Planar type electromagnetic actuator
First Claim
1. A planar type electromagnetic actuator comprising:
- a movable portion integrally formed on a semiconductor substrate including;
a frame-like outer movable plate;
an inner movable plate located within said outer movable plate, said inner movable plate being concentric with said outer movable plate; and
an axial support portion including first torsion bars for axially supporting said outer movable plate so that said outer movable plate is rotatable around a first axis defined by said first torsion bars, and second torsion bars aligned axially transverse to said first torsion bars, for axially supporting said inner movable plate so that said inner movable plate is rotatable around a second axis defined by said second torsion bars transverse to said first axis;
a static magnetic field generating means for generating a static magnetic field transverse to said first axis and said second axis;
a first drive coil provided on a peripheral portion of said outer movable plate, wherein a first magnetic field generated by passing a first current through said first drive coil interacts with said static magnetic field to rotate said outer movable plate about said first axis; and
a second drive coil provided on a peripheral portion of said inner movable plate, wherein a second magnetic field generated by passing a second current through said second drive coil interacts with said static magnetic field to rotate said inner movable plate about said second axis.
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Accused Products
Abstract
The present invention relates to a planar type electromagnetic actuator of two axis construction, having two movable plates (12A, 12B) with pivotal supports at right angles to each other. A pair of static magnetic field generating devices (4, 5) are arranged facing each other on either side of the movable plates (12A, 12B), and aligned with one diagonal direction of the movable plates (12A, 12B) so that a magnetic field acts on the movable plates (12A, 12B). A magnetic force due to the mutual action with a current flowing through drive coils (15A, 15B), acts on the movable plates (12A, 12B), to thus drive the movable plates (12A, 12B). As a result, the number of components for the magnetic field generating devices can be reduced, the construction of the electromagnetic actuator simplified, and construction costs reduced.
162 Citations
6 Claims
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1. A planar type electromagnetic actuator comprising:
a movable portion integrally formed on a semiconductor substrate including; a frame-like outer movable plate; an inner movable plate located within said outer movable plate, said inner movable plate being concentric with said outer movable plate; and an axial support portion including first torsion bars for axially supporting said outer movable plate so that said outer movable plate is rotatable around a first axis defined by said first torsion bars, and second torsion bars aligned axially transverse to said first torsion bars, for axially supporting said inner movable plate so that said inner movable plate is rotatable around a second axis defined by said second torsion bars transverse to said first axis; a static magnetic field generating means for generating a static magnetic field transverse to said first axis and said second axis; a first drive coil provided on a peripheral portion of said outer movable plate, wherein a first magnetic field generated by passing a first current through said first drive coil interacts with said static magnetic field to rotate said outer movable plate about said first axis; and a second drive coil provided on a peripheral portion of said inner movable plate, wherein a second magnetic field generated by passing a second current through said second drive coil interacts with said static magnetic field to rotate said inner movable plate about said second axis. - View Dependent Claims (2, 3, 4, 5)
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6. A light director comprising:
a movable portion integrally formed on a semiconductor substrate including; a frame-like outer movable plate; an inner movable plate located within said outer movable plate, said inner movable plate being concentric with said outer movable plate; an axial support portion including first torsion bars for axially supporting said outer movable plate so that said outer movable plate is rotatable around a first axis defined by said first torsion bars, and second torsion bars aligned axially transverse to said first torsion bars, for axially supporting said inner movable plate so that said inner movable plate is rotatable around a second axis defined by said second torsion bars transverse to said first axis; and a reflective mirror on a central face of said inner movable plate; a yoke, having a frame-shaped magnetic body, located surrounding said movable portion; a static magnetic field generating means for generating a static magnetic field transverse to said first axis and said second axis, said static magnetic field generating means consisting of a pair of permanent magnets bonded to opposite sides of said yoke, said permanent magnets located with a north pole and a south pole facing each other; a first drive coil provided on a peripheral portion of said outer movable plate, wherein a first magnetic field generated by passing a first current through said first drive coil interacts with said static magnetic field to rotate said outer movable plate about said first axis; a second drive coil provided on a peripheral portion of said inner movable plate, wherein a second magnetic field generated by passing a second current through said second drive coil interacts with said static magnetic field to rotate said inner movable plate about said second axis; an insulating substrate for supporting said movable portion, said yoke and said static magnetic field generating means, whereon said first axis and said second axis of said movable portion are aligned transversely to said static magnetic field; and electrical terminal pins fitted to said insulating substrate for connecting to said first drive coil and said second drive coil.
Specification