| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 310201000 | Bar windings | 61 |
| 20080238240 | ROTARY ELECTRIC MACHINE - A rotary electric machine according to present invention comprises a rotor and a stator disposed around the rotor in which the stator includes a stator core having, along its inner periphery region, a plurality of axially extending stator slots and an armature winding wound through the stator slots. In this rotary electric machine, each stator slot contains four radially layered armature bars; each armature winding is formed by electrically connecting at least one of the armature bars in a first slot and at least one of the armature bars in a second slot to each other; and the armature bars of a pair specified in accordance with a required output voltage of the rotary electric machine are connected to each other with a connecting piece. | 10-02-2008 |
| 20080315706 | CURRENT LIMITING MEANS FOR A GENERATOR - The invention provides means of limiting maximum current conducted through windings of an electric machine having a rotor and a stator. By encouraging an appropriate leakage flux around a winding, a leak impedance can be achieved which may be used, according to the invention, to limit the maximum current in the winding as a matter of machine design. | 12-25-2008 |
| 20090096313 | STATOR FOR ROTATING ELECTRICAL MACHINE, PART TO BE USED FOR STATOR AND METHOD FOR MANUFACTURING STATOR FOR ROTATING ELECTRICAL MACHINE - A stator includes a stator core having a plurality of slots in a direction parallel to the rotating shaft of a rotating electrical machine; and a coil plate laminated body formed by laminating a plurality of I-shaped coil plates, each of which has an insulating film adhered at least on one side, in a diameter direction. In the coil plate laminated body, a plurality of coil plates are inserted inside a resin insulator inserted into the slots so that the insulating film is arranged between the coil plates, and the coil plates are integrally held by the resin insulator. The resin insulator integrally holds the coil plate laminated body of a plurality of phases in the same slot. | 04-16-2009 |
| 20090140595 | Stator for Rotating Machine and Rotating Machine Using the Same - The stator includes a plurality of concentrated winding coils disposed coupled into an annular form through yokes, and a plurality of conductors that couple the coil ends of the concentrated winding coils to each other in a multi-phase connection fashion. Conductors for a U-phase, a V-phase, a W-phase, and neutral points P are each formed of a plurality of holes for inserting therethrough coil ends and are substantially circular with different diameters, and are disposed on the same plane. A connection plate provided with a wall is inserted between the conductors and the concentrated winding coils. A rotating machine includes the above-mentioned stator and a rotor that is rotatable within the stator. | 06-04-2009 |
| 20090140596 | METHODS AND APPARATUS FOR A BAR-WOUND STATOR WITH PARALLEL CONNECTIONS - A bar-wound stator design with parallel connections is characterized by a shorter end turn length as compared to conventional stranded winding. The stator includes an inner winding set and an outer winding set provided within a plurality of slots, wherein the inner winding set is parallel to the outer winding set, and each winding set comprises multiple phases; and wherein the inner winding set and the outer winding set are staggered one slot within the plurality of slots. | 06-04-2009 |
| 20090174278 | Stator Bar Components with High Thermal Conductivity - A stator bar. The stator bar may include a number of conductors and an insulation layer positioned about the conductors. The insulation layer includes a ceramic component. | 07-09-2009 |
| 20090174279 | Stator Bar Components with High Thermal Conductivity Resins, Varnishes, and Putties - A stator bar. The stator bar may include a conductor, a layer of insulation positioned about the conductor, and a high thermal conductivity varnish to bond the layer of insulation to the conductor. | 07-09-2009 |
| 20090230807 | STATOR FOR ROTATING ELECTRIC MACHINE - A stator includes: a stator core having a plurality of slots in a direction parallel to a rotating shaft of a rotating electric machine; a plurality of coil plate laminated bodies formed in such a manner that a plurality of coil plates each having an insulating film attached to at least one side are laminated in a radial direction; and transition members connecting the coil plate laminated bodies inserted into different ones of the slots. The stator has at least one of a first shape in which at least two transition members are provided so as to cross each other as seen from the direction parallel to the rotating shaft and a second shape in which one coil plate ( | 09-17-2009 |
| 20090230808 | MOTOR STATOR AND MOTOR STATOR MANUFACTURING METHOD - A stator for motor comprises a stator core formed with a plurality of slots in an inner periphery thereof, a plurality of first laminated conductors each including a plurality of laminated thin plates in each slot, a plurality of second laminated conductors each including a plurality of laminated thin plates inserted in each slot, and an end connecting conductor including a plurality of connecting thin plates each having a connecting portion for connecting an end portion of each laminated thin plate of the first laminated conductor in one slot and an end portion of each laminated thin plate of the second laminated conductor in another slot. The thin plates and the connecting portion of each connecting plate are tapered in thickness. | 09-17-2009 |
| 20090261682 | STATOR OF ROTATING ELECTRIC MACHINE, AND COMPONENT FOR USE IN STATOR - A coil sub-assy includes a coil plate which has an insulating film attached to at least one side thereof and an “I”-shaped portion to be inserted into a slot of a stator core. The plurality of coil plates forming coils of an identical phase are laminated in a thickness direction of the “I”-shaped portion. The coil plates opposite to each other are formed such that a shortest distance between end faces of the “I”-shaped portions in a width direction is longer than a shortest distance between end faces of the “I”-shaped portions in the thickness direction. | 10-22-2009 |
| 20090289518 | ARMATURE WINDING OF ELECTRIC ROTATING MACHINE, STATOR OF ELECTRIC ROTATING MACHINE AND ELECTRIC ROTATING MACHINE - An armature winding of an electric rotating machine is provided, which includes at least one armature winding bar composed of a plurality of element wire conductors, wherein the armature winding bar includes an element wire conductor configured to have twisted transposing angles of 180 degrees at one border zone and a middle zone in a winding slot and a twisted transposing angle different from 180 degrees at the other border zone of the winding slot of the element wire conductor. | 11-26-2009 |
| 20090295252 | Arrangement With Generator Bars for a Stator of an Electrical Generator - An arrangement having at least two generator bars for a stator of an electrical generator which are electrically connected to one another via a respective bar end is characterized, according to the invention, by the fact that the respective bar ends, which are electrically connected to one another, of the at least two generator bars are braced with respect to one another by means of a tape. | 12-03-2009 |
| 20100026132 | STATOR FOR ROTATING ELECTRIC MACHINE - A stator for a rotating electric machine includes a cylindrical stator core and a stator winding. The stator winding includes inserted portions, which are inserted in slots of the stator core, and connecting portions that are located outside of the slots to connect the inserted portions. Each of the inserted portions has a rectangular cross section with a pair of long sides and a pair of short sides. In each of the slots, each of those inserted portions which are located on the radially inner side has the short sides of its cross section arranged perpendicular to the radial direction of the stator core; each of those inserted portions which are located on the radially outer side has the long sides of its cross section arranged perpendicular to the radial direction. The circumferential width of each of the slots increases in the radially outward direction of the stator core. | 02-04-2010 |
| 20100045133 | MULTIPHASE SYNCHRONOUS ELECTRICAL MACHINE FOR CONVERTING KINETIC ENERGY INTO ELECTRICAL ENERGY AND ELECTRICAL ENERGY INTO KINETIC ENERGY ON BOARD A TRANSPORT VEHICLE - A multiphase synchronous electrical machine for converting kinetic energy into electrical energy and electrical energy into kinetic energy has a rotor, extending along an axis, and a stator, which is provided with a stator pack having slots and with an electrical winding, which extends in part in the slots and in part at two heads arranged on opposite sides of the stator pack and which has bars, housed in the slots and connected to one at the heads, connection plates, each of which has: a main body having at least two seats for housing the bars; and an arm, which is set between the two seats and extends from the main body towards the axis. | 02-25-2010 |
| 20100045134 | MULTIPHASE SYNCHRONOUS ELECTRICAL MACHINE FOR CONVERTING KINETIC ENERGY INTO ELECTRICAL ENERGY AND ELECTRICAL ENERGY INTO KINETIC ENERGY ON BOARD A TRANSPORT VEHICLE, METHOD FOR ASSEMBLING THE ELECTRICAL MACHINE, AND TRANSPORT VEHICLE PROVIDED WITH SAID ELECTRICAL MACHINE - A multiphase synchronous electrical machine for converting kinetic energy into electrical energy and electrical energy into kinetic energy has a rotor extending along an axis, and a stator, which is provided with a stator pack having slots and with an electrical winding, which extends in part in the slots and in part in a position corresponding to two heads arranged on opposite sides of the stator pack and has bars housed in the slots and connected to one another in a position corresponding to the heads and connection plates, which are welded to the bars, are packed with respect to one another and to the stator pack in an axial direction and are shaped in such a way as to define a prolongation of the stator pack. | 02-25-2010 |
| 20100148620 | STATOR FOR ELECTRIC ROTATING MACHINE - A stator for an electric rotating machine includes a hollow cylindrical stator core and a stator coil made up of a plurality of wave-shaped electric wires. Each of the electric wires has a plurality of in-slot portions, each of which is received in one of slots of the stator core, and a plurality of turn portions each of which is located outside of the slots of the stator core to connect one adjacent pair of the in-slot portions of the electric wire. The stator coil includes a plurality of radial position shift portions each of which is provided, in one of the electric wires, in one of the turn portions of the electric wire between an apex part of the turn portion and one of the in-slot portions of the electric wire adjoining the turn portion and is radially bent to shift the radial position of the electric wire. | 06-17-2010 |
| 20100148621 | STATOR FOR ELECTRIC ROTATING MACHINE - A stator includes a hollow cylindrical stator core and a stator coil made up of wave-shaped electric wires. Each of the electric wires has in-slot portions, which are received in slots of the stator core, and turn portions that are located outside of the slots to connect the in-slot portions. The stator coil includes first crank-shaped portions and second crank-shaped portions. Each of the first and second crank-shaped portions is provided, in one of the electric wires, at the center of an apex part of one of the turn portions and is radially bent to shift the radial position of the electric wire. The amount of radial position shift made by each of the second crank-shaped portions is less than that made by each of the first crank-shaped portions. The second crank-shaped portions are located at a plurality of places in the circumferential direction of the stator core. | 06-17-2010 |
| 20100148622 | ARCHITECTURE FOR ELECTRIC MACHINE - The invention includes an electric machine having a rotor, stator and at least one winding in the stator adapted to conduct a current, and a secondary winding, electrically isolated from the first winding and inductively coupled to the first winding, which may be used to control at least one of the output voltage and current of the first winding. | 06-17-2010 |
| 20100187940 | Rotating electrical machine - A rotating electrical machine that includes a stator formed by winding a coil around a stator core of a substantially cylindrical shape; and a rotor rotatably supported at an inside in a radial direction of the stator, wherein at least one coil end portion in an axial direction of the stator is a curved coil end portion formed to be curved inward in a radial direction of the stator core. | 07-29-2010 |
| 20100194229 | ELECTRIC MACHINE, PARTICULARLY ASYNCHRONOUS THREE-PHASE HYDROGENERATOR - An electrical machine, in particular a three-phase asynchronous hydrogenerator, includes a rotor and a stator, wherein one of the rotor and the stator include a core with a plurality of winding slots. The machine has a winding having a plurality of axially extending winding bars, wherein each of the plurality of winding slots receives two winding bars disposed one on top of the other, and wherein the plurality of winding bars emerge from the plurality of winding slots at an end side of the machine, and wherein each of a majority of the plurality of winding bars is electrically connected to another winding bar in an end winding so as to form a pair of winding bars according to a predetermined scheme. | 08-05-2010 |
| 20100207481 | STATOR BAR WITH END ARM INVOLUTE-ON-CONE BEND SUBSTANTIALLY ALIGNED WITH STATOR CORE SLOT - Dynamoelectric device and stator bar therefor, where the stator bar includes a linear portion for positioning in a slot of a stator core, the slot extending in a radial direction relative to an axis of the stator, and an end arm portion having an involute-on-cone bend relative to the linear portion and an elongated cross-section that is substantially aligned with the radial direction of the slot. | 08-19-2010 |
| 20100320864 | METHODS AND APPARATUS FOR A BAR-WOUND STATOR WITH ROTATED CONDUCTORS - A bar-wound stator includes a plurality of bar-type conductors disposed within the plurality of slots, wherein, within each slot, at least one of the bar-type conductors has an orientation that differs from the remaining bar-type conductors within that slot by a predetermined angle. For example, conductors with rectangular cross-sections can be inserted such that the conductors closest to the inner surface of the stator are rotated ninety degrees with respect to the remaining conductors. | 12-23-2010 |
| 20110012471 | STATORS WITH IMPROVED CONDUCTOR ASSEMBLY AND METHOD OF MAKING SAME - A stator includes a stator core, a plurality of slots, and a conductor. The plurality of slots are formed within the stator core. The conductor is disposed continuously within at least two of the plurality of openings. | 01-20-2011 |
| 20110109186 | CONDUCTOR BAR FOR THE STATOR OF A GENERATOR AND METHOD FOR ITS PRODUCTION - A conductor bar for a stator of a generator includes a plurality of internal conductor elements; an insulation wound around the plurality of internal conductor elements so as to externally enclose the plurality of internal conductor elements, the insulation including impregnated glass/mica bands; and at least one interlayer disposed between the insulation and the plurality of internal conductor elements so as to improve a mechanical connection between the plurality of internal conductor elements and the insulation. | 05-12-2011 |
| 20110133593 | STATOR FOR ELECTRIC ROTATING MACHINE - A stator includes a hollow cylindrical stator core and a stator coil comprised of electric wires. Each of the electric wires has n in-slot portions and (n−1) turn portions, where n≧4. The in-slot portions are sequentially received in p slots of the stator core, where p≧n. The turn portions are located outside the slots to connect adjacent pairs of the in-slot portions. The radial distances from the longitudinal axis of the stator core to the first to the nth in-slot portions successively decrease. Each of the electric wires further includes bulges. Each of the bulges is formed, on a surface of a corresponding one of the in-slot portions or a surface of a portion of the electric wire which falls on an imaginary line extending axially from the corresponding in-slot portion, so as to protrude from the corresponding in-slot portion in a radial direction. | 06-09-2011 |
| 20110148242 | STATOR BAR WITH END ARM INVOLUTE-ON-CONE BEND SUBSTANTIALLY ALIGNED WITH STATOR CORE SLOT - Dynamoelectric device and stator bar therefor, where the stator bar includes a linear portion for positioning in a slot of a stator core, the slot extending in a radial direction relative to an axis of the stator, and an end arm portion having an involute-on-cone bend relative to the linear portion and an elongated cross-section that is substantially aligned with the radial direction of the slot. | 06-23-2011 |
| 20110163626 | LINEAR MATERIAL AND STATOR STRUCTURE - A stator structure includes: a stator core ( | 07-07-2011 |
| 20110175482 | OPTIMIZED STATOR TOOTH TIP FOR A MOTOR WITH AXIALLY INSERTED STATOR WINDINGS - An electric motor includes a rotor and a stator assembly concentrically located about the rotor. The stator assembly includes a stator stack and a plurality of spaced apart stator teeth extending radially from the stator stack. The plurality of stator teeth defines a plurality of stator slots. Each stator tooth defines a stator tooth tip. The stator tooth tips are shaped to reduce the magnetic flux generated by the stator assembly during operation of the electric motor | 07-21-2011 |
| 20110175483 | STATOR FOR ELECTRIC ROTATING MACHINE - A stator includes a stator coil formed of electric wires which include a joined pair of first and second electric wires. The first electric wire has a lead portion led out from the radially inner periphery of a first slot of a stator core and including a crossover part. The crossover part crosses over an axial end face of an end part of the stator coil from the radially inside to the radially outside of the axial end face; the end part protrudes from an axial end face of the stator core. The second electric wire has a lead portion led out from the radially outer periphery of a second slot of the stator core. The lead portions of the electric wires are joined together with a joint formed therebetween. The joint is positioned closer to the axial end face of the stator core than the crossover part is. | 07-21-2011 |
| 20110181145 | CONDUCTIVE BAR FOR ELECTRIC MACHINES - An conductive bar ( | 07-28-2011 |
| 20110193443 | CONDUCTING WIRE FOR ELECTRIC MACHINE - A conducting wire for a stator of an electric machine includes a cross section having a first side, a second side, a third side and a fourth side. The third side and the fourth side are parallel with each other, with the first side and the second side extending between the third side and the fourth side. The first side and the second side each define a concave depression. | 08-11-2011 |
| 20110227443 | STATOR AND MANUFACTURING METHOD THEREOF - The invention has an object to provide a stator including coils that protrude less in the radial direction of the stator and can be made smaller in the radial direction of the stator, and a method of manufacturing the same. In the stator, the conductor having a rectangular cross section is formed in a continuous meandering fashion, the conductor including: a plurality of in-slot portions arranged inside a slot of the stator such as to be overlapped with one another in a circumferential direction of the stator with long sides of the rectangle being oriented along a radial direction of the stator; a plurality of circumferential portions arranged at a coil end such as to be overlapped with one another in the radial direction of the stator with short sides of the rectangle oriented along the radial direction of the stator; a bent portion connecting the in-slot portion and the circumferential portion; and a twisted portion formed in the bent portion, the bent portion including a first bend formed on a side of the circumferential portion and a second bend formed on a side of the in-slot portion. | 09-22-2011 |
| 20110260570 | STATOR OF ROTATING ELECTRICAL MACHINE - A turn part of a lead wire includes a projection part, a slope part and a second bent part. The projection part projects from a first slot to a direction parallel to an axial direction of the stator core. The slope part is diagonally extended at an angle of less than 90 degrees aiming to a Kth slot. The Kth slot is separated from the first slot at a specific interval via a first bent part that is bent in a circumferential direction from a tip of the projection part. The second bent part is connected with the slot accommodation part accommodated in the Kth slot, and is bent to the direction parallel to the axial direction of the stator core from a tip of the slope part. | 10-27-2011 |
| 20120025660 | MULTIPLE CONDUCTOR WINDING IN STATOR - An electric machine includes a stator disposed about an axis in register with the rotor. The stator has a plurality of slots parallel to the axis. A plurality of windings with generally rectangular cross sections is provided with each winding having a first portion disposed radially inward of a second portion relative to the axis. At least two of the plurality of windings are at least partially inserted into each of the plurality of slots. The plurality of generally rectangular windings in each of the plurality of slots is configured to reduce resistive loss within the stator. | 02-02-2012 |
| 20120161569 | ELECTRIC ROTATING MACHINE - The stator of the electric rotating machine includes a stator winding constituted of a plurality of U-shaped conductor segments each including a turn portion and two straight portions, the U-shaped conductor segments being connected in series by welding at welded portions formed in ends of the straight portions, and a stator core formed with slots, the straight portions of each U-shaped conductor segment being accommodated in corresponding two of the slots. The welded side slot pitch as an interval of the corresponding two of the slots on the side opposite to the turn portions is narrower than the N-S magnetic pole pitch of the rotor. The stator winding includes overlapped wire wrapping sections each constituted of the U-shaped conductor segments accommodated in the corresponding two of the slots, and crossover wires disposed on the side of the welded portions for connecting the overlapped wire wrapping sections. | 06-28-2012 |
| 20120181890 | METHOD AND SYSTEM FOR JOINING STATOR WIRES - A method and system is provided to join the wire ends of a stator by immersing a wire end portion of the stator in a molten solder bath to form a solder joint in each of a plurality of wire end pairs to provide an electrical connection between the respective wire ends of each wire end pair. The stator may be configured as a bar pin stator including a plurality of bar pins defining the wire ends. The solder joint may be defined by a portion of solder between the proximate surfaces of the wire ends of each wire end pair, and may be defined by a coating of solder in proximate contact with the perimeter surface of each respective wire end pair, wherein the portion of solder and the coating of solder each may provide an electrical connection between the respective wire ends. | 07-19-2012 |
| 20120181891 | MOTOR - A flat conductor wire in a U-phase first slot of a first group block and a flat conductor wire in a U-phase second slot of a second group block form an outer circumference base unit. A flat conductor wire in a U-phase second slot of the first group block and a flat conductor wire in the U-phase first slot of the second group block form an inner circumference base unit. The inner circumference base unit is located inside the outer circumference base unit. A coil end portion at one end of the inner circumference base unit and a coil end portion side at one end of the outer circumference base unit are bent toward the rotor side with respect to an in-slot conductor portion in the stator core. The coil end portion side at one end of the inner circumference base unit and the coil end portion side at one end of the outer circumference base unit are located further toward the axis of the rotor than an inner peripheral surface of the stator core. | 07-19-2012 |
| 20120200191 | COIL, STATOR, AND METHOD FOR MANUFACTURING COIL - A coil including a first winding portion and a second winding portion arranged on a stator of a rotary electrical machine. The first winding portion is formed by edgewise-winding a conductive rectangular wire. The second winding portion is formed by edgewise-winding a conductive rectangular wire, which is connected to the first winding portion. Coil end parts of the first and second winding portions each include a crank-shaped section. The first and second winding portions are formed so that when slot insertion parts of the first and second windings are arranged in slots of the stator, a long side of a cross-section of the rectangular wire extends in the circumferential direction of the stator and a short side of the cross-section of the rectangular wire extends in a radial direction of the stator. | 08-09-2012 |
| 20120293034 | STATOR FOR AN ELECTRIC MOTOR - A stator for an electric motor includes first and second rows of conductors arranged concentrically around an axis inside a steel core. Each conductor includes a linking end. The stator also includes a first dielectric shim ring arranged between the two rows of conductors. Each conductor of the first row is bent in either a clockwise or a counter-clockwise direction relative to the axis and each conductor of the second row is bent in the opposite direction. The linking end of each conductor of the first row is attached to the linking end of an adjacent conductor of the second row after the conductors are bent. The first shim ring separates the first and second rows of conductors when the conductors are being bent, and is also at least partially disposed between the first and second rows of conductors when the linking ends are being attached. | 11-22-2012 |
| 20120319522 | STATOR FOR ELECTRIC ROTATING MACHINE - A stator includes a stator core and a stator coil comprised of a plurality of electric conductor segments mounted on the stator core. Each of the electric conductor segments has an insulating coat-removed portion. Each corresponding pair of the insulating coat-removed portions of the electric conductor segments are joined with a joint formed therebetween. Each of the electric conductor segments also has an oblique portion that is comprised of a first part and a second part. The first and second parts extend, along the circumferential direction of the stator core, obliquely with respect to an axial end face of the stator core respectively at first and second oblique angles θ | 12-20-2012 |
| 20120319523 | MOTOR, AND MOTOR PRODUCTION METHOD - Provided is a motor comprising: a stator equipped with a coil basket, which is a distributed winding coil that uses flat wire, and a stator core; and a rotor with a central shaft. The motor is characterized in that: the coil end at one end of the coil basket has bent sections that are bent on the rotor side in relation to wire sections inside slots of the stator core; and a lower-side concentric section and horizontal sections, which comprise the coil end at the other end, are positioned further toward the shaft center side of the rotor than the inner peripheral surface of the teeth; and the coil end at one end and the coil end at the other end comprise five flat wires that are lap wound in a flatwise direction. | 12-20-2012 |
| 20120326552 | STATOR AND MOTOR - An armature core of a stator has an annular portion and a plurality of teeth extending radially from the annular portion. A segment coil is configured by electrically connecting a plurality of segment conductors together. The segment conductors extend axially through slots S, each of which is defined between each adjacent pair of the teeth. Each of the teeth has a width adjustment portion for decreasing a slot width in a direction perpendicular to a radial direction in the radially inward direction. | 12-27-2012 |
| 20130009509 | STATOR FOR ROTATING ELECTRICAL MACHINE, METHOD FOR MANUFACTURING STATOR, AND METHOD FOR MANUFACTURING COIL FOR STATOR - Disclosed is a stator for a rotating electrical machine, which includes a stator core having a plurality of slots, and a plurality of coils. Each of the coils has a first inserting section and a second inserting section, which are inserted into two slots which form a pair, a first coil end, and a second coil end. The first and/or the second coil end has a twisted portion and a bent portion. The twisted portion is formed by twisting the coil end at a part close to the first inserting section. The bent portion is formed by bending, at a part close to the second inserting section, the coil end such that the coil end is laid flat. | 01-10-2013 |
| 20130093280 | MULTI-FILAR BAR CONDUCTORS FOR ELECTRIC MACHINES - A multi-filar conductor for an electric machine includes a first solid core and a second solid core. The first and second solid cores directly contact each other along a bare interface. An insulation layer surrounds the first and second solid cores. However, the insulation layer does not pass through the bare interface, such that there is no insulation between the first solid core and the second solid core. | 04-18-2013 |
| 20130106231 | CONDUCTOR WELD-END LENGTH CONTROL FORMING | 05-02-2013 |
| 20130200743 | STATOR FOR ROTARY ELECTRIC MACHINE - The manufacturing cost of a stator for a rotary electric machine can be reduced, and the volume of coil end portions can be reduced to enable downsizing. A stator for a rotary electric machine includes: a cylindrical stator core with plural slots formed at an inner circumferential surface; a plurality of coil segments received by the slots; a plurality of first coil end plates electrically connected with the coil segments on either one of end surfaces of the stator core; and a plurality of second coil end plates electrically connected with the coil segments on the other end surface of the stator core. The plate portion of at least one of the plurality of the first coil end plates is formed longer than the plate portions of the other first coil end plates and has a stepped portion. | 08-08-2013 |
| 20130300246 | Rotating Electrical Machine - A rotating electrical machine includes a stator with an iron core having a plurality of slots and a stator winding configured by connecting a plurality of segment conductors each formed by a rectangular wire including an end portion and an insulating film; and a rotator that faces the stator through a gap, wherein the conductor includes a portion coated with the insulating film and a peel-off portion from which the insulating film is peeled off and has a cross-section smaller than the coated portion, the segment conductor and another segment conductor are bonded to each other outside the slots so as to bring at least parts of the peel-off portions as bonding faces into contact with each other, at least one segment conductor of the bonded segment conductors includes a straight portion that is formed in a linear shape in an axial direction and an arc portion. | 11-14-2013 |
| 20140015366 | Method And Apparatus For Twisting Bar Conductors, In Particular For Bar Windings of Electric Machines | 01-16-2014 |
| 20140184012 | ROTATING ELECTRIC MACHINE - A rotating electric machine includes a rotor, a stator and an Insulating resin. The stator includes a stator core and a stator coil that is partially received in slots of the stator core so as to have a pair of coil end parts protruding outside of the slots respectively on opposite axial sides of the stator core. The stator coil is formed of a plurality of electric wire segments, each of which includes an electric conductor and an Insulating coat that covers an outer surface of the electric conductor. The insulating resin is applied to the coil end parts of the stator coil so as to cover the outer surfaces of the insulating coats of the electric wire segments forming the stator coil. Further, a tensile strength of the insulating coats of the electric wire segments is higher than an adhesion strength between the insulating resin and the Insulating coats. | 07-03-2014 |
| 20140232233 | MULTI-GAP ROTATING ELECTRIC MACHINE - A multi-gap rotating electric machine includes a rotor, a stator core and a stator coil. The stator core has inner and outer core parts respectively located radially inside and outside of the rotor and each having partially or fully closed slots. The stator coil is formed of electric conductor segments each having a first leg portion inserted in one of the slots of the inner core part, a second leg portion inserted in one of the slots of the outer core part, and a connecting portion connecting the first and second leg portions on one axial side of the rotor. The first and second leg portions respectively have radially inner and outer coil end parts formed on the opposite axial side to the connecting portion. Corresponding radially inner coil end parts are joined to each other, and corresponding radially outer coil end parts are joined to each other. | 08-21-2014 |
| 20140285054 | STATOR OF ELECTRIC MACHINE, ELECTROMOTOR HAVING THE SAME, AND ELECTRIC VEHICLE HAVING THE ELECTROMOTOR - A stator of an electric machine of the power saving interval may include a stator core having a plurality of slots, and a stator winding wound around the slot, wherein the stator winding has a plurality of winding portions connected in parallel with one another for each phase, and each of the winding portions has a segment conductor inserted into three or more slots for each pole. As a result, it may be possible to increase the number of rotations and reduce the external size thereof while maintaining the same output. | 09-25-2014 |
| 20140285055 | WOUND MEMBER FOR MANUFACTURING COIL, COIL, ROTATING ELECTRICAL MACHINE, AND METHOD FOR MANUFACTURING COIL - A wound member for manufacturing a coil is a wound member for manufacturing a coil for manufacturing a coil wound around a slot of a stator core. The wound member for manufacturing a coil includes: a first side to be an end side at one side of a coil end disposed at an inner peripheral side of the stator core; a second side disposed opposite to the first side, the second side being to be an end side at another side of a coil end disposed at an outer peripheral side of the stator core; and a third side and a fourth side that respectively couple the first side and the second side. The first side has a length shorter than a length of the second side. | 09-25-2014 |
| 20140300237 | STATOR FOR ROTATING ELECTRIC MACHINE - A stator includes an annular stator core and a stator coil. The stator coil is formed of electric conductor segments each of which is bent in its thickness direction to include, at least, an in-slot portion and an oblique portion. The in-slot portion is received in a corresponding slot of the stator core with its width direction coinciding with a radial direction of the stator core. The oblique portion protrudes from the in-slot portion outside the corresponding slot and extends, over its entire length, along the circumferential direction of the stator core obliquely with respect to an axial end face of the stator core. The oblique portion includes a thick section on the proximal side and a thin section on the distal side. Each corresponding pair of the oblique portions of the electric conductor segments are connected by joining the thin sections of the oblique portions. | 10-09-2014 |
| 20140346915 | Rotating Electrical Machine and Method for Manufacturing Rotating Electrical Machine - A rotating electrical machine includes a stator and a rotor. The stator winding includes a plurality of conductor segments inserted through the slots from one end surface of the stator core with end portions of the conductor segments projecting out beyond another end surface of the stator core. The conductor segments include an undeformed portion, a plastically deformed portion formed at the end portions thereof and a tapered portion. The plastically deformed portion has a dimension of the plastically deformed portion along a circumferential direction that is greater than a dimension of the undeformed portion along the circumferential direction and so that a dimension of the plastically deformed portion along a radial direction is smaller than a dimension of the undeformed portion along the radial direction. The conductor segments are welded together at tops of the plastically deformed portions thereof. | 11-27-2014 |
| 20150015110 | Electric Rotating Machine - An electric rotating machine is provided that can ensure insulation quality between a coil end and an inside wall of a housing or of a case. The electric rotating machine includes a stator including a stator core and a stator winding. The stator core has a plurality of slots rowed in a circumferential direction. The stator winding is formed of a conductor rectangular in a cross section and is inserted into the slots, the conductor being provided with an insulating coated layer. The stator winding has a first segment transition bent section provided on a radially outside of the stator and a second segment transition bent section provided on a radially inside of the stator. The first segment transition bent section has a layer-transition bent section angle greater than a layer-transition bent section angle of the second segment transition bent section. | 01-15-2015 |
| 20150022045 | Electrical Rotating Machine - Reliability related to an insulating process of conductor connection terminals of an electrical rotating machine stator using segment conductors is improved. An electrical rotating machine is configured so that stator coils | 01-22-2015 |
| 20150381004 | INSULATION ARRANGEMENT FOR A HIGH-VOLTAGE MACHINE - A widening bar, which has main insulation with first and second layers is used as an insulation arrangement for a high-voltage machine. The first layer has platelet-shaped mica particles and the second layer has platelet-shaped aluminum oxide particles. The insulation arrangement may be used in a generator and the method of producing the insulation arrangement is described. | 12-31-2015 |
| 20160065023 | PLANAR-ENDED RIPPLE SPRING AND HARDENED STATOR BAR ARMOR - A ripple spring includes a body including a central portion having a substantially sinusoidal shaped surface and a substantially planar end portion extending from each end of the central portion. A stator bar may include an armor layer including a novalac epoxy resin impregnated glass composite. | 03-03-2016 |
| 20160099622 | Hybrid Conductor for Generator Stator Winding - A generator comprises a rotor to be driven for rotation adjacent a stator. The stator includes laminated core teeth having circumferentially intermediate slots and a conductor received within the slots. The conductor has an outer copper layer and an inner aluminum core. A stator is also disclosed. | 04-07-2016 |
| 20160190891 | ROTARY ELECTRIC MACHINE STATOR AND MANUFACTURING METHOD OF SAME - A rotary electric machine stator includes: a stator core including slots; a stator coil wound around the stator core by joining end portions of a plurality of segment conductors placed to be inserted into each of the slots; and an insulating layer provided around the end portions including a joining portion at the end portions of the plurality of segment conductors. The segment conductor is constituted by an electric conductor and an insulation coating that covers the electric conductor. A conductor exposed portion in which the insulation coating is removed is formed in each of those end portions of the segment conductors which are joined to each other. The insulating layer is formed to be attached onto an insulating member that covers a stepped portion formed in a boundary between the insulation coating and the conductor exposed portion. | 06-30-2016 |
| 20190149001 | ELECTRIC MACHINE WITH VARIABLE CROSS SECTION STATOR WINDINGS | 05-16-2019 |
