Patent application number | Description | Published |
20100143031 | MECHANICAL FASTENER HAVING A THREAD STAKING MECHANISM - A mechanical fastener includes a main body having an outer diametric portion and an inner diametric portion and a plurality of threads provided on at least one of the outer and inner diametric portions. The mechanical fastener further includes at least one staking mechanism formed in the main body at the at least one of the outer and inner diametric portion. The at least one staking mechanism extends into and bisects at least a portion of the plurality of threads. | 06-10-2010 |
20110285221 | Stator Winding Assembly and Method - An electrical device includes a plurality of stacked laminates that form a tubular stator portion, a cooling passage partially defined by orifices formed in the plurality of stacked laminates, a housing including a cavity further defining the cooling passage, the cooling passage defining a fluid flow path parallel to a rotational axis of the stator portion, a sump portion communicative with the cooling passage, the sump portion including a cavity defined by the stator portion and the housing member. | 11-24-2011 |
20120013207 | STATOR SLEEVE FOR AN ELECTRIC MACHINE AND METHOD OF ESTABLISHING A COOLANT CAVITY ABOUT A STATOR FOR AN ELECTRIC MACHINE - An electric machine including a housing, and a stator mounted within the housing. The stator includes an outer perimetric surface and an inner perimetric surface. A rotor is mounted, at least in part, within the inner perimetric surface of the stator. The rotor is rotatable relative to the stator. A stator sleeve extends about the stator. The stator sleeve includes a first sleeve portion and a second sleeve portion. The first sleeve portion includes a first diametric edge that extends to a second diametric edge, and the second sleeve portion includes a first diametric edge section that extends to a second diametric edge section. The stator sleeve is configured and disposed to establish a coolant cavity about the outer perimetric surface of the stator. | 01-19-2012 |
20120042665 | REJECT HEAT DRIVEN ABSORPTION COOLING CYCLE - An electric machine system includes: an electric motor; and an absorption cooling system driven by heat generated by the electric motor and configured to cool a primary cooling fluid that removes the heat from the electric motor to a temperature below an ambient temperature of an ultimate heat sink. A method for operating the electric machine system is also disclosed. | 02-23-2012 |
20120043809 | Auxiliary Device Using Primary Inverter Feeds - An electric machine system includes an electric motor, an auxiliary device configured to receive filtered electric power, and a filter. The filter is configured to receive electric power and to pass filtered electric power to the auxiliary device at a frequency not used for power conversion to rotational energy by the electric motor. A method for operating the electric machine system is also disclosed. | 02-23-2012 |
20120043835 | MATERIAL MATRIX FOR COOLING MEDIA ENHANCEMENT - An electric machine includes: a stator having stator windings; a rotor configured to interact electromagnetically with the stator; and a housing configured to house the stator and the rotor. A material matrix is disposed within the housing and in contact with the stator windings. The material matrix defines a plurality of passages configured for the cooling fluid to flow within to remove heat from the stator windings. | 02-23-2012 |
20120043836 | Disk Style Centrifugal Pump - An electric machine system includes an electric motor and an oil pump disposed within a housing. The oil pump is configured to disperse oil in a pattern about a rotational axis within the electric motor. A method for operating the electric machine system is also disclosed. | 02-23-2012 |
20120112568 | COOLING SYSTEM FOR AN ELECTRIC MACHINE SYSTEM INCLUDING AN ALTERNATING CURRENT (AC) ELECTRIC MACHINE HAVING AN INTEGRATED SWITCH ASSEMBLY - An electric machine system includes an alternating current (AC) electric machine. The AC machine includes a machine housing having a machine portion and a switch portion. A stator is fixedly mounted in the machine portion of the machine housing and a rotor rotatably mounted relative to the stator. A switch assembly is arranged within the switch portion of the machine housing and electrically connected to the stator. A direct current (DC) power source is electrically connected to the stator through the switch assembly. A cooling system is fluidly connected to the AC electric machine. The cooling system directs a flow of coolant onto the switch assembly in the switch portion of the machine housing, and onto at least one of the stator and the rotor in the machine portion of the machine housing. | 05-10-2012 |
20120112573 | ELECTRIC MACHINE SYSTEM INCLUDING AN ALTERNATING CURRENT (AC) ELECTRIC MACHINE HAVING AN EXPANDABLE COOLANT MANIFOLD - An electric machine system including an alternating current (AC) electric machine. The AC electric machine includes a machine housing having a machine portion and a switch portion. A stator is fixedly mounted in the machine portion of the machine housing, and a rotor rotatably mounted relative to the stator. A switch assembly is arranged within the switch portion of the machine housing and electrically connected to the stator. The switch assembly includes a switch module having a switch member. The switch module is configured and disposed to be detachably mounted in the switch portion of the machine housing. A cooling system that includes an expandable coolant manifold is arranged in the switch portion of the machine housing. The expandable coolant manifold is fluidly connected to the switch module. | 05-10-2012 |
20120112576 | INVERTER FOR AN ELECTRIC MACHINE - An electric machine system including an alternating current (AC) electric machine having a machine housing, and a plurality of switch members arranged within a switch housing. The plurality of switch members are electrically connected to the AC electric machine. A direct current (DC) power source is electrically connected to the plurality of switch members. The DC power source generates a DC current. A controller is arranged within a control housing that is remote from the switch housing. The controller is electrically connected to the plurality of switch members and is configured and disposed to selectively activate select ones of the plurality of switch members in order to convert the DC current between the DC power source and an alternating current (AC) to operate the AC electric machine. | 05-10-2012 |
20120112608 | ELECTRIC MACHINE HAVING AN INTEGRATED INVERTER - An electric machine system includes an alternating current (AC) electric machine. The AC electric machine includes a machine housing having a machine portion and a switch portion. A stator is fixedly mounted in the machine portion, a rotor rotatably mounted relative to the stator, and a plurality of switch members are arranged within the switch portion. The plurality of switch members are electrically connected to the stator. A direct current power source is electrically connected to the plurality of switch members. A controller is arranged within a controller housing and electrically connected to the plurality of switch members. The controller housing is distinct from and remotely mounted relative to the AC electric machine. The controller is configured and disposed to activate select ones of the plurality of switch member to convert DC current between the DC power source and an AC current to operate the AC electric machine. | 05-10-2012 |
20120112680 | ELECTRIC MACHINE SYSTEM INCLUDING AN ALTERNATING ELECTRIC CURRENT (AC) ELECTRIC MACHINE HAVING A SWITCH MODULE - An electric machine system includes an alternating current (AC) electric machine. The AC electric machine includes a machine housing having a machine portion and a switch portion. A stator is fixedly mounted in the machine portion of the machine housing and a rotor is rotatably mounted relative to the stator. A switch assembly is arranged within the switch portion of the machine housing and electrically connected to the stator. The switch assembly includes at least one switch module having at least one switch member. The at least one switch module is configured and disposed to be detachably mounted in the switch portion of the machine housing. A direct current (DC) power source is electrically connected to the stator through the switch assembly. A controller is operatively connected to the switch assembly. | 05-10-2012 |
20120238142 | Electric Machine with Fully Enclosed In-Slot Conductors - An electric machine includes a core with a plurality of slots. A plurality of electric conductors are positioned in the slots. Each of the plurality of electric conductors includes a U-turn portion extending between two in-slot portions and connection ends extending from the in-slot portions. The connection ends are positioned on an opposite end of the core from the U-turn portions. A plurality of insulation tubes are positioned in the plurality of slots. The in-slot portions of the electric conductors extend through the insulation tubes. | 09-20-2012 |
20120258833 | ASYNCHRONOUS BOOST ASSIST SYSTEM FOR A MOTOR VEHICLE - An asynchronous boost assist system for a motor vehicle includes a first electric motor, a second electric motor positioned opposite the first electric motor and a differential gear system operatively connected to the first and second electric motors. The differential gear system includes a first differential gear set and a second differential gear set. The first differential gear set is operatively connected to the first and second electric motors and the second differential gear set is configured and disposed to operatively connect to first and second vehicle wheels. A controller is operatively connected to each of the first and second electric motors. The controller selectively independently controls an operational speed of each of the first and second electric motors to selectively provide an acceleration boost through the second differential gear set. | 10-11-2012 |
20130257190 | IPM MACHINE WITH THERMALLY CONDUCTIVE COMPOUND - A synchronous electric machine includes a rotor having a substantially cylindrical core with axially extending slots, a plurality of permanent magnets configured as sets defining alternating poles in a circumferential direction, the permanent magnets being located in respective ones of the slots, and a thermally conductive material contiguous with the permanent magnets and the core for transferring heat of the permanent magnets, the material having a thermal conductivity of greater than 0.3 watts per (meter * Kelvin). | 10-03-2013 |
20130342030 | HIGH VOLTAGE PROTECTION INTERLOCK SYSTEM FOR SERVICEABILITY - An interlock system and method are provided for protecting high voltage electrical couplings. The interlock system may control access to the electrical couplings based on the voltage of the electrical couplings. The interlock system may also selectively energize and de-energize the electrical couplings based on the position of a lid. | 12-26-2013 |
20140028139 | PERMANENT MAGNET ROTOR WITH RESIN-COVERED MAGNET AND LAMINATION FOR THERMAL CONTROL - A method of forming a rotor includes placing a plurality of laminations into a stack having a plurality of longitudinally extending magnet slots, placing a plurality of permanent magnets into ones of the magnet slots, and injecting a low viscosity epoxy resin into the lamination stack, thereby substantially filling the magnet slots with a portion of the epoxy resin having a thermal conductivity greater than 0.3 Watts/(meter*degree Kelvin) and substantially filling axial spaces between adjacent ones of the laminations with a portion of the epoxy resin having a thermal conductivity less than that of the epoxy resin in the magnet spaces. | 01-30-2014 |
20140070637 | THERMAL MANAGEMENT OF AN IPM MOTOR WITH CONTAINERIZED FLUID - A rotor of an electric machine includes a rotor core having a plurality of longitudinally extending magnet channels each containing a permanent magnet, and a plurality of moldable containers each containing a heat transfer material and each being contiguous with portions of the respective permanent magnet and its magnet channel. A method of thermal management of an internal permanent magnet (IPM) rotor includes installing, into at least one longitudinally extending magnet channel of a rotor core, a permanent magnet having opposite lateral ends. The method also includes installing a moldable container, enclosing a heat transfer material, into the magnet channel adjacent one of the lateral ends of the permanent magnet. The method further includes transferring heat from the magnet through the container into the rotor core. | 03-13-2014 |
20140132094 | THERMAL MANAGEMENT OF AN IPM MOTOR WITH NON-MAGNETIC BARS - A rotor of an electric machine includes a lamination stack having a plurality of longitudinally extending magnet channels each having a magnet space and longitudinally extending gaps on each lateral end of the magnet space. A plurality of permanent magnets are respectively disposed in ones of the magnet channels, substantially non-magnetic bars are disposed in each longitudinally extending gap, and a thermally conductive filler material secures the magnets and the bars within the channels. A method of thermal management of an internal permanent magnet (IPM) rotor includes installing, into at least one longitudinally extending magnet channel of a lamination stack, a pair of substantially non-magnetic bars adjacent opposite lateral ends of a longitudinally extending permanent magnet, and transferring heat from the magnet through the bars into the lamination stack. | 05-15-2014 |