Rotary armature and method of forming armature coil
First Claim
1. A rotary armature, comprising a shaft supported rotatably at both ends thereof;
- a magnetic core fixed by said shaft and forming a plurality of slots at an outer periphery thereof; and
a flat type coil insulated from said magnetic core by an insulating material, said flat type coil being a multi-coil structure in one slot and coated by an insulated coating film;
whereinsaid flat type coil comprises a first flat type coil and a second flat type coil,said first flat type coil having a first pair of said insulated coating films oppositely arranged to each other in a rotational direction of the armature and being made thinner than a second pair of insulated coating films which are oppositely arranged to each other in a radial direction of the armature,said second flat type coil having a third pair of said insulated coating films being oppositely arranged to each other in the rotational direction, and being made thinner than a fourth pair of insulated coating films oppositely arranged to each other in the radial direction,one of said second pair of said insulated coating films in the radial direction of said first flat type coil being opposed to one of said fourth pair of said insulated coating films in the radial direction of said second flat type coil,one of said second pair of said insulated coating films in the radial direction of said first flat type coil contacting one of said fourth pair of said insulated coating films in the radial direction of said second flat type coil,one of said second pair of said insulated coating films in the radial direction of said first flat type coil contacting an insulating sheet, sandwiched between said magnetic core and said second pair of said insulating coating films in the radial direction of said first flat type coil, andone of said fourth pair of said insulated coating films in the radial direction of said second flat type coil contacting an insulating sheet sandwiched between said magnetic core and said fourth pair of said insulating coating films in the radial direction of said second flat type coil.
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Accused Products
Abstract
A central conductor portion of a coil is formed with a potbelly-shaped cross-sectional form and a flat-shaped face of an insulated coating film of the potbelly-shaped cross-sectional form coil is made thinner than an arc-shaped face of the insulated coating film of the potbelly-shaped cross-sectional form coil. An insulated coating wire having a circular-shaped cross-sectional form is formed to a coil having a potbelly-shaped cross-sectional form by rolling process at a normal temperature. A dead space in a slot is lessened and the magnetic resistance of a magnetic core is decreased, thereby a small size and a high output electric motor can be obtained. A method of forming a rotary armature coil having a high space factor in the slot can be attained.
56 Citations
7 Claims
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1. A rotary armature, comprising a shaft supported rotatably at both ends thereof;
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a magnetic core fixed by said shaft and forming a plurality of slots at an outer periphery thereof; and a flat type coil insulated from said magnetic core by an insulating material, said flat type coil being a multi-coil structure in one slot and coated by an insulated coating film;
whereinsaid flat type coil comprises a first flat type coil and a second flat type coil, said first flat type coil having a first pair of said insulated coating films oppositely arranged to each other in a rotational direction of the armature and being made thinner than a second pair of insulated coating films which are oppositely arranged to each other in a radial direction of the armature, said second flat type coil having a third pair of said insulated coating films being oppositely arranged to each other in the rotational direction, and being made thinner than a fourth pair of insulated coating films oppositely arranged to each other in the radial direction, one of said second pair of said insulated coating films in the radial direction of said first flat type coil being opposed to one of said fourth pair of said insulated coating films in the radial direction of said second flat type coil, one of said second pair of said insulated coating films in the radial direction of said first flat type coil contacting one of said fourth pair of said insulated coating films in the radial direction of said second flat type coil, one of said second pair of said insulated coating films in the radial direction of said first flat type coil contacting an insulating sheet, sandwiched between said magnetic core and said second pair of said insulating coating films in the radial direction of said first flat type coil, and one of said fourth pair of said insulated coating films in the radial direction of said second flat type coil contacting an insulating sheet sandwiched between said magnetic core and said fourth pair of said insulating coating films in the radial direction of said second flat type coil. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification