Entries |
Document | Title | Date |
20080197741 | Electrical Machine Comprising a Winding System With Coil Groups - Disclosed is an electric machine ( | 08-21-2008 |
20080197742 | Electrical Machine Having a Three-Phase Winding System - The electrical machine has a stator, which comprises thirty-six slots and thirty-six teeth with an alternating sequence and a winding system ( | 08-21-2008 |
20080211338 | ELECTRICAL ROTATING MACHINE - An electrical rotating machine with permanent magnets which is configured such that the ratio of the number of magnetic poles of permanent magnets | 09-04-2008 |
20080272669 | Electric Machine, in Particular a Synchronous Motor, With Redundant Stator Windings - The electrical machine ( | 11-06-2008 |
20080278023 | BRUSHLESS MOTOR AND MANUFACTURING METHOD THEREFOR - Winding is wound around each of a plurality of core arm portions formed integrally with a core cylinder portion of a stator core. Windings wound around the respective core arm portions are 3-phase-configured such that one end of winding of each phase extends outwardly as an output wire, three output wires in total, and such that the other end of winding of each phase is connected at a common node, thereby establishing Y-connection. Two of the three output wires are fixedly pressed by crossover wires extending between windings wound around the respective core arm portions, whereas the remaining one output wire is fixedly pressed by a winding end wire of winding of an adjacent phase. | 11-13-2008 |
20080315704 | Synchronous Machine - The invention relates to a permanently excited synchronous machine ( | 12-25-2008 |
20080315705 | ROTATING ELECTRIC MACHINE, WINDING MACHINE, AND ROTATING ELECTRIC MACHINE SYSTEM - A rotating electric machine includes a stator core of a cylindrical shape, a rotor core coaxially rotating inside the stator core, and a plurality of coils each formed by winding magnet wires using a slot formed axially in either the stator core or the rotor core, or both: it is preferable that each of the coils be split into a plurality of coil groups, that starting sections of winding of the magnet wires in one of the coil groups be wound adjacently to ending sections of winding of the magnet wires in another of the coil groups, and that the starting sections and ending sections of winding of the magnet wires in the two coil groups be connected at respective outgoing wire ends to one another, outside the slots. | 12-25-2008 |
20090009023 | Electrical Machine - The invention describes an electrical machine having an armature with armature slots for accommodating armature coils. At least one armature coil is formed from two coil elements which are arranged symmetrically with respect to one another in relation to an axis of symmetry, which runs through the center-point of the armature shaft. The coil elements are connected to two adjacent commutator laminates of a commutator. A first brush, a second brush and a third brush bear against the commutator in a manner such that they can slide. The second brush interacts with the first brush or the third brush. The third brush is arranged in relation to the two coil elements in such a way that, when the two adjacent commutator laminates come into contact with one another, the third brush and the center-point of the armature shaft form an axis which has an angle of 90 DEG−(180 DEG/number of laminates)−(180 DEG/3×number of laminates) up to 90 DEG +(180 DEG/number of laminates)+(180 DEG/3×number of laminates) in relation to the axis of symmetry of the two coil elements. | 01-08-2009 |
20090058212 | ELECTRICITY GENERATOR AND AN INSTALLATION COMPRISING A LIGHTING TOWER POWERED BY SUCH A GENERATOR - The present invention provides an electricity generator for a lighting tower having a plurality of discharge lamps, each lamp being of power greater than 750 W, the generator being arranged to be driven by an engine, the generator being a multiphase generator having n phases, where n is an even integer, each phase being independent in a magnetic circuit that is common to all of the phases and being configured to power one lamp, the generator comprising a rotor with permanent magnets, having 3 n poles, and a stator concentric with the rotor and subjected to the radial magnetic flux from the magnets, the stator comprising a stack of laminations of silicon iron having a silicon content greater than 0.5% and of individual thickness greater than 0.35 mm, defining 4 n magnetic circuit teeth, with every other tooth carrying a winding. | 03-05-2009 |
20090058213 | Armature, dynamo-electric machine and manufacturing method of armature - A total number of windings in an armature is an even number. The windings are divided into a first winding group and a second winding group. The windings of the first winding group are arranged one after another at generally equal angular intervals without overlapping with each other. The windings of the second winding group are arranged one after another at generally equal angular intervals without overlapping with each other and are wound separately from the windings of the first winding group. | 03-05-2009 |
20090072652 | Electric rotating machine - The electric rotating machine includes a rotor around which a field coil is wound, and a stator including a stator core around which an armature winding is wound. The armature winding includes a first three-phase winding whose phase coils are delta-connected to form a delta winding, and a second three-phase winding whose phase coils are connected to corresponding nodes of the delta winding to form a star winding. The delta winding and the star winding are wound around the stator core such that the phase coils of the delta winding and the phase coils of the star winding share the same slots of the stator core. | 03-19-2009 |
20090096311 | METHOD FOR MAKING STATORS OF POLYPHASE ROTATING ELECTRICAL MACHINES, STATORS OBTAINED BY SAID METHOD - A method for making a polyphase rotating electrical machine stator, comprising an assembly of plates, slots, and a corrugated coil including a plurality of phase windings each formed with at least one continuous electrically conductive wire configured in successive recesses comprising a plurality of branches extending in a series of slots and a plurality of linking segments connecting the branches. The invention is characterized in that the method includes at least one first step during which the wires of the phase windings are arranged simultaneously on a dummy rotor and are during that same process configured into recesses, and a second step during which the dummy rotor is used for transferring the coil into the assembly of plates or for forming the stator. | 04-16-2009 |
20090096312 | ARMATURE - In an armature, the upper and lower coil pieces in the first and third parallel circuits are located at the 1 | 04-16-2009 |
20090134735 | MOTOR HAVING TWIN-ROTOR AND APPARATUS HAVING THE SAME - A motor includes a stator which includes a stator core having an annular stator yoke, a plurality of outer teeth projecting outward from the stator yoke and a plurality of inner teeth projecting inward from the stator yoke, and a plurality of windings wound on the stator core. The motor also includes an outer rotor confronting the outer teeth with an air gap therebetween and an inner rotor confronting the inner teeth with an air gap therebetween. This motor thus has twin-rotor. The stator core includes outer slots between each one of the outer teeth as well as inner slots between each one of the inner teeth, and the windings are wound on the stator yoke between the outer slot and the inner slot. A cross sectional cut of the stator reveals that a sectional area of the outer slot is equal to that of the inner slot. | 05-28-2009 |
20090167104 | Stackable brushless DC motor - The stackable brushless DC motor comprises one or more stackable motor sections disposed within a housing for use in cars or other vehicles. Each stackable motor section comprises a permanent magnetic rotor and electromagnetic stator. The permanent magnetic rotor comprises a plurality of permanent magnets. The electromagnetic stator comprises a plurality of conductive windings. The one or more stackable motor sections are characterized by a significantly thin and flat geometry. The housing comprises mounting flanges that support mounting in a car or other vehicle. The flat sides of the one or more stackable motor sections have no protuberances or features that would preclude adjacent stacking of said motors. The one or more stackable motor sections include openings through which a common shaft is disposed. | 07-02-2009 |
20090195105 | ARMATURE - In an armature, the upper and lower coil pieces in one half of the parallel circuits are located at the 1st, 4th, 6th, 7th, 9th, 12th and 14th positions, and the upper and lower coil pieces in remaining half of the parallel circuits are located at the 2nd, 3rd, 5th, 8th, 10th, 11th and 13th positions, when relative positions of the upper and lower coil pieces in each phase belt are indicated by positions counted in a direction separating away from a pole center. | 08-06-2009 |
20090218904 | ELECTRIC MACHINE WITH CONCENTRATED WINDINGS - The electrical machine ( | 09-03-2009 |
20090261681 | Armature in Rotary Electric Device and Its Manufacturing Method - An armature where at least one of a first winding wire and a second winding wire is wound around slots that are opposed to all magnetic poles serving as a same magnetic pole in a predetermined winding direction so as to correspond to a predetermined winding number as a total winding number between respective slots, so that the plurality of coils are formed, and a slot from which the first winding wire is led out and a slot into which the second winding wire is led are located circumferentially at both sides of commutator segments with which the first winding wire and the second winding wire are conductive. | 10-22-2009 |
20090267440 | DYNAMOELECTRIC MACHINE - The present invention provides a dynamoelectric machine that can reduce 12 f vibrational force and suppress generation of irritating electromagnetic noise in a vicinity of 2,000 Hz in an idling state. In the present invention, an armature winding includes first and second three-phase windings, the first three-phase winding is configured by delta-connecting respective phase windings, and the second three-phase winding is configured so as to be Y-connected to the first three-phase winding by connecting respective phase windings in series to respective output ends of the first three-phase winding. The first and second three-phase windings are each installed in the stator core such that respective phase currents have a phase difference from each other. In addition, angles between center lines of adjacent slot opening portions of the stator core central angles of adjacent slot opening portions of the stator have a nonuniform pitch, and a turn ratio between the first three-phase winding and the second three-phase winding is within a range of 1.25 to 2.25. | 10-29-2009 |
20090309452 | MOTOR, STATOR, AND METHOD FOR MANUFACTURING STATOR - A stator having a stator core and coils is disclosed. The stator core includes split core pieces each having a tooth portion. The split core pieces are arranged annularly such that the distal ends of the tooth portions face radially inward. A lead wire is continuously wound about an adjacent pair of the tooth portions such that coils of different phases are formed in the circumferentially adjacent tooth portions, so that a plurality of connecting wires are provided, each connecting wire connecting coils of different phases. The connecting wires are connected to one another while being connected to one another, such that a neutral point is created. | 12-17-2009 |
20100013342 | OPTIMIZED MULTI-PHASE ARMATURE WINDING - An electrical motor or generator asymmetrical armature winding configuration generating a multi-phase balanced power output. Each winding group for each pole, and the conductors constituting each winding group, are chosen individually according to their magnetomotive force (MMF) vector relationship to provide a balanced power output even though the individual windings may not be balanced or symmetrical. | 01-21-2010 |
20100013343 | CONSTANT FREQUENCY AND LOCKED PHASE GENERATOR ADAPTABLE TO VARIABLE TORQUE - This invention relates to a bearingless constant frequency phase locked generator adaptable of variable torque. With a reasonable combination of rotor poles and stator poles configured with U type permanent magnets and windings respectively, this novel generator can, with no need for acceleration of gearbox and sequential electrical controls, produce constant frequency constant voltage output, and is capable of auto phase (of the grid, for example) tracing and/or locking through the electrical control of the turn on/off of individual stator windings. Further a bearingless design is adopted and initiative suppression of axis vibration can be achieved. This generator has a relative simple structure, lower cost and high wind energy conversion, and is adaptable for a wide range of wind speed. This generator can be connected to grid directly and is suitable for wind power generation and other applications. | 01-21-2010 |
20100019609 | END TURN CONFIGURATION OF AN ELECTRIC MACHINE - A stator for an electric machine includes multiple conductive coils. Each coil defines a loop that extends axially through the elongate core, exits the core through an end face, and reenters the core through the end face. A first subset of the coils collectively form a first radial layer axially exterior the core and a third radial layer axially exterior the core. Each coil in the first subset resides in both the first layer and the third layer. A second subset of the coils collectively forms a second radial layer axially exterior the core and a fourth radial layer axially exterior the core. Each coil in the second subset residing in both the second layer and the fourth layer. | 01-28-2010 |
20100019610 | HYBRID WINDING CONFIGURATION OF AN ELECTRIC MACHINE - An electric machine system includes an electric machine and a companion device. The electric machine has a stationary member and a movable member that, by interaction of magnetic fields, at least one of moves relative to the stationary member or generates electricity when moved relative to the stationary member. One of the stationary member and the movable member comprising a permanent magnet. The companion device is coupled to the electric machine to communicate mechanical movement with the movable member. In certain instances, the electric machine system has adaptations for operation of the electric machine system subsea and/or in a corrosive environment. The electric machine includes a stator that carries a conductive winding having multiple coils. A first subset of the coils are in a first configuration, and a second subset of the coils are in a second configuration. In some implementations, the first configuration is a lap winding configuration, and the second configuration is a concentric winding configuration. | 01-28-2010 |
20100038988 | Stator and Method of Making the Same - The present disclosure describes an endcap assembly for a stator of an electric motor having a stator winding. The endcap assembly has a dielectric material, and a plurality of connection paths each being supported by the dielectric material and each intervening between each turn of the stator winding wherein the connection paths are configured to communicate with each terminal end of a stator conductor. A method of making a stator is also provided. | 02-18-2010 |
20100066195 | Group of three stator windings for a stator of an electric machine, a stator arrangement, a generator, and wind turbine - In one aspect, a stator is provided having a first cylindrical surface with a plurality circumferentially spaced winding slots, each winding slot extending along an axial length of the first cylindrical surface and formed to embed a segment of a single stator winding, Each stator winding is preformed as a closed loop and two substantially parallel segments of each stator winding formed to be embedded in a first and a second winding slot of the stator, with the second winding slot being the third adjacent winding slot to the first winding slot. Each of the three stator windings has a first winding head segment leaving the winding slots in axial direction of the stator, the first winding head segment of a first winding of the three stator windings describing in space in parts a combination of a rotation about an axis and a translation along that axis. | 03-18-2010 |
20100066196 | Group of Three Stator Windings for a Stator of an Electric Machine, a Stator Arrangement, a Generator, and Wind Turbine - A group of three stator windings for a stator of an electric machine, a stator arrangement, a generator, and wind turbine are provided. The first winding head segments of the three stator windings differ in form such that the first winding head segments of at least two of the three stator windings are differently tilted in radial direction of the electric machine and the length of the three stator windings is substantially the same. | 03-18-2010 |
20100084940 | MOTOR STATOR - A motor stator includes a silicon steel seat wound with six sets of starting coils and six sets of operating coils formed with resistance enameled coils. The six sets of starting coils are respectively made of the resistance enameled coils in directions respectively of getting in a first notch and out a fifth notch of the silicon steel seat, getting in a second notch and out a sixth notch, getting in a third notch and out a seventh notch, getting in an eleventh notch and out a seventh notch, getting in a twelfth notch and out an eighth notch, and getting in a first notch and out a ninth notch. And the six sets of operating coils are respectively composed of the resistance enameled coils in directions respectively different from the winding directions of the six sets of starting coils, able to quickly and evenly complete winding work. | 04-08-2010 |
20100084941 | MINIATURE MOTOR, AND ITS MANUFACTURING METHOD - A type-A winding represented by a triangle of solid lines is connected to commutator segments such that its one end is connected to an arbitrary commutator segment and its other end is connected to a commutator segment adjacent to the arbitrary commutator segment. A type-B winding represented by a diamond of broken lines is connected to commutator segments such that its one end is connected to a commutator segment located radially opposite to a usual adjacent commutator segment. The type-A windings and the type-B windings are used in combination. One short circuit wire is used for every short circuit connection of radially opposed commutator segments. A total number of the short circuit wires is half (5) the number (10) of commutator segments. Thus, the number of electric wires hooked at every commutator segment can be reduced to two or less. Also, continuous winding by use of one or two wires is possible. | 04-08-2010 |
20100090557 | FAULT TOLERANT PERMANENT MAGNET MACHINE - A PM machine is provided. The PM machine includes a stator including a stator core, wherein the stator core defines multiple step-shaped stator slots. The stator includes multiple fractional-slot concentrated windings wound within the step-shaped stator slots. The stator also includes at least one slot wedge configured to close an opening of a respective one of the step-shaped stator slots, wherein the slot wedge is further configured to adjust the leakage inductance in the PM machine. The PM machine also includes a rotor having a rotor core and disposed outside and concentric with the stator, wherein the rotor core includes a laminated back iron structure disposed around multiple axially-segmented magnets. | 04-15-2010 |
20100117479 | ELECTROMOTIVE MACHINES - An electromotive machine ( | 05-13-2010 |
20100181862 | STATOR FOR AN ELECTRIC DRIVE MOTOR - The invention relates to a stator ( | 07-22-2010 |
20100213783 | TWO CONDUCTOR WINDING FOR AN INDUCTION MOTOR CIRCUIT - An electrical induction motor has a main winding formed with two electrical conductors having different electrical resistivities. The motor includes a stator having a structure about which a winding is formed, and the winding includes a first electrical conductor having a first end and a second end, and a second electrical conductor having a first end and a second end, the first end of the first electrical conductor and the first end of the second electrical conductor being coupled together and the second end of the first electrical conductor and the second end of the second electrical conductor being coupled together to form a parallel circuit with the first electrical conductor and the second electrical conductor, and the second electrical conductor having an electrical resistivity that is greater than an electrical resistivity of the first electrical conductor. In one embodiment, the first electrical conductor is copper and the second electrical conductor is aluminum. | 08-26-2010 |
20100244613 | OPTIMIZED ELECTRIC MACHINE FOR SMART ACTUATORS - An electric machine includes a plurality of magnets for generating a first magnetic field. A magnet holder retains the plurality of magnets. A first stator is disposed radially outward from the magnet holder for generating a second magnetic field. The first stator includes a plurality of stator poles separated by slots with each of the stator poles having a concentrated winding with a respective number of turns formed around each respective stator pole. A second stator is disposed radially inward from the magnet for generating a third magnetic field. The second stator has a plurality of stator poles separated by slots with each of the stator poles having a concentrated winding with a respective number of turns formed around each respective stator pole. The magnet holder and magnets retained therein are rotatable between the first stator and second stator. | 09-30-2010 |
20100264773 | ARMATURE - An armature includes a plurality of armature elements, wherein each of the armature elements has an armature element core that has a predetermined core length and has end faces spaced apart in a core length direction and side faces connecting the end faces, a first coil that is formed by winding a wire over the side faces and the end faces, a second coil that is formed, after forming the first coil, by winding a wire over the side faces and the end faces so that on the side faces the second coil is formed contiguously to the first coil, and an end structure member that is provided on each of the end faces, has a first-winding face and a second-winding face on which the wires of the first coil and the second coil are wound, respectively, and has a riser formed between the first-winding face and the second-winding face, the end structure member in which a vicinity of the riser on the second-winding face is positioned farther from the each of the end faces than the first-winding face. | 10-21-2010 |
20100320862 | X-watt Power Motor - An X-watt Power Motor is an electric motor combined with an electricity generator that uses the motion created by the motor to generate electricity and uses the electricity from the generator to power the motor. The motor functionality replaces electromagnets with electrical transformers which are named transformer magnets. Electricity generated from common electricity collector coils in a multi-chambered motor can be combined and sent to the corresponding transformer magnet of a single chamber. The equivilent combined electrical current can then be passed to all of the common transformer magnets in every chamber and then out of the motor. The result is that each transformer magnet will receive an electrical charge that is equal to the number of chambers in the motor multiplied by the electricity generated from a single electricity collector coil. These factors combine to create a powerful electric motor that only requires electricity to be started and outputs electricity while running. | 12-23-2010 |
20100320863 | DYNAMOELECTRIC MACHINE - A dynamoelectric machine includes: a rotor that has 2 n field poles, where n is a positive integer; and a stator including: a stator core in which 2 n×6 slots that are partitioned by adjacent teeth are formed at a predetermined pitch circumferentially; and first and second three-phase alternating-current windings that are each configured by delta-connecting three phase windings that are mounted to the stator core such that an electrical angle phase difference therebetween is 120 degrees, each of the phase windings being configured by connecting in series pairs of coil winding portions that are mounted to the stator core so as to have different electrical angular phases from each other, and an electrical angle phase difference between the first and second three-phase alternating-current windings is 30 degrees. | 12-23-2010 |
20110025163 | STATOR, AND STATOR MANUFACTURING APPARATUS - An apparatus for manufacturing a stator. On a split core of the stator, there are wound main conductors and two auxiliary conductors, which are thinner than but correspond to the main conductors. These main conductors are arrayed and wound in a plurality of layers, such that the main conductors of an upper layer are arranged in the valleys between the adjoining main conductors of a layer. For the main conductors of a first layer, the auxiliary conductors are arranged in a first space and a second space. For the main conductors of the second and subsequent layers, the auxiliary conductors are arranged in a third space, and the auxiliary conductors are arranged in a fourth space. | 02-03-2011 |
20110031841 | Permanent Magnet Brushless Machine with Magnetic Flux Regulation - A permanent magnet machine (PMM) comprises: a generally cylindrical permanent magnet (PM) rotor that comprises multiple PM rotor poles arranged around a rotor axis of rotation; and a stator with two generally cylindrical and concentric yokes, an inner yoke proximate the PM rotor with associated multiple inner poles and inner armature windings suitable for multiphase alternating current operation that form a PMM magnetic flux circuit, an outer yoke with associated multiple outer poles and outer control windings suitable for connection to a direct current source, with distal ends of the outer poles in contact with the inner yoke to form an external magnetic flux circuit that diverts magnetic flux from the PMM magnetic flux circuit; wherein application of increasing direct current to the outer windings results in increased magnetic reluctance of the external magnetic flux circuit, thereby causing the external magnetic flux circuit to divert less magnetic flux from the PMM magnetic flux circuit. | 02-10-2011 |
20110043069 | ELECTRIC ROTATING MACHINE DRIVABLE WITH A SINGLE THREE-PHASE INVERTER - In an electric rotating machine, a stator coil is comprised of first and second winding groups. The stator coil is wound around a stator core in a concentrated winding manner so that the phase difference in electrical angle between each corresponding pair of windings of the first and second winding groups is equal to π/6. Further, the windings of the first and second winding groups are connected to form Δ-Y connections. Consequently, the sixth harmonic components of the electromagnetic forces created by the windings of the first winding group can be offset by those of the electromagnetic forces created the windings of the second winding group. As a result, the total magnetic noise and torque ripple generated in the machine can be reduced. Moreover, the machine can be driven with only a single three-phase inverter to achieve the effects of reducing the total magnetic noise and torque ripple. | 02-24-2011 |
20110050025 | DIRECT-CURRENT MOTOR AND MANUFACTURING METHOD FOR THE DIRECT-CURRENT MOTOR - A motor is provided that includes magnetic poles, an armature core, armature coils, a commutator, and power supply brushes. The armature core includes teeth arranged in the circumferential direction to extend in a radial pattern. The armature coils include inner layer coils and outer layer coils. Each of the inner layer coils is wound around radially proximal end portions of two circumferentially adjacent teeth or a radially proximal end portion of one of the teeth. The inner layer coils are arranged in the circumferential direction without overlapping each other in the radial direction. Each of the outer layer coils is wound around radially distal end portions of two circumferentially adjacent teeth by distributed winding. The outer layer coils are arranged radially outward of the inner layer coils and are arranged in the circumferential direction without overlapping each other in the radial direction. The circumferential center of the inner layer coils and the circumferential center of the outer layer coils are displaced in the circumferential direction. | 03-03-2011 |
20110163625 | STATOR DESIGNED TO MINIMIZE LEAKAGE CURRENT AND ELECTRIC ROTATING MACHINE USING SAME - A stator which may be employed in an electric rotating machine. The stator includes a stator winding which includes in-slot portions disposed in slots of a stator core. The in-slot portions are arrayed in each of the slots in a form of multiple layers aligned in a radial direction of the stator core. The stator winding is made up of a first winding and a second winding which are connected together through a joint. The first winding is defined by a portion of the stator winding between the joint and an end of the stator winding which is to be connected to an external. The second winding includes the in-slot portion placed within at least one of the slots as an outermost layer that is one of the layers placed most outwardly in the radial direction of the stator core. This results in a great decrease in leakage current. | 07-07-2011 |
20110187220 | REVERSE ELECTROMOTIVE FORCE GENERATING MOTOR - A reverse electromotive force generating motor includes a stator yoke; a rotor disposed in the stator yoke; a first coil disposed in the stator yoke and connected to a first input line of a power source with a first phase; a second coil disposed in the stator yoke and connected to the first coil in series, said second coil being connected to a first neutral point; a third coil disposed in the stator yoke and connected to the first neutral point; a fourth coil disposed in the stator yoke and connected to the third coil in series, said fourth coil being connected to a first output line for outputting power; and a rotational shaft disposed in the rotor. | 08-04-2011 |
20110198960 | Dual Layer Winding Pattern and Methods of Manufacturing Same - A dual-winding layer arrangement for a three-phase, four pole motor is provided as well as a method of manufacturing the same. | 08-18-2011 |
20110198961 | Triple Layer Winding Pattern and Methods of Manufacturing Same - A triple-winding layer arrangement for a three-phase, four pole motor is provided as well as a method of manufacturing the same. | 08-18-2011 |
20110198962 | Induction Motor Lamination Design - A high efficiency, high torque density, high speed induction motor is provided, the motor utilizing (i) stator teeth with parallel side surfaces; (ii) rotor teeth with parallel side surfaces; (iii) wide open stator slots; (iv) closed rotor slots with thick tooth bridges; and (v) deep stator and rotor slots. | 08-18-2011 |
20110298328 | GENERATOR - There is provided an generator, the power generation efficiency of which is further improved by employing a configuration in which a power generation mechanism having a back-electromotive force prevention function is divided into two independent mechanisms, the phases thereof are completely shifted to each other to generate electric power, thereby strengthening the rotational driving force. The generator comprises: a stator plate | 12-08-2011 |
20120007461 | WOUND ROTOR BRUSHLESS DOUBLY-FED MOTOR - A wound rotor brushless doubly-fed motor includes a stator and a rotor. The stator includes two sets of three-phase windings and the number of pole pairs is p | 01-12-2012 |
20120032550 | ELECTRIC CONNECTION OF CONDUCTOR ENDS ARRANGED IN PAIRS AND METHOD FOR ESTABLISHING THE CONNECTION - The invention relates to the electric connection of conductor ends ( | 02-09-2012 |
20120068570 | PARALLEL PATH PHASE LEAD EXITS FROM ELECTRIC MACHINE - A stator winding for an electric machine includes two or more conductors defining one or more phases about the stator winding. Each phase includes at least two conductors of the two or more conductors arranged in an electrically switchable relationship. An end of each conductor of the two or more conductors extends to an exterior of the electric machine and is configured for independent electrical connection to a component at the exterior of the electric machine. An electric machine includes a stator having a stator winding including two or more conductors defining one or more phases about the stator winding including at least two conductors of the two or more conductors arranged in an electrically switchable relationship. An end of each conductor of the two or more conductors extends to an exterior of the electric machine for independent electrical connection to a component at the exterior of the electric machine. | 03-22-2012 |
20120098379 | BRUSHLESS MOTOR AND ELECTRIC POWER STEERING SYSTEM - A motor formed as a 10-pole 12-slot brushless motor includes: six delta-connected coils that are among twelve motor coils, and arranged in a circular pattern such that any two of the delta-connected coils, which are next to each other in the circumferential direction, are different in winding direction; and six star-connected coils that the remaining six motor coils, and arranged between the delta-connected coils by connecting one ends of the star-connected coils to respective six connection lines providing connection between the delta-connected coils such that any two of the star-connected coils, which are next to each other in the circumferential direction, are different in winding direction. Terminals of the star-connected coils are grouped into sets each including three terminals that are next to each other in the circumferential direction, and three-phase driving voltages are applied to the other ends of the star-connected coils in each set. | 04-26-2012 |
20120119606 | MOTOR STATOR AND ASSEMBLING METHOD THEREOF - A motor stator includes a stator unit and an auxiliary induction unit. The stator unit includes a circuit substrate, and a plurality of induction coils embedded within the circuit substrate. The auxiliary induction unit includes an insulating member, a magnetic conductor, and at least one coil winding assembly. The coil winding assembly includes a conductive rod and an auxiliary coil. The rod has an insert rod section extending through the magnetic conductor, the insulating member, and the circuit substrate, and a wound rod section permitting the auxiliary coil to be wound thereon, such that the auxiliary coil is disposed outwardly of the magnetic conductor. During assembly, the induction coil assembly is mounted to the magnetic conductor, and the insulating member is superposed on the circuit substrate. Subsequently, the rod is inserted through the insulating member and into the circuit substrate. | 05-17-2012 |
20120146447 | STATOR FOR ROTARY ELECTRICAL MACHINE - A stator includes a ring-shaped stator core and a stator winding. The stator core has a plurality of slots arranged in a circumferential direction. The stator winding has a plurality of phase windings. Each phase winding is composed of a plurality of segment conductors | 06-14-2012 |
20120161568 | SUPERCONDUCTING ROTATING ELECTRICAL MACHINE AND STATOR FOR USE WITH SUPERCONDUCTING ROTATING ELECTRICAL MACHINE - A superconducting rotating electrical machine has a rotor with superconducting windings and a stator disposed around the rotor. The stator has a number of teeth disposed at a regular interval about a rotational axis of the rotor to define slots each between adjacent teeth and a plurality of windings, each winding having a strip-like wire member, the wire member having a plurality of rectangular cross-section wires in which said rectangular wires are arranged in parallel to each other and electrically insulated away from each other, the winding being constructed by winding the strip-like wire member a plurality of times to have first and second winding portions having a cross section in which the rectangular wires are positioned in matrix. | 06-28-2012 |
20120175990 | MOTOR - A motor is provided. When m is half of a number of slots of one phase and n is a divisor of m, the overall parallel winding of a total number of parallels p is equally divided n-fold into partial parallel windings Ni, having a number of parallels p/n, each partial parallel winding Ni comprises m sub-coils, the m sub-coils including n types of m/n sub-coils having a number of turns tj, at least one of the sub-coils differing in number of turns from the other sub-coils, and, for each pair of the slots in the stator, one sub-coil of each partial parallel winding Ni is wound around the pair of slots, and n sub-coils wound around the pair of the slots include every one of the n types of the sub-coils of the numbers of tj. | 07-12-2012 |
20120248922 | ROTARY ELECTRIC MACHINE - The stator winding includes: a first three-phase wye-delta hybrid winding that is configured by connecting phase windings of a first wye winding to respective output ends of a first delta winding; and a second three-phase wye-delta hybrid winding that is configured by connecting phase windings of a second wye winding to respective output ends of a second delta winding. The phase windings of the first and second wye windings are configured by connecting two winding portions in parallel, and those two winding portions are configured such that distributions of radial positions inside slots of conductor wires that constitute the winding portions are equal. | 10-04-2012 |
20120248923 | ROTARY ELECTRIC MACHINE - A stator winding is configured by connecting a first three-phase stator winding and a second three-phase stator winding in parallel. A U | 10-04-2012 |
20120248924 | ELECTRIC ROTATING MACHINE DRIVABLE WITH A SINGLE THREE-PHASE INVERTER - In an electric rotating machine, a stator coil is comprised of first and second winding groups. The stator coil is wound around a stator core in a concentrated winding manner so that the phase difference in electrical angle between each corresponding pair of windings of the first and second winding groups is equal to π/6. Further, the windings of the first and second winding groups are connected to form Δ-Y connections. Consequently, the sixth harmonic components of the electromagnetic forces created by the windings of the first winding group can be offset by those of the electromagnetic forces created the windings of the second winding group. As a result, the total magnetic noise and torque ripple generated in the machine can be reduced. Moreover, the machine can be driven with only a single three-phase inverter to achieve the effects of reducing the total magnetic noise and torque ripple. | 10-04-2012 |
20120274171 | Rotating Electric Machine - An object is to provide a rotating electric machine offering a high output and high efficiency by balancing inductance of each phase even if a stator is used in which stator windings of different phases are disposed in a slot of a stator core in a three-phase winding. A stator | 11-01-2012 |
20130026875 | FIELD COIL FOR AN ELECTRIC MACHINE - A field coil segment for an electric machine including a rotor and a stator includes a first wire element having a first cross sectional area electrically connected in parallel with a second wire element having a second cross sectional area greater than the first cross sectional area. | 01-31-2013 |
20130038168 | Stator Manufacturing Method for a Motor and Stator Utilizing the same - A stator manufacturing method for a motor includes a preliminary step, a winding step, a rolling step and a shaping step. The preliminary step provides a strip plate having at least one wound portion. The winding step provides and winds a coil unit around the wound portion. The rolling step roll ups the strip plate into an unshaped sleeve having a central hole. The shaping step fixes a shape of the unshaped sleeve to form a shaped sleeve. An outer sleeve may be provided to receive the unshaped sleeve, and a separation member is inserted between two ends of the strip plate. Alternatively, an outer sleeve with a protruding pole may be provided, or the strip plate may form at least one outer wound portion that is wound with an outer coil unit. In addition, methods for manufacturing the stators are also disclosed. | 02-14-2013 |
20130069473 | Electric Rotating Machine - An alternator comprising a rotor having plural magnetic poles in the circumferential direction; and a stator whose teeth are disposed opposite to the periphery of the rotor, with an air gap interposed between the rotor and the stator, wherein the coil conductors are wound on the stator so that two stator magnetic poles may be formed by two coil units of a phase wound around stator teeth within the range of 360 electrical degrees subtended by the magnetic poles of the rotor; each of the two coil units forming the stator magnetic poles spans an electrical angle less than 180 electrical degrees; the two coil turns forming the two stator magnetic poles are laid out so that they may not overlap each other; and the coil conductors are so wound that the adjacent stator magnetic poles exhibit opposite magnetic polarities. | 03-21-2013 |
20130076189 | Polyphase Electric Motor - A polyphase electric motor has a rotor, a stator with a plurality of slots, a plurality of main windings and a plurality of auxiliary windings installed in slots of the stator, and a main winding and an auxiliary winding that correspond to a selected phase of an alternating current power source. The auxiliary windings are connected to the motor terminals through a plurality of capacitors, and the auxiliary windings and corresponding capacitors are connected in parallel to the main windings. The main winding and the auxiliary winding of the selected phase are offset by about 60 to about 120 electrical degrees. A power of the plurality of main windings is at least 75% of a power of the polyphase electric motor at full load rating and the power of the plurality of main windings is motoring at 25% of the full load rating. | 03-28-2013 |
20130076190 | WINDING FOR AN AC MACHINE - A stator winding is disclosed for a multiple-phase alternating current machine with several parallel winding groups (U1, V1, W1; U2, V2, W2; U3, V3, W3), each of which can be supplied with separate power sources. Locations of the winding groups can be cyclically shifted when moving from one pole to another. The number of parallel winding groups (U1, V1, W1; U2, V2 ,W2 ;U3 ,V3 , W3) can be higher than two, and the number of poles of the alternating current machine can be an even figure that is a multiple of the number of winding groups. | 03-28-2013 |
20130140934 | Rotating Electrical Machine and Manufacturing Method Thereof - A manufacturing method for manufacturing a rotating electrical machine equipped with a stator that includes a continuously wound coil unit achieved by continuously winding concentrated winding-type coils via cross wires, with coil wire having a rectangular section. The manufacturing method includes: mounting core segments, at which the coil wire is yet to be wound, at a core segment forward/backward moving mechanism; winding the coil wire with a winding track secured by driving the core segments forward/backward via the core segment forward/backward moving mechanism; setting faces of the coil wire in alignment by holding orientations of winding start wire and winding end wire at the concentrated winding-type coils at approximately 90° via open/close type chucks each equipped with a chuck forward/backward moving mechanism, with the open/close type chucks mounted at the core segment forward/backward moving mechanism; and forming the continuously wound coil unit by driving the core segments forward/backward via the core segment forward/backward moving mechanism, driving the open/close type chucks forward/backward and opening/closing the open/close type chucks. | 06-06-2013 |
20130169102 | WINDING STRUCTURE, ROTATING ELECTRIC MACHINE, AND ROTATING ELECTRIC MACHINE MANUFACTURING METHOD - A winding structure for a rotating electric machine includes: a core including slots; and a coil including a first winding and a second winding combined by intersecting the first winding and the second winding with each other. Each straight portion of the coil is inserted into any one of two slots arranged at a given interval so that the coil is assembled to the core. | 07-04-2013 |
20130221791 | ROTARY ELECTRIC MACHINE SYSTEM - A rotary electric machine system includes a rotor; and a stator including windings for low speed drive to be used only during low speed drive, windings for low/high speed drive to be used during both low and high speed drive, and a plurality of slots provided per pole per phase. The windings for low speed drive and the windings for low/high speed drive are distributively wound on different slots in the slots per pole per phase. | 08-29-2013 |
20130264904 | DC COMMUTATOR MOTOR AND AUTOMOBILE INCLUDING THE SAME - A DC commutator motor includes a yoke, a field magnet, and an armature. A shaft is positioned on a central axis of the armature. A plurality of commutator segments is positioned in a circumferential direction of the shaft. A plurality of armature slots is formed on an outer periphery of an armature core. An upper coil is wound the number of turns Na through two armature slots, which are located apart from each other with the predetermined number of armature slots therebetween, at their opening sides. A lower coil is connected in parallel with the upper coil and wound the number of turns Nb through the two armature slots at their bottom sides. The number of turns Na is smaller than the number of turns Nb. | 10-10-2013 |
20130285501 | WIND TURBINE GENERATOR WITH MOVABLE STATOR SUBUNITS - A generator ( | 10-31-2013 |
20130307367 | DISK MOTOR, ELECTRIC WORKING MACHINE INCLUDING DISK MOTOR AND METHOD FOR MANUFACTURING DISK MOTOR - A disk motor including: a rotor; a stator; an output shaft concentrically fixed to the rotor; at least one coil disk which is provided to one of the rotor or the stator, a coil pattern which includes a plurality of radial patterns or radial pattern groups extending outwards in a radial direction from a center part of the coil disk being formed on at least one surface of the coil disk; an electric current supply portion which supplies electric current to the coil pattern; a magnetic flux generating portion which is provided to another of the rotor or the stator and faces the coil pattern; and an intermediate pattern which is formed between adjacent radial patterns or adjacent radial pattern groups on the coil disk. | 11-21-2013 |
20130334924 | ARMATURE WINDING OF ROTATING ELECTRICAL MACHINE - According to one embodiment, there is provided a 3-phase 2-pole 2-layer armature winding, housed in 72 slots provided in a laminated iron core, a winding of each phase including six parallel circuits separated into two phase belts. Upper coil pieces of first and fourth parallel circuits are placed at 3rd, 4th, 7th, and 12th positions, and lower coil pieces of the first and fourth parallel circuits are placed at 1st, 6th, 9th, and 10th positions, upper and lower coil pieces of second and fifth parallel circuits are placed at 2nd, 5th, 8th, and 11th positions, and upper coil pieces of third and six parallel circuits are placed at 1st, 6th, 9th, and 10th positions, and lower coil pieces of the third and six parallel circuits are placed at 3rd, 4th, 7th, and 12th positions, from the center of a pole. | 12-19-2013 |
20140028142 | DOUBLE-STATOR MOTOR - A double-stator includes outer and inner stators each having magnetic poles. Outer-stator and inner-stator windings are connected in series in phases, thereby generating winding magnetomotive force. Outer magnets and inner magnets of a rotor are arranged in a rotor core in the circumferential direction, the outer and inner magnets being alternated between a radially outward portion and a radially inward portion, at a pitch equal to that of the poles of the outer and inner stators so as to be magnetized so that a radially outer side thereof will serve as N poles or S poles and that a radially inner side thereof will serve as S poles or N poles. The rotor core includes outer poles formed between the outer magnets circumferentially adjacent to each other in the radially outward portion, and inner poles formed between the inner magnets circumferentially adjacent to each other in the radially inward portion. | 01-30-2014 |
20140035424 | ROTATING ELECTRICAL MACHINE - A rotating electrical machine includes a toric stator and a rotator located inside or outside the stator. The stator includes a plurality of teeth radially extending from the center of a circle of the stator with equal gap, and the plurality of coils arranged in order and in layers by the winding wire being turned a plurality of times around the circumference of each of a plurality of teeth. The number of turns of the two respective coils arranged on the circumference of the two adjacent teeth is different. | 02-06-2014 |
20140035425 | ELECTRIC MACHINE - The proposed principle relates to an electric machine having a stator ( | 02-06-2014 |
20140049133 | DISTRIBUTED WINDING ARRANGEMENT FOR AN ELECTRIC MOTOR - A distributed winding arrangement for an electric motor is provided that reduces brush arcing while reducing the size of the commutator. The electric motor is comprised generally of an armature having a plurality of spaced apart posts defining a plurality of spaced apart winding slots; a stator disposed coaxially with the armature; and a commutator having a plurality of commutator bars, where the number of commutator bars is an integer greater than the number of winding slots but less than twice the number of winding slots provided by the armature. | 02-20-2014 |
20140084736 | STATOR FOR ROTATING ELECTRIC MACHINE - A stator for a rotating electric machine includes an annular stator core and a plurality of winding groups mounted on teeth of the stator core. Each of the winding groups is either a short-pitch winding group which consists of windings wound at a pitch shorter than 180° in electrical angle or a full-pitch winding group which consists of windings wound at a pitch equal to 180° in electrical angle. The winding groups include at least one short-pitch winding group pair which consists of two short-pitch winding groups that respectively belong to two different phases and are circumferentially adjacent to each other. The two short-pitch winding groups are arranged so as not to overlap each other in a radial direction of the stator core. There are no other winding groups interposed between the two short-pitch winding groups in the circumferential direction of the stator core. | 03-27-2014 |
20140084737 | MODULAR TRANSVERSE FLUX ELECTRICAL MACHINE - A modular stator portion adapted to be used in a transverse flux electrical machine (TFEM) includes a plurality of phase modules adapted to be axially secured together with a plurality of securing members. The phase modules of at least en embodiment thereof are substantially identical and interchangeable. Each pair of axially adjacent phase modules are adapted to be angularly located in respect with each other to set a phase shift. A phase module and a kit of phase modules sized and designed to assemble a modular stator are also encompassed by the present application. | 03-27-2014 |
20140084738 | TRANSVERSE FLUX ELECTRICAL MACHINE STATOR PHASES ASSEMBLY - A modular stator adapted to be used in a transverse flux electrical machine (TFEM) includes a plurality of phase modules comprising respective halves sized and designed to receive therein a plurality of cores about a rotational axis. The phase modules are adapted to be assembled together to produce a multi-phase stator and disassembled to replace or maintain a phase module. The phase modules are configured to be angularly shifted from one another to produce a multi-phase TFEM. A TFEM phase assembly and a kit of phases components sized and designed to assemble a multi-phase stator are also encompassed by the present application. | 03-27-2014 |
20140084739 | HOUSINGLESS TRANSVERSE FLUX ELECTRICAL MACHINE - A housingless transverse flux electrical machine (TFEM) includes a pair of halves adapted to receive therein a plurality of cores and a coil therein. The halves are the exterior boundary for the environment and the TFEM can be in operating configuration without further housing. | 03-27-2014 |
20140091667 | ARMATURE AND MOTOR - In an armature, a plurality of teeth extending from an annular core back each include a projection portion arranged to extend in a circumferential direction from a circumferential side surface of the tooth. Insulators, each of which is attached to the stator core and is arranged to cover at least a portion of a separate one of the teeth, include an insulator contact surface arranged to be in contact with the projection portion. A portion of the projection portion and the insulator contact surface are arranged to be in contact with each other. | 04-03-2014 |
20140103775 | Electrical Machine, Particularly A Permanent Magnet Motor, And A Method To Provide The Electrical Windings Thereof - An electrical machine, particularly a permanent magnet motor, having a number of poles and teeth or tooth groups that is divisible by a whole number A around which coil-forming loops of winding wire are arranged such that B coils are arranged in series, the coils having a number of windings equivalent to C/B where C is a whole number divisor of B and indicates the wire diameter as a quotient of a traditional standard winding, as well as a method to provide a corresponding winding structure. | 04-17-2014 |
20140125185 | STATOR AND ROTATING ELECTRIC MACHINE - A stator includes a hollow cylindrical stator core and a stator coil. The stator core has a plurality of slots formed therein. The stator coil is provided in the slots of the stator core in a plurality of layers in a radial direction of the stator core, and includes a first winding and a second winding. The first winding extends around the stator core so as to be located at the (2n−1)th and 2nth layers of the stator coil, and has an end located at the 2nth layer, where n is a natural number. The second winding extends around the stator core so as to be located at the (2n+1)th and (2n+2)th layers of the stator coil, and has an end located at the (2n+1)th layer. The ends of the first and second windings, which are respectively located at the 2nth and (2n+1)th layers, are electrically connected to each other. | 05-08-2014 |
20140145541 | BRUSHLESS DOUBLY FED MACHINES - We describe a brushless doubly fed machine (BDFM) comprising a stator having first and second sets of poles with p1, p2 respective numbers of pole pairs, and a rotor having (p1+p2) sets of electrically conducting loops. Each loop comprises a pair of conducting elements extending longitudinally along a direction of rotation of said rotor. Each said set of electrically conducting loops comprises at least first and second loops electrically connected in series with one another and at least one third loop configured to form a parallel load on said stator. An area encompassed by said third loop is less than an area encompassed by either of said first and second loops. Embodiments of this rotor design efficiently couple to two stator magnetic fields and suppress a space harmonic field. | 05-29-2014 |
20140175933 | STATOR OF AN AXIAL FLOW ELECTRIC MACHINE AND THE PROCESS FOR MAKING IT - Described is a stator for an axial flow electric machine comprising a toroidal core ( | 06-26-2014 |
20140210298 | STATOR OF ROTARY ELECTRIC MACHINE - A stator of a rotary electric machine includes an annular stator core with a plurality of slots arranged in a circumferential direction, a stator winding formed by three phases of phase windings wound around the slots, and neutral wires for commonly connecting ends of the phase windings together in star-connection. Each of the phase windings has two partial windings that are electrically connected in parallel, ends of at least two sets of the partial windings formed by combining two partial windings among the total of six partial windings in different phases and the ends of the neutral wires are connected electrically, and the partial windings connected to both ends of each neutral wire include all the phases. | 07-31-2014 |
20140252907 | ARMATURE WINDING OF ROTATING ELECTRICAL MACHINE - According to one embodiment, there is provided a 3-phase 2-pole 2-layer armature winding, housed in 72 slots provided in a laminated iron core, a winding of each phase including six parallel circuits separated into two phase belts. Upper coil pieces of first and fourth parallel circuits are placed at 3rd, 4th, 7th, and 12th positions, and lower coil pieces of the first and fourth parallel circuits are placed at 1st, 6th, 9th, and 10th positions, upper and lower coil pieces of second and fifth parallel circuits are placed at 2nd, 5th, 8th, and 11th positions, and upper coil pieces of third and six parallel circuits are placed at 1st, 6th, 9th, and 10th positions, and lower coil pieces of the third and six parallel circuits are placed at 3rd, 4th, 7th, and 12th positions, from the center of a pole. | 09-11-2014 |
20140265711 | SEGMENT COIL, STATOR INCLUDING SEGMENT COIL, AND METHOD OF MANUFACTURING SEGMENT COIL - Segment coils arranged as aligned in slot portions of an annular core each include a straight portion and a pair of coil end portions, and have a tip end of the coil end portion of the pair of coil end portions as a tip end portion for joint including a joint surface for joint to another segment coil. The tip end portion for joint has the joint surface in parallel to a radial direction of the annular core when viewed in an axial direction of the annular core. | 09-18-2014 |
20140300236 | SEGMENT COIL, METHOD OF MANUFACTURING SEGMENT COIL, AND STATOR INCLUDING SEGMENT COIL - Each of segment coils arranged as aligned in a slot of a stator core includes a coil central portion accommodated in the slot and two coil end portions protruding outward. The coil end portion of the two coil end portions includes a pair of coil pieces formed by inclining a coil at different angles toward the coil central portion with a vertex lying therebetween. Any one of the pair of coil pieces includes in a region in the vicinity of the vertex, a recessed step portion formed from two sides in non-parallel to and at an angle with respect to an end surface of the stator core. | 10-09-2014 |
20140319953 | BAR WOUND STATOR WINDING LAYOUT WITH LONG-PITCHED AND SHORT-PITCHED COILS - A stator assembly includes a plurality of stator slots defining a plurality of slot layers. The assembly includes a plurality of hairpins each having respective first and second legs positioned in respective ones of the slot layers. Each of the hairpins is one of a short-pitched coil, a long-pitched coil and a full-pitched coil. The short-pitched, long-pitched and full-pitched coils are configured to extend over a first, second and third number of the stator slots, respectively. The hairpins may be divided into first, second, third, fourth, fifth and sixth hairpin layers. One of the hairpin layers includes at least one short-pitched coil, and another of the hairpin layers includes at least one long-pitched coil. The first, third and fifth hairpin layers each may include at least two short-pitched coils while the second, fourth and sixth hairpin layers each may include at least two long-pitched coils. | 10-30-2014 |
20140339948 | STATOR OF SEGMENTED CONDUCTOR TYPE ELECTRIC ROTARY MACHINE AND FABRICATION METHOD THEREOF - One embodiment provides a stator of a segmented conductor type electric rotary machine including an annular stator core and coil. On at least one axial end portion of the stator core, the coils are disposed to form a coil end so that plural spanning portions of the coils are arranged continuously in a circumferential direction and so that circumferentially adjacent ones of the spanning portions partially overlap each other as seen in an axial direction. An apex portion of the spanning portion is twisted so that an intersecting state is formed as seen in a radial direction within a range where the spanning portion is exposed as seen in the axial direction. | 11-20-2014 |
20140346914 | STATOR WINDING OF ELECTRICAL ROTATING MACHINE - In a three-phase, four-pole, four-parallel-circuit stator winding of an electrical rotating machine, each of two sets of U-phase output terminals U1, U2 is formed of two sets of parallel circuits each formed of windings having a same pitch (one is formed of first and second winding circuits | 11-27-2014 |
20140368078 | ARMATURE AND ARMATURE MANUFACTURING METHOD - An armature including a core that includes plural teeth extending in a radial shape, and that has a slot formed between each of the plural teeth; a plurality of first winding coil sections formed by winding coil wire plural times spanning different respective sets of least two of the teeth, while shifting by one slot each time toward one side in the circumferential direction of the core; and a plurality of second winding coil sections formed by winding coil wire plural times spanning different respective sets of least two of the teeth, while shifting by one slot each time toward the other side in the circumferential direction of the core. | 12-18-2014 |
20150028713 | STATOR ASSEMBLY WITH WINDING SETS HAVING HAIRPINS FROM MULTIPLE HAIRPIN LAYERS - A stator assembly includes a plurality of stator slots defining multiple slot layers. The assembly includes a plurality of hairpins each having a respective first leg positioned in one of the multiple slot layers and a respective second leg positioned in another of the multiple slot layers. Each hairpin is configured to allow a current to flow from the respective first leg to the respective second leg. The plurality of hairpins is divided into multiple hairpin layers. The hairpins form multiple winding sets, such as first, second, third and fourth winding sets. Each of the winding sets at least partially includes the hairpins from at least two of the multiple hairpin layers. The multiple slot layers may include six slot layers. The multiple hairpin layers may include six hairpin layers. Thus, at least one of the hairpin layers may be “shared” by two winding sets. | 01-29-2015 |
20150028714 | ROTATING ELECTRIC MACHINE - Conductors comprising a U-phase coil, a V-phase coil and a W-phase coil are arranged in multiple slots in a stator forming a rotating electric machine. These U-phase coils, V-phase coils and W-phase coils are equipped with wave-wound parts, which have bridging parts on one end-face side of the stator core, and lap-wound parts, which are adjacent to the wave-wound parts and are formed so as to encircle the one end face and the other end face of the stator core. The wave-wound parts and the lap-wound parts are arranged so as to alternate in the winding direction of the conductors. | 01-29-2015 |
20150042196 | ROTATING ELECTRICAL MACHINE AND METHOD OF MANUFACTURING THE SAME - A rotating electrical machine includes a stator having a stator core and a plurality of groups of coils formed by inserting a plurality of unit coils into slots of the stator core in a lap winding manner and a rotor rotatably mounted on the stator. The plurality of coil groups includes a first coil group located at an outer circumference side of the stator core and a second coil group located at an inner circumference side of the stator core. The unit coils constituting the second coil group has shorter circumferences than the unit coils constituting the first coil group. | 02-12-2015 |
20150042197 | PERMANENT MAGNET EXCITED ELECTRIC MACHINE - A permanent magnet excited electric machine includes a stator and a moving part movable relative to the stator. One of the stator and moving part has an electric winding system in the form of a single or multiple 3-phase system. The other one of the stator and moving part has permanent magnets. The winding system, in the form of a delta connection, has an inductance such that the related total reactance x | 02-12-2015 |
20150054374 | DISTRIBUTED CASCADED WINDING FOR ELECTRIC MACHINES - A stator includes a cylindrical core with a plurality of longitudinally extending slots, a first winding set formed as a first cascaded wire in two radial layers of the slots, a second winding set formed as a second cascaded wire in two other radial layers of the slots, and a jumper connecting the first and second wires. A first winding set may have three cascaded phase wires in first and second layers of the slots, and a second winding set may have three cascaded phase wires in third and fourth layers of the slots. A winding set of a first phase may have a first cascaded wire in two radial layers of a first one of the slots, and a winding set of a second phase may have a second cascaded wire in two other radial layers of the first one of the slots. | 02-26-2015 |
20150061450 | COIL - A coil that is wound around a core having a plurality of slots arranged so as to be distributed in a circumferential direction of a cylindrical core reference plane, and that has N (where N is an integer of 2 or more) star connections. Each of the N star connections includes three phase coil portions corresponding to respective three phases, and first ends of the three phase coil portions are connected together at a neutral point that is formed independently for each of the star connections, second ends of the N phase coil portions of the same phase which are included in the different star connections are connected to each other, a phase coil placement region where the phase coil portion is placed is designed to be continuous in the circumferential direction. | 03-05-2015 |
20150061451 | ELECTRIC MOTOR - An electric motor comprising a rotor which has a plurality of permanent magnets arranged along a circumferential direction, a stator arrangement with a winding arrangement which surrounds, at least in parts, the permanent magnets. Said stator arrangement comprises a first stator having a plurality of windings and the stator arrangement comprises a second stator, the windings of the first and second stators being embodied, respectively as frame-shaped coils, said coils of the first stator being arranged in the radial direction on the outside of the permanent magnets, the coils of the second stator being arranged in the radial direction inside the permanent magnets, and the coils are arranged along the winding axis thereof in the radial direction and the permanent magnets are arranged along the magnetization direction thereof in the radial direction. | 03-05-2015 |
20150076952 | STATOR SYSTEM FOR AN ELECTRIC MOTOR - A stator system for an electric motor has multiple coil formers and stator windings that are wound on the coil formers. The stator windings are distributed over the circumference of the stator system and are arranged to form a substantially circular stator star. A number of the stator windings are electrically insulated in the axial direction in each case by way of a phase separator. The stator windings in each case of two coil formers are electrically connected as a coil pair in an electrically conductive manner by a conductor track. The conductor track is retained by a separating web that is arranged in the axial direction above the allocated phase separator and that extends in a radial direction. | 03-19-2015 |
20150097460 | Ball Joint Universal Rotary Motor, a Manufacturing Method and a Working Mechanism Thereof - Described herein is a ball joints universal rotary motor, a manufacturing method and a working mechanism thereof. The ball joints universal rotary motor comprises a housing, a spherical-cap shaped stator body, and a rotor body configured to be secured within the stator body. The stator body is made from a permanent magnet. The rotor body comprises multiple layers of armatures and multiple spacer layers. The multiple layers of armatures are symmetrically distributed along the axis of the rotor body. A spacer layer is provided between two adjacent layers of armatures. The multiple layers of armatures and multiple spacer layers are securely connected by a bolt. The bolt and the rotor body are axially connected. The rotor body is of a spherical shape. Each layer of the armatures is wound with two layers of coils: a first layer and a second layer. The motor as provided is configured to realize movement in multiple directions. The present disclosure provides an embodiment of a motor with a pump assembly, and another embodiment of a motor without a pump assembly. Examples of applications of the present disclosure include joints and areas of an intelligent bionic robot, various industrial devices, and household appliances. | 04-09-2015 |
20150108869 | ARMATURE, METHOD FOR WINDING ARMATURE COIL, AND DC MOTOR - An armature includes an armature core, teeth, a commutator, concentrated winding wires, and distributed winding wires. Each of the teeth includes a first branch portion and a second branch portion. Each of segments in the commutator has a riser. A start end and a terminal end of the concentrated winding wire are pulled out separately in a direction getting closer to the commutator and in a direction away from the commutator. The conductor between the concentrated winding wires is hooked by the riser by which the conductor between the other concentrated winding wires is not hooked. A start end and a terminal end of the distributed winding wire are pulled out separately in a direction getting closer to the commutator and in a direction away from the commutator. The conductor between the distributed winding wires is hooked by the riser by which at least one of the conductor between the concentrated winding wires and the conductor between the other distributed winding wires is not hooked. | 04-23-2015 |
20150311758 | ELECTRIC MACHINES - An electric machine comprising:
| 10-29-2015 |
20150326082 | SINGLE-PHASE INDUCTION MOTOR - A single-phase induction motor includes a stator including a main winding with a first coil (P | 11-12-2015 |
20150349597 | ROTARY ELECTRIC MACHINE AND METHOD FOR MANUFACTURING AN ARMATURE THAT IS USED IN THE ROTARY ELECTRIC MACHINE - First and second winding bodies are each configured so as to have a helical shape by winding a conductor wire for m turns, where m is a natural number that is greater than or equal to two, an armature winding is configured by mounting two-lane winding bodies into respective pairs of slots, two-lane winding bodies being configured by assembling the first and second winding bodies, the coil ends include a top portion that displaces in a radial direction at a central portion, and the radial displacement at the top portion is a×d, where a is a natural number that is greater than or equal to 2 and less than or equal to 2×(m−1), and d is a radial thickness of the rectilinear portions, 4×m of the rectilinear portions being housed inside the slots so as to line up in single columns. | 12-03-2015 |
20160056679 | STATOR FOR ROTARY ELECTRIC MACHINE - A stator winding includes forty-eight winding bodies | 02-25-2016 |
20160072345 | DC MOTOR - A DC motor includes a core, two bifurcated branching portions, an inner coil, and an outer coil. The core includes teeth. Each tooth includes a distal end and a basal end. The branching portions are located at the distal end. The inner coil is wound around the basal end. The outer coil is wound around each of the branching portions of the tooth and a branching portion of an adjacent one of the teeth. The inner coil and the outer coil each have a number of turns that is adjusted so that an inductance of the inner coil conforms to an inductance of the outer coil. | 03-10-2016 |
20160087500 | Stator for Use in a Dual-phased Motor and a Method for Winding the Stator - A stator for use in a dual-phased motor includes a magnetic yoke portion, a first magnetic pole, a second magnetic pole, a third magnetic pole and a fourth magnetic pole. The first, second, third and fourth magnetic poles are circumferentially arranged around and coupled with the magnetic yoke portion. Each of the first, second, third and fourth magnetic poles is wound with a coil having a first coil layer and a second coil layer. The first coil layer and the second coil layer of each of the first, second, third and fourth magnetic poles are in different phases. In other embodiments, several methods for winding a stator for use in a dual-phased motor are respectively proposed. | 03-24-2016 |
20160087503 | ELECTRIC MACHINE STATOR LAMINATION WITH DUAL PHASE MAGNETIC MATERIAL - A stator lamination for an electric machine has a circular lamination with an annular bore therethrough; winding slots therethrough; and, slot closures disposed adjacent to the winding slots. The stator lamination is formed of a dual magnetic phase material, such that the magnetic property of the lamination can have a first state and a magnetic property in a second state, wherein the second state is different than the first state. The slot closures regions are treated so as to transition to the second state. A method of manufacturing an electric machine component is also disclosed. | 03-24-2016 |
20160134165 | Surgical Instrument Motor With Increased Number Of Wires Per Phase Set And Increased Fill Factor And Corresponding Manufacturing Method - A motor for a surgical instrument includes a rotor and a stator. The rotor includes a shaft and a magnet. The stator includes (i) a cavity in which the rotor is disposed, and (ii) a coil assembly. The coil assembly includes multiple phase sets. The phase sets include multiple sets of wires. Each of the phase sets includes multiple coils and corresponds to a respective one of the sets of wires. The coils in each of the phase sets are at respective positions about the rotor. One of the sets of wires includes at least three wires. The stator causes the rotor to axially rotate a surgical tool of the surgical instrument based on current received at the sets of wires. | 05-12-2016 |
20160164388 | BRUSH-COMMUNICATED DIRECT-CURRENT MOTOR - A brush-commutated direct-current motor comprises a stator which is fitted with a plurality of field poles, a rotor which can rotate in relation to the stator about a rotation axis and which has a plurality of pole teeth, a plurality of windings, wherein a plurality of windings are arranged on each pole tooth, a commutator which is arranged on the rotor and has a plurality of lamellas, wherein each winding is connected to one of the lamellas by means of a first winding arm and is connected to another of the lamellas by means of a second winding arm, and a plurality of short-circuiting links which each electrically connect two windings to one another and to this end are each arranged on at least two lamellas of the commutator. The plurality of windings of the plurality of pole teeth are formed by a plurality of wire turns. | 06-09-2016 |
20160172918 | MULTIPLE-POLYPHASE AC DYNAMO-ELECTRIC MACHINE AND ELECTRIC POWER STEERING DEVICE | 06-16-2016 |
20190149028 | ARMATURE, METHOD FOR WINDING ARMATURE COIL, AND DC MOTOR | 05-16-2019 |