Electromagnetic actuator
First Claim
1. An electromagnetic actuator having a point of amplified displacement, comprising:
- a magnetic body comprising;
an annular portion including a pair of support iron cores and a pair of movable iron cores connected to the opposite ends of the support iron cores, the movable iron cores including the point of amplified displacement (L1), andat least one pair of displacement portions disposed inside the annular portion and forming a gap therebetween; and
a coil, provided in the magnetic body, configured to generate a magnetic flux in the magnetic body, when an electric current is passed through the coil,wherein the length of the gap between the displacement portions is configured to change when the magnetic flux is generated, and the change in the length of the gap is amplified by the support iron cores and the movable iron cores to produce a large displacement at the point of amplified displacement by using the principle of leverage.
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Accused Products
Abstract
There is provided an electromagnetic actuator which can secure a sufficient thrust force at least at a certain level over a wide range of displacement. The electromagnetic actuator 1 having a point of amplified displacement includes: a displacement amplification mechanism 1A made of a magnetic material and having two surfaces 2as, 2bs that form a gap 5 therebetween; and a coil 6 provided in the displacement amplification mechanism 1A. A magnetic flux is generated by passing an electric current through the coil 6, thereby generating an attraction force between the surfaces 2as, 2bs. The attraction force displaces the point of amplified displacement.
21 Citations
3 Claims
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1. An electromagnetic actuator having a point of amplified displacement, comprising:
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a magnetic body comprising; an annular portion including a pair of support iron cores and a pair of movable iron cores connected to the opposite ends of the support iron cores, the movable iron cores including the point of amplified displacement (L1), and at least one pair of displacement portions disposed inside the annular portion and forming a gap therebetween; and a coil, provided in the magnetic body, configured to generate a magnetic flux in the magnetic body, when an electric current is passed through the coil, wherein the length of the gap between the displacement portions is configured to change when the magnetic flux is generated, and the change in the length of the gap is amplified by the support iron cores and the movable iron cores to produce a large displacement at the point of amplified displacement by using the principle of leverage. - View Dependent Claims (2, 3)
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Specification