Electromagnetic induction driving method and device
First Claim
1. An electromagnetic induction driving method comprising the steps of:
- disposing an outer magnetic member and an inner magnetic member opposingly adjacent one another, at least one of the outer magnetic member and the inner magnetic member forming at least three magnetic poles opposing the other magnetic members, thereby forming at least a closed magnetic circuit having at least three gaps defined by the outer magnetic member and the inner magnetic member opposed thereto;
disposing in each of the poles a single drive member made of an electrically conductive material, which is wider than the width of each of the gaps, said single drive member being provided at each of its opposite sides with edge portions not opposing the gaps;
producing in each of said gaps a magnetic flux, the phases of each of the magnetic fluxes being different from one another, and the intensity of each of the magnetic fluxes varying with time;
generating induced currents in the drive member by penetrating magnetic fluxes at each position opposing the gaps, and inducing currents circulating around said positions by way of both edge portions;
producing electromagnetic force on the drive member by the magnetic fluxes penetrating the drive member and the circulating induced currents at the gaps on the path of circulation; and
rotating or moving straight the drive member in one direction.
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Accused Products
Abstract
A drive member of the device is made of electrically conductive non-magnetic material, supported rotatably or movably straight and uniform in wall thickness and width. An outer magnetic member and an inner magnetic member are arranged respectively at the outer side and the inner side of the drive member which are orthogonal to the direction of movement thereof. At least one of the outer and inner magnetic member has at least three magnetic poles to provide closed magnetic circuits extending from the respective poles and penetrating the drive member and the magnetic members along a round path. The poles have a width less than that of the drive member and are arranged centrally around the drive member, so that the drive member has edge portions which are not opposed to the poles, at opposite sides thereof which are orthogonal to the direction of movement. When fluxes with at least three different phases are produced at the respective poles of the magnetic circuits, each flux generates an induced current in the drive member, whereby an electromagnetic force acting on the drive member is produced between the flux and the current to move the drive member relative to one or both of the outer and inner magnetic members.
15 Citations
19 Claims
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1. An electromagnetic induction driving method comprising the steps of:
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disposing an outer magnetic member and an inner magnetic member opposingly adjacent one another, at least one of the outer magnetic member and the inner magnetic member forming at least three magnetic poles opposing the other magnetic members, thereby forming at least a closed magnetic circuit having at least three gaps defined by the outer magnetic member and the inner magnetic member opposed thereto; disposing in each of the poles a single drive member made of an electrically conductive material, which is wider than the width of each of the gaps, said single drive member being provided at each of its opposite sides with edge portions not opposing the gaps; producing in each of said gaps a magnetic flux, the phases of each of the magnetic fluxes being different from one another, and the intensity of each of the magnetic fluxes varying with time; generating induced currents in the drive member by penetrating magnetic fluxes at each position opposing the gaps, and inducing currents circulating around said positions by way of both edge portions; producing electromagnetic force on the drive member by the magnetic fluxes penetrating the drive member and the circulating induced currents at the gaps on the path of circulation; and rotating or moving straight the drive member in one direction. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An electromagnetic induction driving device comprising:
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an outer magnetic member; an inner magnetic member disposed opposingly adjacent to said outer magnetic member; at least three magnetic poles provided at least on one of the outer and inner magnetic members and opposing the other magnetic member, thereby forming at least one closed magnetic circuit having at least three gaps defined by said inner magnetic member and said outer magnetic member; a first coil connected with an a.c. power source provided at least at one magnetic pole the first coil producing said closed magnetic circuits passing around the magnetic pole, one of said gaps associated with said magnetic pole, the other magnetic member, the other said gaps and the other magnetic poles; a second coil and a third coil provided on the other magnetic poles, respectively, said second and third coils connected with or without an a.c. power source, said coils being connectable by a switch with a capacitor or a resistor or an electrical element comprising a capacitor and resistor, said coils being electrically connectable by a switch, and producing said closed magnetic circuit; and a single drive member made of an electrically conductive material, disposed in each of the poles between the magnetic poles and the other magnetic member, the drive member being wider than each of the gaps and provided at each of its opposite sides with edge portions not opposed to the gaps. - View Dependent Claims (9, 10, 11, 12, 13)
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14. An electromagnetic induction driving device comprising:
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an outer magnetic member; an inner magnetic member disposed opposingly adjacent to said outer magnetic member; at least three magnetic poles provided at least on one of the outer and inner magnetic members and opposing the other magnetic member, thereby forming at least one closed magnetic circuit having at least three gaps defined by said inner magnetic member and said outer magnetic member; a first coil connected with an a.c. power source provided at least at one magnetic pole, the first coil producing said closed magnetic circuits passing around the magnetic pole, one of said gaps associated with said magnetic pole, the other magnetic member, the other said gaps and the other magnetic poles; a second coil connected with a capacitor or a resistor or an electrical element comprising a capacitor and resistor provided on another magnetic pole, and the producing said closed magnetic circuit; and a single drive member constructed of an electrically conductive material, disposed in each of the poles between the magnetic poles and the other magnetic member, the drive member being wider than each of the gaps and provided at each of its opposite sides with edge portions not opposed to the gaps. - View Dependent Claims (15, 16, 17, 18, 19)
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Specification