y10T29/49002 ,  Y10T29/4902 ,  Y10T29/49071 ,  Y10T29/49073

Abstract: A conductor assembly of the type which, when conducting current, generates a magnetic field or in which, in the presence of a changing magnetic field, a voltage is induced. In one series of embodiments a plurality of coil rows comprise conductor in a helical wiring pattern formed about an axis. One of the coil rows is positioned a radial distance R from the axis. For each of the coil rows the helical pattern comprises conductor loops each exhibiting a tilt in the same direction with respect to a plane transverse to the axis, the assembly capable of generating an axial field component and a transverse field component.

Abstract translation: 一种导体组件，其在传导电流时产生磁场，或者在存在变化的磁场的情况下产生电压。 在一系列实施例中，多个线圈排包括围绕轴线形成的螺旋布线图案的导体。 线圈列中的一个从轴线定位成径向距离R. 对于每个线圈列，螺旋形图案包括导体环，每个导体环相对于横向于轴的平面在相同方向上呈现倾斜，该组件能够产生轴向场分量和横向场分量。

公开(公告)号：US12081076B2

公开(公告)日：2024-09-03

申请号：US18222382

申请日：2023-07-14

Applicant: Advanced Magnet Lab, Inc.

Inventor： Mark Senti ,  Philippe Masson

IPC: H02K1/27 ,  H02K1/02 ,  H02K1/278

CPC classification number: H02K1/278 ,  H02K1/02

Abstract: A configuration of a plurality of elongate, axially-magnetized curvilinear permanent magnets having high length to cross-section ratio, produced, for example, by the PM-Wire manufacturing process, that produce an electric machine permanent magnet rotor structure with a very low intrinsic demagnetizing field, allowing for operation at high temperature, at high RPM, or enabling use of permanent magnets comprising low coercivity magnetic materials. Exemplary embodiments of two-pole, four-pole, six-pole and eight-pole rotor permanent magnet configurations for single and dual rotor applications. The novel configuration of axially-magnetized curvilinear permanent magnets reduces demagnetization at high temperature, increases electric machine power density, reduces weight by eliminating the need for back iron, increases motor reliability, reduces manufacturing costs, and enables higher electric motor torque and electric generators. Electric machines, rotors and magnets of the invention may contain no rare earth magnetic materials.

公开(公告)号：US20230361635A1

公开(公告)日：2023-11-09

申请号：US18222382

申请日：2023-07-14

Applicant: Advanced Magnet Lab, Inc.

Inventor： Mark Senti ,  Philippe Masson

IPC: H02K1/278 ,  H02K1/02

CPC classification number: H02K1/278 ,  H02K1/02

Abstract: A configuration of a plurality of elongate, axially-magnetized curvilinear permanent magnets having high length to cross-section ratio, produced, for example, by the PM-Wire manufacturing process, that produce an electric machine permanent magnet rotor structure with a very low intrinsic demagnetizing field, allowing for operation at high temperature, at high RPM, or enabling use of permanent magnets comprising low coercivity magnetic materials. Exemplary embodiments of two-pole, four-pole, six-pole and eight-pole rotor permanent magnet configurations for single and dual rotor applications. The novel configuration of axially-magnetized curvilinear permanent magnets reduces demagnetization at high temperature, increases electric machine power density, reduces weight by eliminating the need for back iron, increases motor reliability, reduces manufacturing costs, and enables higher electric motor torque and electric generators. Electric machines, rotors and magnets of the invention may contain no rare earth magnetic materials.

公开(公告)号：US10892672B2

公开(公告)日：2021-01-12

申请号：US16089622

申请日：2017-03-30

Applicant: Advanced Magnet Lab, Inc.

Inventor： Rainer Meinke ,  Shashikant Manikonda

IPC: H02K16/02 ,  H02K1/27 ,  H02K21/12 ,  B60K7/00 ,  H01F1/057 ,  H01F41/02 ,  H02K3/28 ,  H02K3/42 ,  H02K15/03 ,  B22F9/04

Abstract: A dual-rotor machine comprising a dual rotor support structure rotatably connected to a frame. A stationary stator is disposed between the rotors and is fixed to the frame. An inner rotor and outer rotor, each comprising a permanent magnet Halbach array, are coaxially disposed with the stator and are rotable about the stator. In this configuration, the inner rotor channels its magnetic flux to its outside, while the outer rotor channels its magnetic flux to its inside. The magnetic flux density at the stator for the dual-rotor machine can be as high as 2 Tesla or higher for high-grade neodymium-iron-boron permanent magnet material, and the stored magnetic energy for conversion to mechanical or electrical energy available to the stator may be at least 0.5 kJ/m. The rotor Halbach arrays may comprise monolithic permanent magnets with continuously variable magnetic field direction.

公开(公告)号：US20190109526A1

公开(公告)日：2019-04-11

申请号：US16089622

申请日：2017-03-30

Applicant: Advanced Magnet Lab, Inc.

Inventor： Rainer Meinke ,  Shashikant Manikonda

IPC: H02K16/02 ,  H02K3/28 ,  H02K3/42 ,  H02K21/12 ,  H02K15/03

Abstract: A dual-rotor machine comprising a dual rotor support structure rotatably connected to a frame. A stationary stator is disposed between the rotors and is fixed to the frame. An inner rotor and outer rotor, each comprising a permanent magnet Halbach array, are coaxially disposed with the stator and are rotable about the stator. In this configuration, the inner rotor channels its magnetic flux to its outside, while the outer rotor channels its magnetic flux to its inside. The magnetic flux density at the stator for the dual-rotor machine can be as high as 2 Tesla or higher for high-grade neodymium-iron-boron permanent magnet material, and the stored magnetic energy for conversion to mechanical or electrical energy available to the stator may be at least 0.5 kJ/m. The rotor Halbach arrays may comprise monolithic permanent magnets with continuously variable magnetic field direction.

公开(公告)号：US20180226190A1

公开(公告)日：2018-08-09

申请号：US15941810

申请日：2018-03-30

Applicant: Advanced Magnet Lab, Inc.

Inventor： Rainer Meinke ,  Sasha Ishmael

IPC: H01F41/02 ,  H01F1/057

CPC classification number: H02K16/025 ,  B22F9/04 ,  B60K7/00 ,  H01F1/0576 ,  H01F41/0266 ,  H01F41/0273 ,  H02K1/27 ,  H02K1/278 ,  H02K1/2786 ,  H02K3/28 ,  H02K3/42 ,  H02K15/03 ,  H02K16/02 ,  H02K21/12 ,  H02K2201/03

Abstract: A flux directed magnet and a method of manufacturing a flux-directed magnet in a reduced number of process steps is described and claimed. The present invention is, in an embodiment, a single-step manufacturing of flux directed magnet assemblies such as, but not limited to, Halbach arrays of arbitrary multipole order. Even tube-shaped flux directed magnet assemblies such as Halbach arrays with large aspect ratio, i.e. length to diameter, can be produced in single steps using the method of the invention. Alternatively, the present invention may be one step of a plurality of steps in a process for manufacturing of flux directed magnet assemblies.

公开(公告)号：US20180158586A1

公开(公告)日：2018-06-07

申请号：US15823427

申请日：2017-11-27

Applicant: Advanced Magnet Lab, Inc.

Inventor： Rainer Meinke ,  Gregory J. Shoultz ,  Gerald M. Stelzer

IPC: H01F7/20 ,  H05H7/04 ,  H01F41/04 ,  H01F27/29 ,  B65H39/16 ,  H01F6/06 ,  H01F41/071

CPC classification number: H01F7/20 ,  B65H39/16 ,  H01F6/06 ,  H01F7/202 ,  H01F27/29 ,  H01F41/04 ,  H01F41/048 ,  H01F2041/0711 ,  H05H7/04 ,  Y10T29/49016 ,  Y10T29/49021

Abstract: A conductor assembly and method for making an assembly of the type which, when conducting current, generates a magnetic field or which, in the presence of a changing magnetic field, induces a voltage. In one series of embodiments the assembly comprises a spiral configuration, positioned along paths in a series of concentric cylindrical planes, with a continuous series of connected turns, each turn including a first arc, a second arc and first and second straight segments connected to one another by the first arc. Each of the first and second straight segments in a turn is spaced apart from an adjacent straight segment in an adjoining turn.

公开(公告)号：US09551203B2

公开(公告)日：2017-01-24

申请号：US14018794

申请日：2013-09-05

Applicant: Advanced Magnet Lab, Inc.

Inventor： Rainer Meinke ,  Mark Senti ,  Gerald Stelzer

IPC: F16L55/10 ,  E21B33/13

CPC classification number: E21B33/035 ,  E21B33/064 ,  E21B33/13 ,  Y10T137/0391

Abstract: A segment of a structure mitigates flow of fluid therethrough. In one embodiment the segment includes an opening for the fluid flow and the modified structure may include a ferromagnetic wall defining the opening and a plurality of permanently magnetized particles. Some of the permanently magnetized particles are attached to the wall by magnetic forces. A system is also provided for injecting magnetic particles into a cavity to impede movement of fluid through the cavity. A method is also described for mitigating a flow of fluid through an opening in a wall. In one embodiment, the method includes positioning a plurality of first magnetic particles along the wall and about the opening and attaching a plurality of second magnetic particles to the first magnetic particles wherein some of the second magnetic particles collectively extend across the opening to cover the opening.

Abstract translation: 结构的一部分减轻流体的流动。 在一个实施例中，该段包括用于流体流动的开口，并且修改的结构可以包括限定开口的铁磁壁和多个永久磁化的颗粒。 一些永久磁化的颗粒通过磁力附着在墙壁上。 还提供了一种用于将磁性颗粒注入空腔中以阻止流体通过空腔的运动的系统。 还描述了一种用于减轻通过壁中的开口的流体流动的方法。 在一个实施例中，该方法包括沿着壁和围绕开口定位多个第一磁性颗粒，并将多个第二磁性颗粒附着到第一磁性颗粒，其中一些第二磁性颗粒一起延伸穿过开口以覆盖开口 。

公开(公告)号：US20130221748A1

公开(公告)日：2013-08-29

申请号：US13877771

申请日：2011-10-06

Applicant: Rainer Meinke ,  Sasha Ishmael

Inventor： Rainer Meinke ,  Sasha Ishmael

IPC: H02J3/00

CPC classification number: H01R3/00 ,  H02J1/00 ,  H02J3/00 ,  H02J2001/002 ,  H02K7/1838 ,  H02K13/00 ,  H02K47/04 ,  H02K47/14 ,  H02K55/00 ,  Y02E40/62 ,  Y10T307/406

Abstract: A power conversion and distribution system. In one embodiment low voltage source components convert a high voltage AC power source to a relatively low voltage supply and provide a direct current output. First superconductor wires carry current from the low voltage source components to a load, and second superconductor wires carry current from the load to the low voltage source components. Individual ones of the first wires are grouped with individual ones of the second wires so that wires connected to carry current in opposite directions are in such sufficiently close proximity that additives of self-fields generated by individual ones of the wires during power transmission result in reduction of the magnetic fringe field generated, thereby increasing the current carrying capacity of the wires.

Abstract translation: 电力转换和配电系统。 在一个实施例中，低电压源组件将高压AC电源转换为相对低电压电源并提供直流输出。 第一超导体线将电流从低电压源组件传送到负载，而第二超导体线将电流从负载传送到低电压源组件。 第一导线中的单个电线与第二导线中的单个电线分组，使得连接以在相反方向上承载电流的电线如此充分接近，使得在电力传输期间由各个电线产生的自身场所的添加物导致减少 产生的磁性边缘场，从而增加导线的载流能力。