Actuator for active vibration control
First Claim
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1. An electromagnetic actuator, comprising:
- a permanent magnet structure mounted on a shaft, the shaft being mounted at each end within a housing constructed of material having high magnetic permeability and open at both ends along the axis of the shaft, and wherein the permanent magnet structure is magnetized in an axial direction;
a plurality of coils would around a non magnetic bobbin mounted coaxially within the housing, the magnetic structure being situated within the bobbin with each pole of the magnet in close proximity to a coil arranged so that when the coils are energized by an electrical input signal an axial force is applied to the permanent magnet structure in accordance with the polarity and amplitude of the input signal;
nonmagnetic endcaps at each end of the housing within which are mounted an end of the shaft, the endcaps keeping the magnetic field of the permanent magnet structure directed more perpendicularly toward the coils;
wherein the coils are electrically connected together so that adjacent coils produce opposing magnetic fields when energized to thereby present a low inductive load to an electrical input signal;
wherein the coils are located adjacent to each pole of the permanent magnet structure, the dimensions of the coils and permanent magnetic structure being such that the magnetic flux impinging on the coils from the permanent magnet structure remains relatively constant as the magnet structure moves in an axial direction; and
wherein said permanent magnet structure is a magnet stack which contains one or more coaxially positioned permanent magnets with pole plates at each end of the magnet stack and between each magnet.
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Abstract
An electromagnetic actuator is disclosed which is especially suitable for active vibration control applications. The actuator may be either of the moving coil or moving magnet type so that a moving element undergoes reciprocal motion in response to an electrical input signal. The invention allows the force of the moving element to be linearly related to the amplitude and direction of the input current with a high degree of efficiency. In one embodiment, the moving element is decoupled from any mechanical load so as to produce reaction forces which may be used to cancel vibrational forces.
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Citations
14 Claims
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1. An electromagnetic actuator, comprising:
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a permanent magnet structure mounted on a shaft, the shaft being mounted at each end within a housing constructed of material having high magnetic permeability and open at both ends along the axis of the shaft, and wherein the permanent magnet structure is magnetized in an axial direction; a plurality of coils would around a non magnetic bobbin mounted coaxially within the housing, the magnetic structure being situated within the bobbin with each pole of the magnet in close proximity to a coil arranged so that when the coils are energized by an electrical input signal an axial force is applied to the permanent magnet structure in accordance with the polarity and amplitude of the input signal; nonmagnetic endcaps at each end of the housing within which are mounted an end of the shaft, the endcaps keeping the magnetic field of the permanent magnet structure directed more perpendicularly toward the coils; wherein the coils are electrically connected together so that adjacent coils produce opposing magnetic fields when energized to thereby present a low inductive load to an electrical input signal; wherein the coils are located adjacent to each pole of the permanent magnet structure, the dimensions of the coils and permanent magnetic structure being such that the magnetic flux impinging on the coils from the permanent magnet structure remains relatively constant as the magnet structure moves in an axial direction; and wherein said permanent magnet structure is a magnet stack which contains one or more coaxially positioned permanent magnets with pole plates at each end of the magnet stack and between each magnet. - View Dependent Claims (2, 3, 4)
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5. An electromagnetic actuator, comprising:
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a cylinder mounted coaxially on a shaft mounted at each end within a housing constructed of material having high magnetic permeability and open at both ends along the axis of the shaft; a plurality of coils wound around the cylinder; an annular permanent magnet corresponding to each coil mounted coaxially on the inner periphery of the housing and magnetized in a radial direction with each permanent magnet positioned in close proximity to a coil and arranged so that when the coils are energized by an electrical input signal an axial force is applied to the coils in accordance with the polarity and amplitude of the input signal; nonmagnetic endcaps at each end of the housing within which are mounted an end of the shaft, the endcaps keeping the magnetic field of the annular permanent magnets directed more perpendicularly toward the coils; wherein the coils are electrically connected together so that adjacent coils produce opposing magnetic fields when energized to thereby present a low inductive load to an electrical input signal; and
,wherein an annular magnet is located adjacent to each of the coils, the dimensions of the coils and annular magnets being such that the magnetic flux impinging on the coils from the annular magnets remains relatively constant as the coils move in an axial direction. - View Dependent Claims (6, 7, 8, 9)
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10. An electromagnetic actuator for active vibration control applications, comprising:
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a housing adapted to be mounted between a vibrating surface and a nonvibrating surface; a moving element slidably mounted within the housing; means for causing the moving element to undergo reciprocal linear motion in a direction perpendicular to the two surfaces in response to an electrical input signal; means for sensing the vibrations of the vibrating surface and generating the electrical input signal fed to the motion causing means in a manner so as to reduce the sensed vibrations; and
,wherein the motion of the moving element creates reaction forces on the housing due to the mass of the moving element and conservation of momentum which can be used to reduce the vibrations of the vibrating surface. - View Dependent Claims (11, 12)
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13. A system for actively cancelling primary vibrations emanating from a vibration source by generating secondary vibrations, comprising:
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means for sensing residual vibrations remaining after the interaction of the primary and secondary vibrations; means for generating an electrical signal in accordance with a signal received from the vibrations sensing means in order to drive an actuator in such a manner so as to reduce the sensed vibrations; and
,an electromagnetic actuator for producing secondary vibrations comprising; a permanent magnet structure mounted on a shaft, the shaft being mounted at each end within a housing constructed of material having high magnetic permeability and open at both ends along the axis of the shaft, and wherein the permanent magnet structure is magnetized in an axial direction; a plurality of coils wound around a non magnetic bobbin mounted coaxially within the housing, the magnetic structure being situated within the bobbin with each pole of the magnet in close proximity to a coil arranged so that when the coils are energized by an electrical input signal an axial force is applied to the permanent magnet structure in accordance with the polarity and amplitude of the input signal; nonmagnetic endcaps at each end of the housing within which are mounted an end of the shaft, the endcaps keeping the magnetic field of the permanent magnet structure directed more perpendicularly toward the coils; wherein the coils are electrically connected together so that adjacent coils produce opposing magnetic fields when energized to thereby present a low inductive load to an electrical input signal; and
,wherein coils are located adjacent to each pole of the permanent magnet structure, the dimensions of the coils and permanent magnetic structure being such that the magnetic flux impinging on the coils from the permanent magnet structure remains relatively constant as the magnet structure moves in an axial direction.
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14. A system for actively cancelling primary vibrations emanating from a vibration source by generating secondary vibrations, comprising:
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means for sensing residual vibrations remaining after the interaction of the primary and secondary vibrations; means for generating an electrical signal in accordance with a signal received from the vibrations sensing means in order to drive the actuator in such a manner so as to reduce the sensed vibrations; and
,an electromagnetic actuator for producing secondary vibrations, comprising; a cylinder mounted coaxially on a shaft mounted at each end within a housing constructed of material having high magnetic permeability and open at both ends along the axis of the shaft; a plurality of coils wound around the cylinder; an annular permanent magnet corresponding to each coil mounted coaxially on the inner periphery of the housing and magnetized in a radial direction with each permanent magnet positioned in close proximity to a coil and arranged so that when the coils are energized by an electrical input signal an axial force is applied to coils in accordance with the amplitude and polarity of the input signal; nonmagnetic endcaps at each end of the housing within which are mounted an end of the shaft, the endcaps keeping the magnetic field of the annular permanent magnets directed more perpendicularly toward the coils; wherein the coils are electrically connected together so that adjacent coils produce opposing magnetic fields when energized to thereby present a low inductive load to an electrical input signal; and
,wherein an annular magnet is located adjacent to each of the coils, the dimensions of the coils and annular magnets being such that the magnetic flux impinging on the coils from the annular magnets remains relatively constant as the coils move in an axial direction.
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Specification