Patents by Inventor Shin Kusase
Shin Kusase has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20070236098Abstract: A tandem vehicle alternator has dual electrical power generation units. Each generation unit has a Lundel type rotor core and a stator coil. The Lundel type rotor cores are arranged in a tandem arrangement in the vehicle alternator. Each stator coil is composed of sequential segment joining type stator coils. A center position of an inside disk part in a pair of disk parts, placed at the outside of the rotor core, is positioned within a width of an armature iron core as a stator core. This configuration enlarges a gap between inner coil ends faced to each other in the adjacent stator coils at the inside in the axis direction, cools those inner coil ends, and reduces a mutual inductance generated between the inner coil ends. The feature improves the output of the vehicle alternator and enhances the independent control of each generation unit.Type: ApplicationFiled: February 1, 2007Publication date: October 11, 2007Applicant: DENSO CORPORATIONInventors: Shin Kusase, Akiya Shichijoh
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Publication number: 20070057514Abstract: The vehicle-use generator includes a first rotor core having a first field coil wound therearound, a second rotor core having a second field coil wound therearound, a rotating shaft belt-driven by a vehicle engine, the first and second rotor cores being mounted in tandem on the rotating shaft, a stator core having a stator coil wound therearound, and disposed radially outwardly of the first and second rotor cores so as to form a circumferential gap with the first and second rotor cores. The first and second field coils are connected substantially in parallel to each other when viewed from an external field current supply source supplying field currents to the first and second field coils.Type: ApplicationFiled: September 8, 2006Publication date: March 15, 2007Applicant: DENSO CORPORATIONInventors: Takuzou Mukai, Shin Kusase
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Publication number: 20070013261Abstract: A vehicular tandem type rotary electric machine is disclosed having first and second stator cores 23, 33 having first and second circumferentially spaced slots to s accommodate therein first and second stator coils 24, 34, respectively, and first and second Lundell type rotor cores 21, 31 supported on a common rotary shaft 4 in an axially adjacent relationship to be rotatable within the first and second stator cores, respectively, on which first and second field coils 22, 32 are wounded, respectively. Both of the first and second stator coils 24, 34 comprise segments-sequentially-joined stator coils, respectively, each of which includes segment conductors.Type: ApplicationFiled: July 13, 2006Publication date: January 18, 2007Applicant: Denso CorporationInventors: Akiya Shichijo, Shin Kusase
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Publication number: 20070013262Abstract: The vehicle-use tandem electric rotating machine includes a first stator-rotor pair, a second stator-rotor pair, and a controller individually controlling a first field current flowing into a first field coil of the first stator-rotor pair and a second field current flowing into a second field coil of the second stator-rotor pair. The first stator-rotor pair is configured to generate electric power to be supplied to essential electric loads, and the second stator-rotor pair is configured to generate electric power to be supplied to non-essential electric loads. The controller is configured to restrict the second field current from flowing into the second field coil when rotational speed of a vehicle engine driving the tandem electric rotating machine is lower than a predetermined threshold speed set above an idle speed of the vehicle engine.Type: ApplicationFiled: July 17, 2006Publication date: January 18, 2007Applicant: DENSO CORPORATIONInventors: Kazushige Okumoto, Shin Kusase
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Publication number: 20070007837Abstract: A tandem rotary electric machine for vehicles is equipped with a primary rotary electric machine and a secondary rotary electric machine arranged in tandem mechanism, namely, of a dual stator-rotor pair mechanism. In the tandem rotary electric machine, a connection lead wire connects a stator coil wound on a stator core of the primary stator-rotor pair to a rectifier device through one of accommodation parts formed in slots of the stator core of the secondary stator-rotor pair. This structure reduces the entire size or volume of the tandem rotary electric machine and increases the mechanical safety against the impact or force from outside.Type: ApplicationFiled: July 5, 2006Publication date: January 11, 2007Applicant: DENSO CORPORATIONInventors: Takuzou Mukai, Shin Kusase
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Publication number: 20070007847Abstract: A tandem rotary electric machine, to be applicable to various types of mobile bodies such as vehicles, is equipped with a primary rotary electric machine and a secondary rotary electric machine arranged in tandem mechanism. In the tandem rotary electric machine, heat energy generated by positive diodes and negative diodes forming one or more rectifier devices is dissipated to a stator core of the secondary rotary electric machine. The stator core of the secondary rotary electric machine acts as a heat sink through the housing. The stator core of the secondary rotary electric machine has a less frequency use, and a large size and a large weight than those of the primary rotary electric machine of high frequent and normal is used as a heat sink in order to prevent the temperature rise of the positive diode and the negative diode of the rectifier devices.Type: ApplicationFiled: June 21, 2006Publication date: January 11, 2007Applicant: Denso CorporationInventors: Takeo Maekawa, Shin Kusase
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Publication number: 20060279144Abstract: A vehicular electric rotary machine of a heat pipe cooling type is disclosed including heat pipe means 14, 14A, 15, 15B, associated with a cooling fin 51, 52 and a rear end wall 122 of a rear frame 12, which have regions exposed to an exhaust passage 19 to be cooled by a cooling wind Wa for thereby radiating heat of a rectifier.Type: ApplicationFiled: June 8, 2006Publication date: December 14, 2006Applicant: Denso CorporationInventors: Takuzou Mukai, Shin Kusase
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Publication number: 20060220477Abstract: A tandem type rotary generator has a rotary shaft, and two power generating sections disposed adjacent to each other along an axial direction. Each power generating section has a Lundell type rotor core fixed to the rotary shaft, a field coil wound on the rotor core, a stator core disposed on an outside of the rotor core opposite to the rotary shaft in a radial direction, and a stator coil wound on the stator core. A center of the field coil of each power generating section is positioned away from a center of the stator core of the power generating section in the axial direction toward the other power generating section. Two cooling fans cooling the power generating sections are disposed on both sides of the pair of rotor cores in the axial direction.Type: ApplicationFiled: February 28, 2006Publication date: October 5, 2006Applicant: DENSO CORPORATIONInventors: Kazushige Okumoto, Shin Kusase
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Patent number: 7078840Abstract: A brushless rotary electric machine includes a stator having an annular armature core with first radial teeth at the outer periphery thereof and second radial teeth at the inner periphery thereof and an armature winding wound between the teeth, a rotor having a pair of first and second rotary cores disposed tandem in the axial direction thereof, and a field coil. Each of the first and second rotary cores has a pair of coaxial outer and inner cylindrical pole members respectively facing the first and second radial teeth, a center core and a disk member magnetically connecting the pair of coaxial cylindrical pole members and the center core. The stator is accommodated by a first space defined by the outer and inner cylindrical members of the pair of first and second rotary cores. The field coil is accommodated by a second space defined by the inner cylindrical pole member and the center core of the first and second rotary cores.Type: GrantFiled: December 2, 2005Date of Patent: July 18, 2006Assignee: Denso CorporationInventor: Shin Kusase
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Publication number: 20060151220Abstract: An apparatus having electric wheels comprises a pair of left and right wheels, rotary electric machines, i.e. motors, for individually driving these wheels, and a control unit for operating the motors. The motors each have a rotation axis offset from that of the wheel, drive the same one wheel of the pair, and are arranged at positions distanced in the radial direction of the axle by the same length, and on the same plane normal to the axial direction of the axle, being apart from each other in the circumferential direction of the axle with a predetermined angle therebetween. In a preferred mode, power is transmitted from the motors to a single wheel through a belt-type transmission mechanism incorporated in the wheel. Responsive and fine driving power control can be performed without sacrificing the cabin space, thereby providing a vehicle having excellent responsiveness, degree of freedom and reliability.Type: ApplicationFiled: December 19, 2005Publication date: July 13, 2006Applicant: Denso CorporationInventors: Makoto Taniguchi, Yasuaki Yukawa, Masahiko Osada, Shin Kusase, Takuzou Mukai
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Publication number: 20060138879Abstract: The rotor of the outer-rotor type wheel-in motor of the electric wheel includes a field generator facing the outer surface of the stator across from an electrical gap. The field generator includes pole magnets magnetized in the radial direction with respect to the rotation axis of the wheel-in motor,- adjacent two of the-pole magnets having opposite directions of magnetization so that magnet polarity of the field generator alternates at a predetermined pole pitch along the circumferential direction, yoke magnets magnetized in the circumferential direction each of which is put between corresponding adjacent two of the pole magnets to strengthen magnetic field formed by the pole magnets, and a field generator support member to which the field generator is fixed, the field generator support member being fixed to the rotary shaft which is rotatably supported by a wheel suspension system of a vehicle.Type: ApplicationFiled: December 21, 2005Publication date: June 29, 2006Applicant: DENSO CORPORATIONInventors: Shin Kusase, Takuzou Mukai
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Patent number: 7064466Abstract: A brushless rotary electric machine includes a stator having an annular armature core with first radial teeth at the outer periphery thereof and second radial teeth at the inner periphery thereof and an armature winding wound between the teeth, a rotor having a pair of first and second rotary cores disposed tandem in the axial direction thereof, and a field coil. Each of the first and second rotary cores has a pair of coaxial outer and inner cylindrical pole members respectively facing the first and second radial teeth, a center core and a disk member magnetically connecting the pair of coaxial cylindrical pole members and the center core. The stator is accommodated by a first space defined by the outer and inner cylindrical members of the pair of first and second rotary cores. The field coil is accommodated by a second space defined by the inner cylindrical pole member and the center core of the first and second rotary cores.Type: GrantFiled: November 20, 2002Date of Patent: June 20, 2006Assignee: Denso CorporationInventor: Shin Kusase
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Publication number: 20060113861Abstract: In a vehicle AC generator, the rotor has two pole pieces that axially enclose a field winding, while a tubular stacked-lamination core formed of axially stacked magnetic laminations is mounted with its inner circumference in contact with outer circumferences of the pole pieces. A plurality of axially extending elongated permanent magnets each magnetized in the circumferential direction are implanted in the stacked-lamination core, with adjacent permanent magnets polarized in opposite directions, so that axially extending circumferentially alternating N and S rotor poles are formed at the outer circumferential surface of the stacked-lamination core by the magnetic flux of the field winding.Type: ApplicationFiled: November 15, 2005Publication date: June 1, 2006Applicant: Denso CorporationInventors: Takuzou Mukai, Shin Kusase
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Patent number: 7053508Abstract: In a rotor for a rotary electric machine, a predetermined number of main pole magnets and a predetermined number of yoke magnets are fixed in contact with a hub. Each main pole magnet is magnetized so that its radial inside portion and its radial outside portion have the opposite polarity from each other, of north pole and south pole. Also, each main pole magnet has its radial inside and radial outside polarities reversed from its closest main pole magnets. The yoke magnets are disposed to allow magnetic flux to flow through circumferential surfaces of the main pole magnets. The hub is provided as a heat radiating member and made of metal having high heat conductivity. The hub includes an inner cylindrical portion and an outer cylindrical portion, and forms an air passage spaces.Type: GrantFiled: May 24, 2004Date of Patent: May 30, 2006Assignee: Denso CorporationInventors: Shin Kusase, Takeo Maekawa, Toru Onishi
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Publication number: 20060082238Abstract: A brushless rotary electric machine includes a stator having an annular armature core with first radial teeth at the outer periphery thereof and second radial teeth at the inner periphery thereof and an armature winding wound between the teeth, a rotor having a pair of first and second rotary cores disposed tandem in the axial direction thereof, and a field coil. Each of the first and second rotary cores has a pair of coaxial outer and inner cylindrical pole members respectively facing the first and second radial teeth, a center core and a disk member magnetically connecting the pair of coaxial cylindrical pole members and the center core. The stator is accommodated by a first space defined by the outer and inner cylindrical members of the pair of first and second rotary cores. The field coil is accommodated by a second space defined by the inner cylindrical pole member and the center core of the first and second rotary cores.Type: ApplicationFiled: December 2, 2005Publication date: April 20, 2006Applicant: Denso CorporationInventors: Shin Kusase, Takuzou Mukai
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Patent number: 7023121Abstract: A brushless rotary electric machine includes a stator having an annular armature core with first radial teeth at the outer periphery thereof and second radial teeth at the inner periphery thereof and an armature winding wound between the teeth, a rotor having a pair of first and second rotary cores disposed tandem in the axial direction thereof, and a field coil. Each of the first and second rotary cores has a pair of coaxial outer and inner cylindrical pole members respectively facing the first and second radial teeth, a center core and disk member magnetically connecting the pair of coaxial cylindrical pole members and the center core. The stator is accommodated by a first space defined by the outer and inner cylindrical members of the pair of first and second rotary cores. The field coil is accommodated by a second space defined by the inner cylindrical pole member and the center core of the first and second rotary cores.Type: GrantFiled: June 28, 2005Date of Patent: April 4, 2006Assignee: Denso CorporationInventors: Shin Kusase, Takuzou Mukai
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Publication number: 20050236920Abstract: A brushless rotary electric machine includes a stator having an annular armature core with first radial teeth at the outer periphery thereof and second radial teeth at the inner periphery thereof and an armature winding wound between the teeth, a rotor having a pair of first and second rotary cores disposed tandem in the axial direction thereof, and a field coil. Each of the first and second rotary cores has a pair of coaxial outer and inner cylindrical pole members respectively facing the first and second radial teeth, a center core and disk member magnetically connecting the pair of coaxial cylindrical pole members and the center core. The stator is accommodated by a first space defined by the outer and inner cylindrical members of the pair of first and second rotary cores. The field coil is accommodated by a second space defined by the inner cylindrical pole member and the center core of the first and second rotary cores.Type: ApplicationFiled: June 28, 2005Publication date: October 27, 2005Applicant: Denso CorporationInventors: Shin Kusase, Takuzou Mukai
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Patent number: 6922000Abstract: A rotary electric machine is composed of an armature core, an armature winding, a rotor core disposed opposite said armature core, a rotary magnetic-flux source for supplying first magnetic flux to the rotor core, a frame for supporting the armature core and the rotor core and a stationary magnetic flux source, fixed to the frame, for supplying second magnetic flux to the rotor core in a direction to supplement the first magnetic flux.Type: GrantFiled: April 22, 2004Date of Patent: July 26, 2005Assignee: Denso CorporationInventors: Shin Kusase, Takuzou Mukai
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Patent number: 6903477Abstract: An electric machine selectively operates as a generator mode or a motor mode. The electric machine includes a stator core, a multi-phase armature winding, a field coil, a moving core having a plurality of salient poles so as to move relative to the stator core to cross the magnetic field. Field current is supplied to the field coil differently according to operation mode. A portion of the armature winding is short-circuited to form an additional magnetic field that has a phase different from the magnetic field of the field coil. Therefore, the rotary core moves relative to the stator core when the operation mode is in the motor mode.Type: GrantFiled: December 20, 2002Date of Patent: June 7, 2005Assignee: Denso CorporationInventors: Shin Kusase, Tsutomu Shiga
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Publication number: 20050040721Abstract: In a rotor for a rotary electric machine, a predetermined number of main pole magnets and a predetermined number of yoke magnets are fixed in contact with a hub. Each main pole magnet is magnetized so that its radial inside portion and its radial outside portion have the opposite polarity from each other, of north pole and south pole. Also, each main pole magnet has its radial inside and radial outside polarities reversed from its closest main pole magnets. The yoke magnets are disposed to allow magnetic flux to flow through circumferential surfaces of the main pole magnets. The hub is provided as a heat radiating member and made of metal having high heat conductivity. The hub includes an inner cylindrical portion and an outer cylindrical portion, and forms an air passage spaces.Type: ApplicationFiled: May 24, 2004Publication date: February 24, 2005Applicant: DENSO CORPORATIONInventors: Shin Kusase, Takeo Maekawa, Toru Onishi