Patent application number | Description | Published |
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 |
20090009015 | BRUSHLESS ELECTRIC MACHINE WITH STATIONARY SHAFT AND METHOD OF MAKING SAME - Disclosed herein is an electric machine. The electric machine includes, a housing defining an internal volume, a stationary shaft fixedly attached to the housing, a stationary field coil attached to the shaft, a pole assembly rotatable about the shaft, and a pulley fixedly attached to the pole assembly being positioned externally of the internal volume. | 01-08-2009 |
20090066182 | STATOR WINDING ASSEMBLY AND METHOD - Disclosed herein is an electric machine stator. The electric machine stator includes a tubular body with a plurality of radial slots formed into a perimetrical surface thereof, each of the plurality of slots having a width that varies over at least a portion of a radial depth of the slot such that the slot width is narrower near the perimetrical surface than the slot width further from the perimetrical surface. The stator further includes at least one winding positioned within each of the plurality of slots and at least one of the at least one winding is deformed within the slot such that at least one dimension of the at least one winding is greater than a narrowest slot width dimension thereby retaining the winding within the slot. | 03-12-2009 |
20090179530 | STATOR WINDING HAVING SAME RADIAL POSITIONS - Disclosed is an improved stator for a dynamoelectric machine including a stator core which has a plurality of core slots extending axially from a first end of the stator core to a second end of the stator core. The stator also includes a stator winding having a plurality of phases. Each phase of the stator winding includes at least a first filar. The first filar extends around the stator core and form a plurality of layers and has a plurality of slot segments disposed in the plurality of core slots. The slot segments are alternately connected at the first and second ends of the stator core by a plurality of end loop segments. The slot segments are configured such that at least two consecutive slot segments are disposed in substantially the same radial position relative to additional slot segments of the plurality of slot segments disposed in the respective core slots, and the at least two consecutive slot segments are disposed at differing radial distances from a central axis of the stator core. | 07-16-2009 |
20100019607 | SPOOL ASSEMBLY FOR AN ELECTRIC MACHINE - An electric machine includes a housing, a stator mounted within the housing, and a rotor including a spool assembly. The spool assembly includes a spool having a main body portion having a first end portion that extends substantially uninterrupted to a second end portion through an intermediate portion. The spool further includes a first plurality of mounting elements provided on the first end portion and a second plurality mounting elements provided on the first end portion. A star member is secured to the first end portion of the spool. | 01-28-2010 |
20100139082 | METHOD AND APPARATUS FOR LOADING STATOR WINDINGS INTO A STATOR CORE - An apparatus for loading stator windings into a stator core. The apparatus includes an arbor member including a body having an outer diametric portion including a plurality of slots. The apparatus also includes a first guide track having a first end that is positioned adjacent the outer diametric portion. A second guide track includes a first end is positioned adjacent the outer diametric portion and spaced from the first end of the first guide track. The apparatus further includes a third guide track including a first end is positioned adjacent the outer diametric portion and spaced from the first end of the first guide track and the first end of the second guide track. At least one of the first, second, and third guide tracks and the arbor member is positionable to guide slot segment portions of corresponding first, second, and third stator windings into predetermined ones of the slots. | 06-10-2010 |
20110031842 | COMPONENT FOR AN ELECTRIC MACHINE - A component for an electric machine includes a spool having a main body portion provided with a first end portion that extends substantially uninterrupted to a second end portion through an intermediate portion. A plurality of mounting elements are provided on the first end portion. A star member is operatively connected to the spool. The star member includes a main body, a plurality of flap members that extend from the main body and collectively define a central opening, and a plurality of mounting members that extend into the central opening. The plurality of mounting members engage with corresponding ones of the plurality of mounting elements to detachably mount the star member to the first end portion of the spool. | 02-10-2011 |
20110167622 | METHOD AND APPARATUS FOR LOADING STATOR WINDINGS INTO A STATOR CORE - An apparatus for loading stator windings into a stator core includes an arbor member including a body having a central axis and an outer diametric portion provided with a plurality of slots. An insertion element is rotatably mounted adjacent the arbor member. The insertion element includes a plurality of slot elements that are configured to register with the plurality of slots. A loading member is rotatably mounted adjacent the insertion element. The loading member includes a plurality of slot members that are configured to register with the plurality of slot elements. The loading member is selectively operated to receive a stator winding into one of the plurality of slot members and transfer the stator winding into one of the plurality of slot elements. The at least one insertion element is selectively operated to transfer the stator winding into one of the plurality of slots of the arbor member. | 07-14-2011 |
20110283523 | METHOD FOR LOADING STATOR WINDINGS INTO A STATOR CORE - A method of loading stator windings into a stator core includes guiding a first stator winding including a plurality of slot segment portions along at least one guide track towards an arbor member having a plurality of slots, inserting one of the plurality of slot segment portions of the first stator winding into one of the plurality of slots, and guiding a second stator winding including a plurality of slot segment portions along the at least one guide track towards the arbor member. The method also includes indexing one of the at least one guide track and the arbor member to position another of the plurality of slots adjacent the at least one guide track, inserting one of the plurality of slot segment portions of the second stator winding into another of the plurality of slots, rotating the arbor member, and feeding a plurality of slot segment portions into remaining ones of the plurality of slots. | 11-24-2011 |
20110283529 | APPARATUS FOR LOADING STATOR WINDINGS INTO A STATOR CORE - An apparatus for loading stator windings into a stator core includes an arbor member including a body having an outer diametric portion and a central axis. The outer diametric potion includes a plurality of slots. The apparatus also includes a guide track having a first end that extends to a second end through a slide portion. The first end is positioned adjacent the outer diametric portion of the arbor member. At least one of the guide track and the arbor member is selectively positionable to guide slot segment portions of a stator winding into predetermined ones of the plurality of slots. | 11-24-2011 |
20110316369 | ROTOR FAN FOR AN ELECTRIC MACHINE - An electric machine includes a rotor. The rotor includes a body having a number of pole members, a central hub, and a plurality of mounting members. The plurality of mounting members are fewer than half the number of pole members. A fan member is mounted to the rotor. The fan member includes a number of fan blades that project outward from a hub portion. A plurality of mounting elements are provided on select ones of the number of fan blades. The plurality of mounting members engage respective ones of the plurality of mounting elements to attach the fan member to the rotor. | 12-29-2011 |
20130133604 | STARTER SYSTEM - Some embodiments of the invention provide a starter system including a starter, capable of being in communication with an electronic control unit. The starter can include a motor coupled to a circuit and a pinion including a plunger, and a plurality of solenoid assemblies that includes a plurality of biasing members. The plurality of solenoid assemblies can include at least one solenoid winding capable of moving the plunger to move the pinion, and at least one solenoid assembly capable of controlling current flow to the motor. Some embodiments include a first switch coupled to the circuit. In some embodiments, the first switch is capable of being activated by the plunger to cause current to flow, or to prevent current flowing to at least a portion of the circuit. | 05-30-2013 |
20130133605 | STARTER SYSTEM - Some embodiments of the invention provide a starter system including a starter, capable of being in communication with an electronic control unit. The starter can include a motor coupled to a circuit and a pinion including a plunger, and a plurality of solenoid assemblies including a plurality of biasing members. The plurality of solenoid assemblies can include at least one solenoid winding capable of moving the plunger, and at least one solenoid assembly capable of holding the plunger, and at least one solenoid assembly capable of controlling current flow to the motor. Some embodiments include a first switch coupled to the circuit that is capable of being activated by the plunger to control current flowing to at least a portion of the circuit. Some embodiments include at least two power isolation switches capable of controlling a current flow within the circuit. | 05-30-2013 |
20130135065 | STARTER SYSTEM - Some embodiments of the invention provide a starter system including a starter, capable of being in communication with an electronic control unit. The starter can include a motor coupled to a circuit and a pinion including a plunger, and a plurality of solenoid assemblies including a plurality of biasing members. The plurality of solenoid assemblies can include at least one solenoid winding capable of moving the plunger, and at least one solenoid assembly capable of holding the plunger, and at least one solenoid assembly capable of controlling current flow to the motor. Some embodiments include a first switch coupled to the circuit that is capable of being activated by the plunger to control current flowing to at least a portion of the circuit. Some embodiments include at least two power isolation switches capable of controlling a current flow within the circuit. | 05-30-2013 |
20130141192 | STARTER SYSTEM - Some embodiments of the invention provide a starter system including a starter, capable of being in communication with an electronic control unit. The starter can include a motor coupled to a circuit and a pinion including a plunger, and a plurality of solenoid assemblies including a plurality of biasing members. The plurality of solenoid assemblies can include at least one solenoid winding capable of moving the plunger, and at least one solenoid assembly capable of holding the plunger, and at least one solenoid assembly capable of controlling current flow to the motor. Some embodiments include a first switch coupled to the circuit that is capable of being activated by the plunger to control current flowing to at least a portion of the circuit. Some embodiments include at least two power isolation switches capable of controlling a current flow within the circuit. | 06-06-2013 |
20130221796 | ALTERNATOR BRUSH HOLDER - A brush holder assembly for an alternator having a rotational axis includes a pair of brushes each having a contacting surface defining a width and a height, and each having a shunt wire extending laterally from the brush in the widthwise direction. The brush holder assembly includes a housing having first and second brush chambers, corresponding first and second wire cavities each defining a cavity height, and first and second slots respectively interposed between the corresponding chamber and cavity. The respective shunt wires extend through the first and second slots then through the first and second wire cavities. The cavity heights are each at least approximately 0.9 times the height of one of the brushes. The height of the first wire cavity is less than approximately 0.97 times ((A/2) plus B), wherein A is the brush height and B is the distance between the brushes. | 08-29-2013 |
20130221798 | ALTERNATOR RATIOS - A vehicle alternator has a center rotational axis and includes a substantially round stator having a plurality of coils, each coil being wound a number of times N around the stator. The vehicle alternator includes a rotor having a spool with a field coil wound thereon and having an opposed pair of core segments defining a number of interleaved pole portions P, each segment having a hub radially extending a distance R | 08-29-2013 |
20130283938 | STARTER MACHINE SYSTEM AND METHOD - Embodiments of the invention provide a starter machine that includes a motor operatively coupled to a first shaft and a pinion coupled to a second shaft. In some embodiments, a planetary gear drive system can be coupled to the first and the second shafts. The planetary gear drive system can include a planetary gear system and a first clutch being substantially adjacent to a second clutch. The planetary gear drive system can be configured and arranged so that when the first clutch is engaged, the motor can move the pinion at a first rotational speed. The planetary gear drive system is further configured so that when the second clutch is engaged, the motor can move the pinion at a second rotational speed. In some embodiments, the first rotational speed is a greater rotational speed than the second rotational speed. | 10-31-2013 |
20140096642 | STARTER MOTOR - Embodiments of the invention provide a starter comprising a motor comprising a drive shaft, a pinion, and a clutch. In some embodiments, the starter includes a planetary gear coupled with the clutch. Some embodiments include a pinion speed sensor assembly configured and arranged to provide a signal related to the rotational speed of the pinion based upon a speed of a component of the starter that is coupled to the pinion. Some embodiments of the starter include a pinion rotational speed sensor located within the drive-end region of the starter, and configured and arranged for direct or indirect monitoring of the pinion. Some embodiments include a sensor that is configured and arranged to monitor one or more components of the clutch assembly, the drive-shaft, the pinion, the output shaft, or a planetary gear. The speed sensor can be a magnetic-field flux sensor assembly or an optical sensor assembly. | 04-10-2014 |
20140260793 | STARTER MOTOR FOR A MOTOR VEHICLE - A starter motor includes a motor portion having a stationary field, an armature rotatable relative to the stationary field, an armature shaft coupled to the armature, and a pinion gear slideably disposed relative to the armature shaft and rotatably fixed relative to the armature. The starter motor also includes a solenoid mounted to the motor portion. The solenoid includes a plunger mechanically linked with the pinion gear. The solenoid is configured and disposed to cause the pinion gear to engage with a flywheel as the armature shaft reaches a speed between about 150 RPM and about 250 RPM. | 09-18-2014 |
20140260794 | VARIABLE FLUX STARTER AND SWITCH SYSTEM - A variable flux starter and switch system including a starter motor with motor field winding first and second portions, a control unit capable of selectively issuing starter activation and desired flux level signals, a motor energizing switch moveable between open and closed positions consequent to issuance of the starter activation signal, and a regulating device that transitions between default and activated operational states consequent to issuance of the flux level signal. The regulating device has a moveable blocking member and relatively moveable contact members, and in one of the default and activated operational states, electrical contact between the contact members is permitted or prevented by the blocking member. Current through the closed motor energizing switch substantially bypasses a motor field winding portion when electrical contact between the contact members is permitted, and is conducted through both portions when prevented. Also, a method for varying starter motor flux levels. | 09-18-2014 |
20140260795 | STARTER WITH SPEED SENSOR ASSEMBLY - A starter assembly adapted for use with an engine having a flywheel and electronic control unit. The starter includes a motor, magnetic field source and a pinion gear engageable with the flywheel. An internal power train transmits torque from the armature to the pinion gear and includes a gear set dividing the internal power train into a first segment with the armature and a second segment with the pinion gear. During operation the first segment has a faster rotational speed than the second segment. A speed sensor senses the speed of the first segment and communicates it to the electronic control unit. The starter assembly can be used in a vehicle with an automatic start-stop function and facilitates the synchronizing of the pinion gear and flywheel speeds when restarting the engine. The speed sensor can take various forms and is advantageously supported on the field frame assembly proximate the commutator. | 09-18-2014 |
20140266043 | VEHICLE SYSTEM WITH BATTERIES IN SERIES - A vehicle system is provided and includes a 12 volt alternator and a 24 volt wound rotor configured for acceptance in the 12 volt alternator. | 09-18-2014 |
20140278020 | DIAGNOSTIC SYSTEM AND METHOD FOR VEHICLE STARTER - A diagnostic system and method for a vehicle with a starter-based stop-start system. At least one diagnostic check is performed before stopping the engine as a function of the stop-start system. Both diagnostic checks may be performed. If a diagnostic check indicates a failure of the starter motor or solenoid, operation of the stop-start system is suspended. The system utilizes a sensor to determine if the starter shaft is rotating when the shaft is in a position wherein a gear on the shaft is disengaged. Operability of the starter motor is checked by energizing and then de-energizing the motor without engaging the gear and determining if the shaft rotates. Operability of the solenoid is checked by sensing the rotation of the starter shaft and then energizing the solenoid to move the shaft into a position where the sensor cannot detect rotation of the shaft. | 09-18-2014 |
20140292123 | METHOD OF WINDING A STATOR CORE WITH A CONTINUOUS CONDUCTOR HAVING A RECTANGULAR CROSS-SECTION AND A STATOR CORE - A method of inserting a continuous conductor having a rectangular cross-section into slot segments formed in a stator core includes forming a core member having a plurality of slot segments each having an opening and inserting a stator winding having a plurality of phases into select ones of the slot segments. Each of the plurality of phases has at least one conductor including a plurality of substantially straight segments alternately connected by a plurality of end loop segments. A section of the at least one conductor includes three consecutive end loop segments and three consecutive straight segments formed from a single continuous conductor. The method further includes narrowing the opening of each of the plurality of slot segments by forming an annular stator core having a central axis. The three consecutive straight segments are substantially similarly radially spaced from the central axis. | 10-02-2014 |
20140339964 | ALTERNATOR FAN - An alternator fan includes a base member having a central hub, an outer peripheral edge, and a web that extends between the central hub and the outer peripheral edge, and a plurality of openings extending through web. A plurality of fan blade elements is arranged in corresponding ones of each of the plurality of openings. | 11-20-2014 |
20140361536 | CHARGING IN MULTIPLE VOLTAGE START/STOP BAS SYSTEM - An alternator-starter system and method is disclosed. A method of operating an alternator-starter having an inverter/rectifier for starting an engine and charging a plurality of batteries includes providing two switches for each battery, monitoring voltages of each of the plurality of batteries, and switching the switches to selectively charge individual ones of the plurality of batteries. A system includes a plurality of batteries connected in series, and includes first and second switches for each battery, the first switch being operable to switchably connect the upper rail of the inverter/rectifier with the respective (+) terminal, the second switch being operable to switchably connect the lower rail of the inverter/rectifier with the respective (−) terminal. A high voltage configuration may be utilized for motoring and generating modes. | 12-11-2014 |
20150028716 | INSULATION COMPONENT FOR AN ELECTRIC MACHINE AND METHOD OF ASSEMBLY - An electric machine includes a core with a plurality of teeth that extends between end faces of the core. Slots are defined in the core between adjacent teeth of the plurality of teeth. The slots each have a radial opening formed between end portions of the adjacent teeth. An insulation sheet is positioned on the core to obstruct the radial openings to the slots. The insulation has at least two spaced circumferential members that respectively overlap the end faces of the core. The insulation sheet also has a plurality of spaced axial members connected to the circumferential members. The axial members are positioned within the slots to obstruct the radial openings to the slots. | 01-29-2015 |
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 |
20150069883 | COMPONENT FOR AN FOR AN ELECTRIC MACHINE - An electric machine component includes a rotor assembly having a body provided with a number of pole members and a central hub. The body includes at least one mounting member projecting radially outwardly of the central hub. A fan member is mounted to the rotor. The fan member includes a hub portion and a number of fan blades projecting radially outwardly from the hub portion. The fan member includes at least one mounting element extending radially outwardly of the hub portion. The at least one mounting element is configured and disposed to engage with the at least one mounting member to radially and axially constrain the fan member to the rotor. | 03-12-2015 |
20150069884 | COMPONENT FOR AN ELECTRIC MACHINE - An electric machine component includes a rotor assembly having at least one claw pole member having a number of pole members, an outer fan member support surface, and a central hub projecting from the outer fan member support surface. The central hub includes an anti-rotation member and a substantially planar bearing surface. | 03-12-2015 |