| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 310254000 | Stator structure | 58 |
| 20080224563 | Method of Inserting an Undulating Winding Into a Stator of a Polyphase Rotating Electrical Machine, and Associated Stator - A method of inserting an undulating winding into an alternator stator. The method comprises the following steps consisting of shaping each phase winding into a succession of crenels comprising two lateral branches which are intended to be attached at a position for reception in a slot, positioning the windings on an insertion tool and inserting the turns into the slots of the stator in the reverse order to the winding order. The windings are wound around the insertion tool simultaneously, and the turns that succeed one another in a determined winding order belong alternatively to different windings. | 09-18-2008 |
| 20080278027 | MOTOR AND METHOD FOR MANUFACTURING THE MOTOR - A motor includes a shaft; a sleeve that supports the shaft rotatably; a housing including a cylindrical holding portion for holding an outer circumferential surface of the sleeve; a stator held against the cylindrical holding portion; and an attachment plate including an attachment portion held against the outer circumferential surface of the cylindrical holding portion. Herein, the cylindrical holding portion has a stator holding surface section facing the stator in a radial direction and an attachment plate holding surface section facing the attachment portion of the attachment plate in a radial direction. Further, the stator holding surface section has an outer diameter greater than that of the attachment plate holding surface section, and the inner circumferential surface of the cylindrical holding portion includes a surface region opposite to the stator holding surface section and another surface region opposite to the attachment plate holding surface section. | 11-13-2008 |
| 20080303374 | MOTOR WITH ROTOR SHAFT AND ROTOR MAGNET - A motor may include a rotor, a first yoke and a second yoke which are disposed to face each other, and at least one coil which is disposed between the first yoke and the second yoke. The first yoke is provided with a fixing part on which the coil is mounted so as to extend in a direction parallel to a rotor shaft and the fixing part is formed with a projecting part protruded from a tip end of the fixing part. The second yoke is provided with a fixing hole and the projecting part of the fixing part of the first yoke is press-fitted to the fixing hole of the second yoke and, in this state, a tip end face of the fixing part supports the second yoke and a tip end part of the projecting part is protruded from the second yoke. | 12-11-2008 |
| 20080315713 | Group of Laminations For Ferromagnetic Cores, Production Process and Respective Electric Machine - The invention concerns a group of laminations ( | 12-25-2008 |
| 20090015093 | Miniature electrical drive and magnetic return path element, and method for its production - The present invention relates to a miniature electrical drive ( | 01-15-2009 |
| 20090021104 | Securing Structure For Stator and Electric Vehicle - A securing structure for a stator includes the stator having a stator core, and a housing having an opening portion containing the stator core, and the housing includes a portion A where the clearance between the inner circumferential surface of the opening portion and the stator core is relatively smaller and the inner diameter of the opening portion is constant, and a portion B located adjacent to the portion A in the axial direction of the stator core where the clearance between the inner circumferential surface of the opening portion and the stator core is relatively larger. | 01-22-2009 |
| 20090033173 | MOTOR STATOR WITH LIFT CAPABILITY AND REDUCED COGGING CHARACTERISTICS - A motor includes a stator and a rotor, equipped to be movable in at least a first direction relative to the stator, the rotor operably interfacing the stator so that a motor force is generated in a first direction, where the stator comprises an anti-cogging element configured to generate anti-cogging forces on the rotor in at least the first direction and a second direction at an angle to the first direction. | 02-05-2009 |
| 20090039729 | DC Brushless Motor for Electrical Power Steering and the Production Method Thereof - The stator core of a motor comprises an annular back core, and a plurality of tees created separately from the back core and secured onto the inner periphery of the back core. A stator coil is wound on each of the tees by a distributed or concentrated winding method. The stator core and stator coil are formed by molding. | 02-12-2009 |
| 20090096316 | Pole piece structure of stator with radial winding - The present invention relates to a pole piece structure of stator with radial winding, which employs an optimum ratio α to define the form of the pole piece, increase the overlap region of inductance and torque and lower the cogging torque of a motor, so as to strengthen the self-starting capability of the motor and minimize torque ripple to enhance the overall performance of the motor. The pole piece structure includes a hub having a hole at the center, and a plurality of poles integrally formed on the periphery of the hub, extended to radiate in a radial direction, and having a pole shoe expanded from an end of each pole in a tangential direction, wherein the angle of a single pole shoe is divided by a pitch angle of two adjacent poles to obtain a ratio in a range of 0.86˜0.95. | 04-16-2009 |
| 20090096317 | ROTATING MACHINE - There is provided a rotating machine including a stator and a rotor, in which the inner side surface (facing the stator) of the axial end structures of the stator is provided with grooves filled with an electrically nonconductive material. | 04-16-2009 |
| 20090108699 | Three-Phase Square-Wave Permanent Magnet Brushless DC Motor - This invention relates to a three-phase square-wave permanent magnet brushless DC motor for solving problems of the existing square-wave permanent Magnet Motor and sine-wave permanent magnet motor. In this invention, the number 2P of magnetic poles on the said rotor core is 8; the slot number Z of the said stator core is 12, accordingly there are 12 teeth, including three big teeth, three medium teeth and six small teeth; the ratio of their mechanical angles is 50° (±5°) for big teeth: 40° (±5°) for medium teeth: 15° (±5°) for small teeth, and the sum of the mechanical angles of one big tooth, one medium tooth and two small teeth must be 120°. Three-phase concentrated windings are respectively wound on the big teeth and the medium teeth, in which there are only two concentrated windings for each phase, thus there are only 6 concentrated windings for the three-phase motor. With driven by three-phase square-wave current, the said motor can produce a smooth torque which ripple index corresponds to that of the sine-wave permanent magnet servo motor, at the same time, it also has a plurality of advantages including windings end minimization, air-gap minimization, material minimization, cogging torque minimization and loss minimization and so on. | 04-30-2009 |
| 20090108700 | MOTOR - A motor includes a stator, a case and a supporting portion. The stator formed by laminating plural disc plates includes a yoke portion having a plurality of first and second portions alternately formed in a circumferential direction of the stator, and plural tooth portions respectively radially protruding from an inner circumferential surface the yoke portion at the second portion of the yoke portion towards an axial center of the stator. The case provided at an outer circumference of the stator includes a first communicating passage extending in an axial direction of the stator to be in communication with both axial ends of the stator and defined by an inner circumferential surface of the case. The supporting portion protrudes from an inner circumferential surface of the first communicating passage towards the stator and contacts an outer surface of the stator at one of the first portions of the stator. | 04-30-2009 |
| 20090140600 | WINDING MODULE OF PERMANENT MAGNET ELECTRIC MACHINERY - A winding module of permanent magnet electric machinery is described, in which coils of an electric machinery winding and a sensing device are integrally arranged. The winding module includes a base, a plurality of electric machinery windings formed on the base, and a plurality of sensing devices formed at intervals on the base. The coils of the electric machinery winding and the sensing device are integrally formed on the base by using a technique for forming a printed circuit board, thereby improving the process yield rate and quality controllability, effectively reducing the volume of the electric machinery, thinning the structure, saving time and cost required for installing a position sensor, simplifying the process for fabricating the electric machinery, and preventing the position sensor from being affected by environment and temperature, so as to have a highly robust effect. | 06-04-2009 |
| 310256000 | Stray field flux loss prevention | 1 |
| 20090295254 | Brushless DC Motor - A brushless DC motor includes a base, a stator, a rotor, and a leak flux absorber. The base is for the rotor to couple. The stator has a coil module and is mounted on the base. The rotor has a shaft and a permanent magnet, with the rotor coupling with the base through the shaft and a gap is axially formed between the permanent magnet and the coil module. And the leak flux absorber is disposed around the coil module and is adjacent to, partially in, or totally in the gap. Consequently, a leak flux generated by the permanent magnet, which does not pass through the coil module, is absorbed by the leak flux absorber and forms close magnetic flux paths, so that the high-frequency noise in operation is thus lowered. | 12-03-2009 |
| 310257000 | Interfitting or claw-tooth stators | 23 |
| 20080231140 | ELECTRIC MACHINE HAVING CLAW POLE STATOR - The present invention relates to an electric machine having a claw pole stator, comprising: a first and a second claw pole plate each of which has a yoke and pole claws, the pole claws connected to the yoke via a base and the claw pole plates being disposed coaxially with respect to one another such that a pole claw rim is formed from the pole claws, the pole claws rim defining a rotor-side boundary of a space for receiving a cylindrical coil, wherein a circular line is defined, whose center coincides with the center of the rotation axis, the circular line intersecting the center point of the baseline of at least one pole claw and having a tangent at this center point, wherein an angle a is formed between this tangent and a straight line connecting the two outer points of the baseline, where α≠0. In an alternative embodiment, the pole claws are twisted with respect to their baselines. | 09-25-2008 |
| 20090001843 | ROTATING ELECTRICAL MACHINE - A rotating electrical machine includes: a claw pole stator constituted with a stator core that includes a plurality of claw poles and a stator coil wound inside the stator core; and a rotor rotatably disposed at a position facing opposite the claw poles. The stator core is constituted of split blocks each corresponding to at least one of magnetic pole pairs each made up with two claw poles assuming different magnetic polarities when an electric current is supplied to the stator coil. | 01-01-2009 |
| 20090015094 | ELECTRICAL ROTARY MACHINE AND METHOD OF MANUFACTURING THE SAME - An electrical rotary machine includes coils including element wires wound, and a core holding the coil, wherein spaces, both between the coils and the core, and between the adjacent element wires, are filled with a heat-conductive insulating resin. A method of manufacturing the electrical rotary machine includes a first step of impregnating the coils and filling the space between the adjacent element wires with the heat-conductive insulating resin, and a second step of impregnating the coils and the core and filling the space between the coils and the core with the heat-conductive insulating resin. | 01-15-2009 |
| 20090039730 | MOTOR STATOR - A motor stator includes a claw-pole assembly ( | 02-12-2009 |
| 20090079293 | Claw pole type motor and pump - A claw pole type motor includes a rotor having a magnet arranged on an outer circumferential surface thereof and a stator including an annular iron core and an annular coil received within the iron core. The iron core includes a yoke portion opened in an inner circumferential surface opposite to the rotor, a plurality of upper claw-shaped magnetic poles and a plurality of lower claw-shaped magnetic poles which are arranged along an inner circumferential surface of the annular coil. The upper/lower claw-shaped magnetic poles are curved to extend axially downwardly/upwardly from an upper/lower inner edge of the yoke portion, respectively. The upper and the low claw-shaped magnetic poles are alternately arranged along a circumferential direction of the iron core. The yoke portion has cutout portions formed in non-magnetic path regions which do not include magnetic paths through which magnetic flux flows between neighboring claw-shaped magnetic poles across the annular coil. | 03-26-2009 |
| 20090102314 | Rotating electrical machinery - A rotating electrical machine includes: a stator that includes two stator stages each constituted with a plurality of claw poles extending toward opposite sides along an axial direction at alternate positions and a ring-shaped core back that forms a magnetic path between the claw poles, the two stator stages being stacked over along the axial direction; a stator winding formed by winding a coil in a ring shape and disposed in a space enclosed by the claw poles and the core back at each of the stator stages; and a rotor rotatably disposed at a position facing the claw poles of the stator, and: stator windings corresponding to a plurality of phases are disposed together at least at one of the two stator stages. | 04-23-2009 |
| 20090108701 | MOTOR AND DRIVING DEVICE - A magnetic-pole portion can be formed by thread cutting, whereby a motor can be provided at lower cost as compared to a case where the magnetic-pole portion is formed by press-working. | 04-30-2009 |
| 20090160288 | Electrical output generating devices and driven electrical devices using electromagnetic rotors, and methods of making and using the same - A device for generating electrical or mechanical output, comprising a rotor coil, a rotor assembly with an axis, and having rotator extensions, a stator coil, and a stator assembly, the stator assembly having two sets of stator flux conductor extensions, the rotator end of the stator flux conductor extension having a stator conductor surface and the interior ends of the first set of stator flux conductor extensions abutting the interior ends of the second stator flux conductor extensions at an abutting junction, wherein rotating the rotor assembly about the axis alternates the rotor assembly between a first and second position in which each of the rotor extension surfaces alternately face the stator conductor surfaces of the first and second set of stator flux conductor extensions. The first and second positions of the rotor assembly lead to the conduction of magnetic flux in the device in opposite paths in the stator assembly generating an output in an output coil. Alternatively, flux conductive extensions can be mounted onto the rotor and an electromagnet or a permanent magnet onto the stator portion. A number of other variations are also shown, including configurations that reduce flux loss between the components. These other variations include a device with a disk-shaped rotor. | 06-25-2009 |
| 20090167106 | Inductor motor and manufacturing method of inductor motor - An inductor motor includes a stator block, a substantially cylindrical excitation coil, and a rotor including two substantially columnar magnet rotors coaxially arranged, and the magnet rotors are individually inserted inside two stator blocks coaxially arranged. The stator is formed of a substantially flat plate-shaped preformed member of a magnetic material having a plurality of protruding pieces circumferentially formed and protruding radially outwardly, and has stator teeth formed by bending the protruding pieces to stand up. The rotor has an intermediate circumferential groove with a smaller diameter than a magnet portion between the two magnet rotors coaxially arranged. A holding plate portion of the stator placed on an axially intermediate side in each stator block is placed around the intermediate circumferential groove of the rotor. | 07-02-2009 |
| 20090236930 | Motor and control unit thereof - A motor includes: a rotor having permanent magnets in which N-poles and S-poles are alternately arranged in the circumferential direction; seven stator pole groups, each of which has a plurality of stator poles arranged in the circumferential direction, the stator pole groups being arranged with the circumferential and axial positions of the stator poles in one stator pole group being offset from those of other stator pole groups; and a plurality of loop windings formed in the circumferential direction and arranged at positions adjacent to the plurality of stator pole groups in the rotor shaft direction. | 09-24-2009 |
| 20090284100 | Motor that reduces magnetic interference - A motor includes a housing formed of a first shell and a second shell, a stator, which is formed of a first yoke, a second yoke, a connecting device and two coils. The first yoke and the second yoke each comprise a terminal holder mounting portion, a race and a plurality of pole pawls respectively extended from the race. The race of the first yoke has the race of the first yoke kept apart from the race of the second yoke at a distance to reduce magnetic interference, the connecting device having a terminal holder fastened to terminal holder mounting portions of the first yoke and second yoke of the stator and a plurality of metal terminals installed in the terminal holder, the coils respectively set between the first yoke and the first shell and between the second yoke and the second shell and respectively electrically connected to the metal terminals, and a rotor formed of a transmission shaft and magnets and inserted through the first yoke and the second yoke and rotatable relative to the stator. | 11-19-2009 |
| 20100066201 | Electric motor - According to a first aspect the electric motor comprises the following components:
| 03-18-2010 |
| 20100181865 | STRUCTURE OF CASING OF SMALL STEPPING MOTOR - Disclosed herein is a structure of a casing of a small stepping motor having an outer diameter of 8 mm or less, in which a plurality of yoke teeth is integrally formed on the inner surface of the casing, and the thickness of the outer wall of the casing is different from the thickness of each of the yoke teeth, thus reducing a production cost and improving a process. | 07-22-2010 |
| 20100295410 | ELECTRICAL DEVICES USING ELECTROMAGNETIC ROTORS - An electrical machine comprises a rotor assembly comprising a first set and a second set of rotor extensions, and a stator assembly comprising a first set and a second set of stator extensions. Rotating the rotor assembly about an axis alternates the rotor assembly between a first position and a second position. In the first position, each of the first set of rotor extensions transfers flux to one of the first set of stator extensions, and each of the second set of rotor extensions transfers flux to one of the second set of stator extensions. In the second position, each of the first set of rotor extensions transfers flux to one of the second set of stator extensions, and each of the second set of rotor extensions transfers flux to one of the first set of stator extensions. The electrical machine is at least one of a transverse flux machine or a commutated flux machine. | 11-25-2010 |
| 20110001388 | MOTOR - In a busbar unit, which is a distributing device arranged to supply electrical currents to coils, a busbar holder is arranged to support coil connection busbars and sensor connection busbars. Conductor wire connection portions of the coil connection busbars are exposed on both axial sides and welded to a conductor wire defining the coils. The sensor connection busbars are combined with a plurality of electronic components to define a Hall IC circuit designed to output and receive electrical signals to or from Hall ICs. Sensor connection portions of the sensor connection busbars are exposed on both axial sides, and welded to terminals of the Hall ICs. Electronic component connection portions of the sensor connection busbars are exposed on both axial sides, and welded to the electronic components. | 01-06-2011 |
| 20110043074 | STEPPING MOTOR - A stepping motor includes a rotor assembly and a stator assembly including two stator units axially coupled to each other. The two stator units each include a pair of yokes which each include a base portion and a plurality of pole teeth extending from the base portion and which are disposed such that each of the pole teeth of one yoke and each of the pole teeth of the other yoke are arranged alternately in the circumferential direction. The pole teeth are shaped symmetric and each include a pair of slant sides inclined so as to become closer to each other with an increase of distance from the base portion, and the slant sides of adjacent pole teeth are located close to each other wherein a magnetic pole gap between the adjacent pole teeth pole teeth is about 0.2 times as large as the thickness of the pole teeth. | 02-24-2011 |
| 20110115332 | STEPPING MOTOR - A stepping motor may include a rotor having a drive magnet and a stator having a drive coil wound in a tube shape and disposed on the drive magnet. The stator may include a first yoke, a second yoke, a plurality of first pole teeth, and a plurality of second pole teeth. The plurality of the first and second pole teeth may be alternately disposed in a circumferential direction of the rotor. | 05-19-2011 |
| 20110163629 | MOTOR STATOR AND MOLDED MOTOR - A motor stator is disclosed. Each of a first phase, second phase and third phase of three-phase winding has multiple toroidal coils and crossover wires connecting the coils. The crossover wire of the first phase runs inside the second phase coil and the third phase coil. The crossover wire of the second phase runs over the first phase coil with a guide by guide posts and runs inside the third phase coil. The crossover wire of the third phase runs over the first phase coil and the second phase coil with a guide by the guide posts. | 07-07-2011 |
| 20110241476 | PARALLEL WOUND STATOR - A wound stator includes a plurality of windings, each winding including a primary lead and a secondary lead defined by free ends of the winding. Each of the windings being associated with a first, second or third phase. For each phase, a plurality of the primary leads are wrapped around a termination side of the stator to a common primary base lead to form a primary lead connection for the phase. For each phase, a plurality of the secondary leads are wrapped around the termination side of the stator to a common secondary base lead to form a secondary lead connection for the phase. | 10-06-2011 |
| 20130320802 | Stator of a Claw-Pole Motor - A claw-pole motor for driving a centrifugal pump; consisting of stator laminations in the form of annular discs with claw poles adjoining said stator laminations, which claw poles are arranged opposite permanent-magnet poles of a rotor, a ring-shaped winding and an insulating body, which is arranged between the stator laminations and the winding, and a magnetic return path ring, which is arranged radially around the winding and the stator laminations and bears fixedly against the stator laminations. The claw pole is achieved by the magnetic return path ring comprising at least two lamination rings, which are nested coaxially one inside the other and each have at least one cutout, and being the cutouts are offset with respect to one another through an angle such that said cutouts do not overlap one another, wherein the two cutouts define two angular ranges α1, α2, the lamination rings are connected fixedly to one another at a first connection point, which is removed from the cutouts, in the angular range α1 and likewise at another second connection point, which is removed from the cutouts, in the angular range α2. | 12-05-2013 |
| 20140191612 | ELECTRIC MACHINE WITH MULTIPLE AIR GAPS AND A 3D MAGNETIC FLUX - The present invention relates to an electric machine ( | 07-10-2014 |
| 20140191613 | ELECTRIC MACHINE WITH INTERMEDIATE PIECES HAVING MULTIPLE AIR GAPS AND A 3D MAGNETIC FLUX - The present invention relates to an electric machine ( | 07-10-2014 |
| 20150349589 | ELECTRIC ROTATING MACHINE - According to an embodiment, an electric rotating machine includes a rotor element, an annular coil, a plurality of stator cores, and a plurality of wedge members. The rotor element is rotatable around a rotation axis. The coil is provided to be coaxial with the rotation axis. The plurality of stator cores are provided opposite to the rotor element and each includes a pair of magnetic pole parts opposing each other with the coil being interposed therebetween. Each of the plurality of wedge members is arranged between adjacent stator cores to apply preloads to the adjacent stator cores, the preloads containing components in a rotation direction of the rotor element and being opposite to each other. | 12-03-2015 |
| 310258000 | Frame and core type | 21 |
| 20080284273 | Lead frame - Devices and methods are provided for a lead frame, stator, and electric motor. One embodiment for a lead frame includes two or more control tracks for connection to a stator winding. The lead frame also includes a Hall-effect sensor coupled to two or more signal tracks for sensing a magnetic field and for providing electric signals to a control circuit and a capacitor coupled to the two or more signal tracks for dampening the electric signal provided by the Hall-effect sensor. The lead frame can also include a removable support for maintaining a predetermined distance between the two or more control tracks and the two or more signal tracks. | 11-20-2008 |
| 20090033174 | BRUSHLESS MOTOR - A brushless motor includes a stator and a rotor. The stator includes an annular stator core having teeth arranged with a spacing in a circumferential direction of the annular stator core; and coils wound around the teeth respectively. The rotor includes a rotor core and magnetic poles of segment magnets arranged annularly along a circumferential direction of the rotor core. The segment magnets are stacked at a plurality of stages in an axial direction of the rotor core. A length direction of each of the segment magnets is parallel with the axial direction of the rotor core. The following expression is satisfied: | 02-05-2009 |
| 310259000 | Core assembly | 4 |
| 20090015095 | SYNCHRONOUS MOTOR HAVING MULTIPLE COIL SEGMENTS - A synchronous motor includes multiple coil segments, each of which has an iron core in the form of a core stack that is wound with a coil. The coil segments are characterized in that the coils press fastening elements having at least two legs against two opposite surfaces of the substantially right parallelepiped iron core. In each case, at least one leg of the fastening element abutting against the iron core is pressed against the iron core, and at least one free leg of the fastening element projects away from the iron core. The free legs are fastened to connecting elements that connect multiple coil segments to one another. | 01-15-2009 |
| 20090026876 | Hybrid construction electric machine - An electric machine including at least one magnetically inducible structure ( | 01-29-2009 |
| 20090091210 | DIRECT DRIVE FOR LARGE-SCALE DRIVES - The invention relates to a direct drive for large-scale drives, comprising a stator ( | 04-09-2009 |
| 20090108702 | LAMINATION HAVING TAPERED TOOTH GEOMETRY WHICH IS SUITABLE FOR USE IN ELECTRIC MOTOR - An electric motor has a stator, and a rotor disposed within the stator. The stator has a set of stator laminations and a set of windings held in position by the set of stator laminations. The rotor is arranged to rotate about an axis. The set of stator laminations is arranged into a stack. Each stator lamination includes an outer section, and a set of teeth coupled to the outer section. Each tooth of the set of teeth extends from that outer section toward the axis. Each tooth has (i) a first end which is proximate to the outer section and distal to the axis, and (ii) a second end which is proximate to the axis and distal to the outer section. A width of the first end of each tooth is substantially greater than a width of the second end of each tooth. | 04-30-2009 |
| 310260000 | End turn supports | 15 |
| 20080252170 | DYNAMOELECTRIC MACHINE INSULATOR AND METHOD - A dynamoelectric machine insulator includes, a body having a plurality of holes therethrough at least some of the plurality of holes being receptive of a lead such that a lead extending through each of the plurality of holes is electrically isolated from a lead extending through each of the other of the plurality of holes, and at least one channel in the body extending arcuately along a perimetrical extent of the body. The at least one channel configured and dimensioned to insulate at least one lead routed therein. | 10-16-2008 |
| 20080296996 | End Cap For Segmented Stator - A stator for an electromagnetic machine includes a plurality of discrete and individually wound stator segments having end caps positioned on the segments. The end caps have legs for positioning the end cap on the segments with an interference fit. The end caps have angled surfaces to facilitate winding of wire on the segments. The end caps have male and female couplings that mate together to couple adjacent segments together. The end caps have fingers and slots for aligning the segments on substantially the same plane. The end caps have wire isolation features, including hooks, shelves and ledges, for separating the interconnect wires routed on the stator to electrically interconnect the segments. The segments include scalloped contours on their outer edges for draining oil, and the end caps have passages for draining oil. | 12-04-2008 |
| 20090058221 | SYSTEM AND METHOD FOR PROTECTING SUBMERSIBLE MOTOR WINDING - A technique is provided for constructing a submersible motor. The submersible motor has a stator positioned within a housing. Windings are arranged through the stator with end coils on opposite ends of the stator. The winding end coils are supported by a support structure that prevents the end coils from collapsing inwardly. | 03-05-2009 |
| 20100013349 | End Turn Phase Insulator with a Lead Wire Restraining Tab and Method of Restraining Lead Wires on Dynamoelectric Devices - A stator comprises a core, a plurality of wire coils, an end turn phase insulator, and at least one lead wire. The wire coils are wound through the slots of the stator and form end turns as they wind from slot to slot. The end turn phase insulator comprises an end turn separating portion and a lead wire restraining tab. The end turn separating portion is sandwiched radially between an inner end turn and an outer end turn. The lead wire restraining tab extends from the end turn separating portion and is partially wrapped over the outer end turn in a manner sandwiching the lead wire between the lead wire restraining tab and the outer end turn. This prevents the lead wire from migrating into the core of the stator. | 01-21-2010 |
| 20100066202 | SUPPORTING BASKET FOR AN END WINDING AND PRODUCTION METHOD - A method for the production of a supporting basket ( | 03-18-2010 |
| 20100141084 | GENERATOR END TURN STRESS REDUCTION COLLAR - A collar is to be positioned on a generator and includes an inner bore sized to be received on an outer periphery of a generator shaft. The collar has an outer periphery, which is generally hexagonal. The collar has an axially extending ledge to be received within an inner periphery of an end turn support in a generator. | 06-10-2010 |
| 20120038241 | DEVICE FOR AXIAL TENSIONING OF A STATOR COIL OF AN ELECTRICAL MACHINE - An apparatus axial stresses a stator winding of an electrical machine, the winding including a plurality of winding bars, the ends of the winding bars passing axially out of a core of a stator and forming a widened end winding at least one axial end face of the core. A plurality of winding supports is distributed circumferentially and substantially at a right angle with respect to the end winding on the at least one axial end face of the core. At least one axially acting compression spring device is configured to support the plurality of winding supports on the at least one axial end face of the core and to axially stress the plurality of winding supports. A readjusting device communicates with at least one of the plurality of winding supports and has an axially adjustable contact surface, the at least one axially acting compression spring device being axially supported on the core and on the axially adjustable contact surface of the readjusting device. | 02-16-2012 |
| 20120091853 | SUPPORT SYSTEM FOR DYNAMOELECTRIC MACHINE - A support system is provided for a dynamoelectric machine having a stator and stator bars connected to a connection ring assembly. The support system includes at least one stator bar support bracket and one or more support rings connected to the stator bars. A connection ring support bracket supports the connection ring assembly. A mount is connected to the connection ring support bracket. The mount permits axial movement of the stator bars, the stator bar support bracket, the support rings, and the connection ring assembly due to thermal expansion experienced during operation of the dynamoelectric machine. | 04-19-2012 |
| 20120098384 | End Caps for Stator Segments of Segmented Stator Assemblies - An example end cap of a stator segment is provided for use in locating wires in a segmented stator assembly in desired positions. The end cap generally includes a body and an inboard wall. An identifier is defined by the inboard wall of the end cap for use in determining wire sizes to be used with the end cap. Terminal pockets are provided in the body for receiving the wires and making desired electrical connections, and steps located in the terminal pockets help secure the connectors in the terminal pockets. Plateaus, and troughs defined in the plateaus, are located outside the terminal pockets for use in trimming wires received in the terminal pockets as desired. And, retaining structures are located around the end cap to help with locating the wires in the desired positions. | 04-26-2012 |
| 20120098385 | GENERATOR ROTOR MAIN LEAD SUPPORT AND LEAD PATH CONFIGURATION - Embodiments of the invention relate generally to lead path configurations in generator rotors and, more particularly, to a support apparatus for a main lead and generator rotors incorporating such a support apparatus. In one embodiment, the invention provides a support apparatus for a main lead of a generator rotor, the support apparatus comprising: a cross-sectionally L-shaped body having: a first portion; and a second portion substantially perpendicular to the first portion, wherein the first portion includes an arcuate first surface for interfacing with a centering ring of the generator rotor and an arcuate second surface adapted to be substantially parallel to a rotor shaft of the generator rotor; a main lead passage extending along the arcuate first surface of the first portion and through the second portion. | 04-26-2012 |
| 20120228989 | STATOR FOR ROTARY ELECTRIC MACHINE - A stator for a rotary electric machine includes: a stator core in a cylindrical shape with plural slots formed at an inner circumferential surface; plural coil segments inserted in the slots from one end surface side of the stator core; and plural coil end plates electrically connected with the coil segments on another end surface side of the stator core, wherein the coil segments respectively include: one leg portion; another leg portion; and a curved portion that is continuously formed between the one leg portion and the other leg portion, wherein the coil end plates respectively include: a plate portion in a flat plate shape; and a pair of extended portions, and wherein end portions of the leg portions of the coil segments are connected to the extended portions. It is possible to improve assembility and attain downsizing by reducing the volume of coil end portions for the stator. | 09-13-2012 |
| 20130106238 | MOTOR AND MOTOR MANUFACTURING METHOD | 05-02-2013 |
| 20140246946 | ELECTRICAL MACHINE AND A METHOD FOR CONTROLLING STIFFNESS IN A STATOR WINDING OF THE ELECTRICAL MACHINE - An electrical machine is provided. The electrical machine includes a stator having at least one winding, and a mechanical assembly acting on the winding for providing a radial force at the winding for controlling a stiffness of the winding. | 09-04-2014 |
| 20140319962 | ADJUSTABLE INSULATING COVER FOR A BAR-TO-BAR CONNECTION OF A STATOR WINDING IN A DYNAMOELECTRIC MACHINE - An insulated cover ( | 10-30-2014 |
| 20150008787 | STATOR CORE COMPRESSION - Embodiments of the invention relate generally to electromagnetic devices and, more particularly, to the compression of stator core laminations using wire rope members and to stator cores and electromagnetic devices employing such wire rope members. In one embodiment, the invention includes: affixing a first end of a wire rope member to a first flange plate disposed adjacent a first end of a plurality of stator laminations; affixing a second end of the wire rope member to a second flange plate disposed adjacent a second end of the plurality of stator laminations; tensioning at least one of the first end or the second end of the wire rope member against at least one of the first flange plate and the second flange plate to exert a compressive force against the first flange plate, the second flange plate, and the plurality of stator laminations. | 01-08-2015 |
| 20080252170 | DYNAMOELECTRIC MACHINE INSULATOR AND METHOD - A dynamoelectric machine insulator includes, a body having a plurality of holes therethrough at least some of the plurality of holes being receptive of a lead such that a lead extending through each of the plurality of holes is electrically isolated from a lead extending through each of the other of the plurality of holes, and at least one channel in the body extending arcuately along a perimetrical extent of the body. The at least one channel configured and dimensioned to insulate at least one lead routed therein. | 10-16-2008 |
| 20080296996 | End Cap For Segmented Stator - A stator for an electromagnetic machine includes a plurality of discrete and individually wound stator segments having end caps positioned on the segments. The end caps have legs for positioning the end cap on the segments with an interference fit. The end caps have angled surfaces to facilitate winding of wire on the segments. The end caps have male and female couplings that mate together to couple adjacent segments together. The end caps have fingers and slots for aligning the segments on substantially the same plane. The end caps have wire isolation features, including hooks, shelves and ledges, for separating the interconnect wires routed on the stator to electrically interconnect the segments. The segments include scalloped contours on their outer edges for draining oil, and the end caps have passages for draining oil. | 12-04-2008 |
| 20090058221 | SYSTEM AND METHOD FOR PROTECTING SUBMERSIBLE MOTOR WINDING - A technique is provided for constructing a submersible motor. The submersible motor has a stator positioned within a housing. Windings are arranged through the stator with end coils on opposite ends of the stator. The winding end coils are supported by a support structure that prevents the end coils from collapsing inwardly. | 03-05-2009 |
| 20100013349 | End Turn Phase Insulator with a Lead Wire Restraining Tab and Method of Restraining Lead Wires on Dynamoelectric Devices - A stator comprises a core, a plurality of wire coils, an end turn phase insulator, and at least one lead wire. The wire coils are wound through the slots of the stator and form end turns as they wind from slot to slot. The end turn phase insulator comprises an end turn separating portion and a lead wire restraining tab. The end turn separating portion is sandwiched radially between an inner end turn and an outer end turn. The lead wire restraining tab extends from the end turn separating portion and is partially wrapped over the outer end turn in a manner sandwiching the lead wire between the lead wire restraining tab and the outer end turn. This prevents the lead wire from migrating into the core of the stator. | 01-21-2010 |
| 20100066202 | SUPPORTING BASKET FOR AN END WINDING AND PRODUCTION METHOD - A method for the production of a supporting basket ( | 03-18-2010 |
| 20100141084 | GENERATOR END TURN STRESS REDUCTION COLLAR - A collar is to be positioned on a generator and includes an inner bore sized to be received on an outer periphery of a generator shaft. The collar has an outer periphery, which is generally hexagonal. The collar has an axially extending ledge to be received within an inner periphery of an end turn support in a generator. | 06-10-2010 |
| 20120038241 | DEVICE FOR AXIAL TENSIONING OF A STATOR COIL OF AN ELECTRICAL MACHINE - An apparatus axial stresses a stator winding of an electrical machine, the winding including a plurality of winding bars, the ends of the winding bars passing axially out of a core of a stator and forming a widened end winding at least one axial end face of the core. A plurality of winding supports is distributed circumferentially and substantially at a right angle with respect to the end winding on the at least one axial end face of the core. At least one axially acting compression spring device is configured to support the plurality of winding supports on the at least one axial end face of the core and to axially stress the plurality of winding supports. A readjusting device communicates with at least one of the plurality of winding supports and has an axially adjustable contact surface, the at least one axially acting compression spring device being axially supported on the core and on the axially adjustable contact surface of the readjusting device. | 02-16-2012 |
| 20120091853 | SUPPORT SYSTEM FOR DYNAMOELECTRIC MACHINE - A support system is provided for a dynamoelectric machine having a stator and stator bars connected to a connection ring assembly. The support system includes at least one stator bar support bracket and one or more support rings connected to the stator bars. A connection ring support bracket supports the connection ring assembly. A mount is connected to the connection ring support bracket. The mount permits axial movement of the stator bars, the stator bar support bracket, the support rings, and the connection ring assembly due to thermal expansion experienced during operation of the dynamoelectric machine. | 04-19-2012 |
| 20120098384 | End Caps for Stator Segments of Segmented Stator Assemblies - An example end cap of a stator segment is provided for use in locating wires in a segmented stator assembly in desired positions. The end cap generally includes a body and an inboard wall. An identifier is defined by the inboard wall of the end cap for use in determining wire sizes to be used with the end cap. Terminal pockets are provided in the body for receiving the wires and making desired electrical connections, and steps located in the terminal pockets help secure the connectors in the terminal pockets. Plateaus, and troughs defined in the plateaus, are located outside the terminal pockets for use in trimming wires received in the terminal pockets as desired. And, retaining structures are located around the end cap to help with locating the wires in the desired positions. | 04-26-2012 |
| 20120098385 | GENERATOR ROTOR MAIN LEAD SUPPORT AND LEAD PATH CONFIGURATION - Embodiments of the invention relate generally to lead path configurations in generator rotors and, more particularly, to a support apparatus for a main lead and generator rotors incorporating such a support apparatus. In one embodiment, the invention provides a support apparatus for a main lead of a generator rotor, the support apparatus comprising: a cross-sectionally L-shaped body having: a first portion; and a second portion substantially perpendicular to the first portion, wherein the first portion includes an arcuate first surface for interfacing with a centering ring of the generator rotor and an arcuate second surface adapted to be substantially parallel to a rotor shaft of the generator rotor; a main lead passage extending along the arcuate first surface of the first portion and through the second portion. | 04-26-2012 |
| 20120228989 | STATOR FOR ROTARY ELECTRIC MACHINE - A stator for a rotary electric machine includes: a stator core in a cylindrical shape with plural slots formed at an inner circumferential surface; plural coil segments inserted in the slots from one end surface side of the stator core; and plural coil end plates electrically connected with the coil segments on another end surface side of the stator core, wherein the coil segments respectively include: one leg portion; another leg portion; and a curved portion that is continuously formed between the one leg portion and the other leg portion, wherein the coil end plates respectively include: a plate portion in a flat plate shape; and a pair of extended portions, and wherein end portions of the leg portions of the coil segments are connected to the extended portions. It is possible to improve assembility and attain downsizing by reducing the volume of coil end portions for the stator. | 09-13-2012 |
| 20130106238 | MOTOR AND MOTOR MANUFACTURING METHOD | 05-02-2013 |
| 20140246946 | ELECTRICAL MACHINE AND A METHOD FOR CONTROLLING STIFFNESS IN A STATOR WINDING OF THE ELECTRICAL MACHINE - An electrical machine is provided. The electrical machine includes a stator having at least one winding, and a mechanical assembly acting on the winding for providing a radial force at the winding for controlling a stiffness of the winding. | 09-04-2014 |
| 20140319962 | ADJUSTABLE INSULATING COVER FOR A BAR-TO-BAR CONNECTION OF A STATOR WINDING IN A DYNAMOELECTRIC MACHINE - An insulated cover ( | 10-30-2014 |
| 20150008787 | STATOR CORE COMPRESSION - Embodiments of the invention relate generally to electromagnetic devices and, more particularly, to the compression of stator core laminations using wire rope members and to stator cores and electromagnetic devices employing such wire rope members. In one embodiment, the invention includes: affixing a first end of a wire rope member to a first flange plate disposed adjacent a first end of a plurality of stator laminations; affixing a second end of the wire rope member to a second flange plate disposed adjacent a second end of the plurality of stator laminations; tensioning at least one of the first end or the second end of the wire rope member against at least one of the first flange plate and the second flange plate to exert a compressive force against the first flange plate, the second flange plate, and the plurality of stator laminations. | 01-08-2015 |
