ROTARY ELECTRIC MACHINE AND METHOD FOR MANUFACTURING A STATOR COIL CONNECTING UNIT THEREFOR
First Claim
1. A rotary electric machine comprising:
- a housing comprising;
a cylindrical frame; and
a pair of brackets that are disposed on two axial ends of said cylindrical frame;
a rotor that is disposed inside said housing such that a shaft is rotatably supported by said pair of brackets;
a stator comprising;
a stator core in which a plurality of teeth are each disposed so as to project radially inward from an inner circumferential wall surface of an annular core back, and are arranged in a row at a predetermined pitch circumferentially; and
a stator coil that is constituted by a plurality of concentrated winding coils that are wound onto each of said teeth,said stator being held by said cylindrical frame so as to surround said rotor; and
a connecting unit that is disposed at a first axial end of said stator, and that performs predetermined connection of said plurality of concentrated winding coils,wherein;
said connecting unit comprises;
a plurality of busbars each comprising;
a base portion that has a rectangular cross section that is formed by bending a flat strip in a thickness direction into an incomplete annular shape from which a portion of a circular arc is omitted;
an external electric power supply terminal that has a rectangular cross section that is bent in said thickness direction from a first side in a width direction of a circumferential end portion of said base portion to extend outward on a first side in a radial direction; and
a plurality of coil connecting terminals that have rectangular cross sections that are each bent in said thickness direction from said first side in said width direction of said base portion to extend outward on a second side in said radial direction, that are arranged in a row so as to have a predetermined spacing in a circumferential direction of said base portion, and that are connected to coil terminals of said concentrated winding coils,said plurality of busbars being disposed so as to correspond respective phases of said stator coil; and
an annular electrically insulating holder in which a plurality of busbar housing grooves are formed concentrically, and that holds said plurality of busbars by housing said base portions in each of said plurality of busbar housing grooves; and
said plurality of busbars are held by said electrically insulating holder such that said external electric power supply terminals extend outward on said first side in said radial direction so as to pass over said omitted portions of said base portions of said busbars that are positioned on said first side in said radial direction of said electrically insulating holder.
1 Assignment
0 Petitions
Accused Products
Abstract
Busbars that are disposed so as to correspond to respective phases of a stator coil each include: a base portion that is formed so as to have an incomplete annular shape; external electric power supply terminals that extend radially inward from a first circumferential end of the base portion; and a plurality of coil connecting terminals that each extend radially outward from the base portion, that are arranged in a row so as to have a predetermined spacing in a circumferential direction of the base portion, and that are connected to coil terminals of concentrated winding coils, and the busbars are held by the electrically insulating holder such that the external electric power supply terminals extend radially inward so as to pass over omitted portions of the base portions of the busbars that are positioned radially inside the electrically insulating holder.
31 Citations
9 Claims
-
1. A rotary electric machine comprising:
-
a housing comprising; a cylindrical frame; and a pair of brackets that are disposed on two axial ends of said cylindrical frame; a rotor that is disposed inside said housing such that a shaft is rotatably supported by said pair of brackets; a stator comprising; a stator core in which a plurality of teeth are each disposed so as to project radially inward from an inner circumferential wall surface of an annular core back, and are arranged in a row at a predetermined pitch circumferentially; and a stator coil that is constituted by a plurality of concentrated winding coils that are wound onto each of said teeth, said stator being held by said cylindrical frame so as to surround said rotor; and a connecting unit that is disposed at a first axial end of said stator, and that performs predetermined connection of said plurality of concentrated winding coils, wherein; said connecting unit comprises; a plurality of busbars each comprising; a base portion that has a rectangular cross section that is formed by bending a flat strip in a thickness direction into an incomplete annular shape from which a portion of a circular arc is omitted; an external electric power supply terminal that has a rectangular cross section that is bent in said thickness direction from a first side in a width direction of a circumferential end portion of said base portion to extend outward on a first side in a radial direction; and a plurality of coil connecting terminals that have rectangular cross sections that are each bent in said thickness direction from said first side in said width direction of said base portion to extend outward on a second side in said radial direction, that are arranged in a row so as to have a predetermined spacing in a circumferential direction of said base portion, and that are connected to coil terminals of said concentrated winding coils, said plurality of busbars being disposed so as to correspond respective phases of said stator coil; and an annular electrically insulating holder in which a plurality of busbar housing grooves are formed concentrically, and that holds said plurality of busbars by housing said base portions in each of said plurality of busbar housing grooves; and said plurality of busbars are held by said electrically insulating holder such that said external electric power supply terminals extend outward on said first side in said radial direction so as to pass over said omitted portions of said base portions of said busbars that are positioned on said first side in said radial direction of said electrically insulating holder. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A method for manufacturing a stator coil connecting unit for a rotary electric machine comprising:
-
a plurality of busbars each comprising; a base portion that has a rectangular cross section that is formed by bending a flat strip in a thickness direction into an incomplete annular shape from which a portion of a circular arc is omitted; an external electric power supply terminal that has a rectangular cross section that is bent in said thickness direction from a first side in a width direction of a circumferential end portion of said base portion to extend outward on a first side in a radial direction; and a plurality of coil connecting terminals that have rectangular cross sections that are each bent in said thickness direction from said first side in said width direction of said base portion to extend outward on a second side in said radial direction, that are arranged in a row so as to have a predetermined spacing in a circumferential direction of said base portion, and that are connected to coil terminals of concentrated winding coils that constitute a stator coil, said plurality of busbars being disposed so as to correspond respective phases of said stator coil; and an annular electrically insulating holder in which a plurality of busbar housing grooves are formed concentrically, and that holds said plurality of busbars by housing said base portions in each of said plurality of busbar housing grooves, said method for manufacturing a stator coil connecting unit for a rotary electric machine comprising; a step of forming said plurality of busbars; and a step of mounting said plurality of busbars onto said electrically insulating holder by housing said base portions of said plurality of busbars in said busbar housing grooves sequentially from a busbar that is positioned on a second side in a radial direction of said electrically insulating holder, wherein said external electric power supply terminals that extend outward on said first sides in said radial direction from base portions of said busbars that are housed in said busbar housing grooves on said second side in said radial direction are inserted into said omitted portions of said base portions. - View Dependent Claims (9)
-
Specification