Magnetostrictive vibration generation system
First Claim
1. A shaker, comprising:
- a magnetostrictive rod actuator;
magnetic field means responsive to an electrical signal for varying the magnetic field applied to said actuator, the magnetic field means positioned around the actuator;
a magnetically permeable base member for connecting the rod actuator to a mass, one end of the base member seated directly on the rod, and the other end extending away from the rod;
a magnetically permeable member coaxially surrounding the other end of the base member and in contact with the magnetic field means, the other end of the base member moving coaxially inside the permeable member and defining an air gap of constant volume between it and the permeable member; and
the varying magnetic field establishing a flux path travelling through the rod, to the base member, across the air gap, through the permeable member and through the magnetic field means, the varying magnetic field causing the actuator to expand and contract and the base member to vibrate.
1 Assignment
0 Petitions
Accused Products
Abstract
A shaker with a Terfenol-D rod actuator includes a mass coupled to both ends of the rod through a spring seat, a spring seat/adjuster and a spring washer. The actuator is mounted inside a cylindrical coil, which in turn is mounted inside a cylindrical permanent magnet, which in turn is mounted inside a cylindrical housing. An electrical drive system provides a predetermined excitation signal to the coil to cause the rod to vibrate under the influence of the magnetic field generated by the coil. One embodiment features a vibrating mass on one end of the rod. An implantable shaker includes a seal to leak-proof the shaker and a coating of Biomer™. The implantable shaker can be implanted in an animal to test tissue response to certain vibrations. According to another embodiment, the Terfenol-D rod actuator is held in place on one end with a pre-stress adjusting screw, which is threaded into the end of the housing and fixed in place with a jam nut. In all embodiments, a spring base is seated on one end of the rod actuator and forms an annular coaxial air gap between it and a spring seat, so that the air gap remains constant when the rod actuator vibrates and the spring base moves coaxially with respect to the spring seat.
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Citations
27 Claims
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1. A shaker, comprising:
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a magnetostrictive rod actuator; magnetic field means responsive to an electrical signal for varying the magnetic field applied to said actuator, the magnetic field means positioned around the actuator; a magnetically permeable base member for connecting the rod actuator to a mass, one end of the base member seated directly on the rod, and the other end extending away from the rod; a magnetically permeable member coaxially surrounding the other end of the base member and in contact with the magnetic field means, the other end of the base member moving coaxially inside the permeable member and defining an air gap of constant volume between it and the permeable member; and the varying magnetic field establishing a flux path travelling through the rod, to the base member, across the air gap, through the permeable member and through the magnetic field means, the varying magnetic field causing the actuator to expand and contract and the base member to vibrate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A shaker, comprising:
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a housing of low to non-ferromagnetic material; an adjustor seat mounted in one end of the housing; an adjusting screw, having high magnetic permeability, passing through a hole in said adjustor seat; a magnetostrictive rod actuator having a longitudinal axis, and a first end and a second end, said first end of said actuator being seated against said adjusting screw; magnetic field means for applying a magnetic field to said actuator, said field means surrounding the actuator and in direct physical contact to said adjustor seat; a spring base having high magnetic permeability, and having a surface parallel to said longitudinal axis of said actuator and being seated on said second end of said actuator; a spring seat, having high magnetic permeability, and being in direct physical contact with said magnetic field means, and having an opening for receiving said spring base, said opening having a surface parallel to said surface of said spring base, so that said actuator can move said spring base back and forth within said opening while the width of an air gap between said surface of said spring base and said surface of said opening remains constant; a spring for biasing said spring base away from said spring seat and against said actuator; and a jam-nut for fixing the position of said adjusting screw holding said actuator rod against said base member, so that a magnetic circuit extends through said adjustor seat, said magnetic field means, said spring seat, said air gap, said spring base, said actuator, and through said screw back to said adjustor seat. - View Dependent Claims (15)
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13. A shaker, comprising:
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a housing of low to non-ferromagnetic material; an adjusting screw, having high magnetic permeability, passing through a hole in a first end of said housing; a magnetostrictive rod actuator having a longitudinal axis, and a first end and a second end, said first end of said actuator being seated against said adjusting screw; magnetic field means for applying a magnetic field to said actuator, said field means surrounding said actuator; a spring base having high magnetic permeability, and having a surface parallel to said longitudinal axis of said actuator and being seated on said second end of said actuator; a spring seat, having high magnetic permeability, and being in direct physical contact with said magnetic field means, and having an opening for receiving said spring base, said opening having a surface parallel to said surface of said spring base, so that said actuator can move said spring base back and forth within said opening while the width of an air gap between said surface of said spring base and said surface of said opening remains constant; a spring for biasing said spring base away from said spring seat and against said actuator; and a jam-nut for fixing the position of said adjusting screw holding said actuator rod against said spring base, so that a magnetic circuit extends through said magnetic field means, said spring seat, said air gap, said spring base, said actuator, and through said screw.
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14. A shaker, comprising:
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a housing of low to non-ferromagnetic material; a magnetostrictive rod actuator having a longitudinal axis, and a first end and a second end; a positioning means having high magnetic permeability, for holding said first end of said actuator proximate a first end of housing; magnetic field means for applying a magnetic field to said actuator, said magnetic field means surrounding said actuator; a spring base, having high magnetic permeability, and having a surface parallel to said longitudinal axis of said actuator and being seated on said second end of said actuator; a spring seat, having high magnetic permeability, and being in direct physical contact with said magnetic field means, and having an opening for receiving said spring base, said opening having a surface parallel to said surface of said spring base, so that said actuator can move said spring base back and forth within said opening while the width of an air gap between surface of said spring base and said surface of said opening remains constant; a spring for biasing said spring base away from said spring seat and against said actuator, so that a magnetic circuit extends through said magnetic field means, said spring seat, said air gap, said spring base, and said actuator.
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16. A shaker comprising:
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a magnetostrictive rod actuator having a longitudinal axis; a coil positioned adjacent said actuator; a spring base proximate one end of said actuator; a spring seat having an opening for receiving said spring base, wherein said opening has a surface proximate perpendicular to said longitudinal axis of said actuator, and said spring base has a surface proximately perpendicular to said longitudinal axis of said actuator; two hardened flat washers, one laying on said surface of said spring base approximately parallel to said longitudinal axis of said actuator, and another laying on said surface of said spring seat approximately parallel to said longitudinal axis of said actuator; a spring washer having a first end and a second end, and being positioned between said flat washers so that said first end of said spring washer is seated on said first flat washer, and said second end of said spring washer is seated on said second flat washer; and a seating member for the other end of the actuator on the other end of said shaker.
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17. A method for generating vibrations, comprising the steps of:
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a) providing a magnetostrictive rod actuator having first and second ends; b) coupling a first mass to the first end of the actuator; c) mounting the actuator in a housing, the first mass positioned flush within an opening in the housing; and d) rapidly varying a magnetic field through the actuator to cause the actuator to expand and contract and the first mass to vibrate at a frequency in excess of 1600 Hz, relative to the second end of the actuator. - View Dependent Claims (18)
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19. A method for generating vibrations, comprising the steps of:
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a) providing a magnetostrictive rod actuator having first and second ends; b) coupling a magnetically permeable first base member to the actuator, the magnetically proneable first base member having one end seated directly on the first end of the actuator and an opposing end extending away from the actuator; c) coaxially enclosing at least a portion of the first base member with a magnetically permeable first member; d) providing a magnetic field source in contact with the magnetically permeable first member; and e) rapidly varying a magnetic field through the actuator, first base member and magnetically permeable first member to came the actuator to expand and contract at a frequency in excess of 1600 Hz, thereby vibrating the first base member along a longitudinal axis of the rod relative to the magnetically permeable first member. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27)
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Specification