Shinji Ichikawa
Shinji Ichikawa, Aichi JP
Patent application number | Description | Published |
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20110034053 | CHARGING CONNECTOR - To provide a charging connector to prevent the charging connector from removing while a lock system is locked by helping a user recognize that the lock system is locked. | 02-10-2011 |
20110059659 | Connector - A connector includes: a terminal fitting which includes a wire connecting portion and an electric contact portion disposed coaxially with the wire connecting portion; a connector housing for fitting to a mating connector; a rear holder which is fitted at an end portion of the connector housing; a terminal accommodating chamber which is provided in the connector housing. The terminal accommodating chamber includes a first accommodating portion for accommodating the wire connecting portion, a second accommodating portion which is continuous with the first accommodating portion to accommodate the electric contact portion, and a stepped surface formed between the first and second accommodating portions. The connector also includes a flange portion which projects from an outer peripheral surface of the wire connecting portion so as to contact the stepped surface, and a sleeve member provided between the flange portion and the rear holder. | 03-10-2011 |
20140021918 | Charging Apparatus for Vehicles - Provided is a charging apparatus for vehicles which charges a vehicle provided with a charging control circuit via a charging cable, comprising a charging control device which controls electrical charging to the vehicle by transmitting a charging control signal to the charging control circuit on the vehicle side, a charging control signal transmission restricting device which restricts transmission of the charging control signal, and a resetting device which forcibly resets the charging control signal when said restriction on transmission of the charging control signal is withdrawn. | 01-23-2014 |
Shinji Ichikawa, Yokohama-Shi JP
Patent application number | Description | Published |
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20100230980 | VEHICLE HANDLE APPARATUS - A door handle apparatus for a vehicle is provided with a handle base to be fixed to a door of the vehicle and an operating handle. One end of the operating handle is pivotally coupled to the handle base. On the other end of the operating handle, an operating leg protrudes. The operating leg portion includes a stopper protrusion for butting with a part of the handle base to define a termination of a rotating stroke of the operating handle is provided. The operating leg portion further includes a shake preventing protrusion on a free end side of the stopper protrusion. | 09-16-2010 |
20150042111 | VEHICULAR HANDLE DEVICE - An object of the present invention is to provide a vehicular handle device capable of preventing interference between an inner periphery of a torsion spring and a pivot shaft under operating conditions, thereby preventing abnormal noise from occurring during operation. Provided is a vehicular handle device, including: a handle base | 02-12-2015 |
20150061304 | VEHICULAR HANDLE DEVICE - An object of the present invention is to provide a vehicular handle device capable of preventing a fracture in an elastic piece, thereby ensuring that a shaft component | 03-05-2015 |
Shinji Ichikawa, Tokyo JP
Patent application number | Description | Published |
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20100180652 | MANUFACTURING METHOD FOR INSULATED ELECTRIC WIRE AND ITS MANUFACTURING APPARATUS - The present invention relates to a method of manufacturing an insulated electric wire and an apparatus for manufacturing an insulated electric wire that can stably manufacture a conductor having a larger sectional width according to desired dimensions as compared to the rolling where the conductor is rolled by a pair of rolling rolls free-rotated, and that can conduct the entire process in a tandem arrangement. | 07-22-2010 |
20100203231 | METHOD AND APPARATUS FOR PRODUCING INSULATED WIRE - Disclosed is a method of producing an insulated electric wire, in which a primary coating layer including at least an enamel-baking layer is formed on a metallic conductor to form a primary coated electric wire, and a secondary coating layer is extrusion-formed on the primary coating layer of the primary coated electric wire. The method includes an electric wire pre-heating process where a surface of the primary coating layer is pre-heated using an electric wire pre-heating unit, and a resin extrusion process where a secondary coating layer is extrusion-formed on the pre-heated primary coating layer using a resin extrusion unit. Further disclosed is an apparatus for producing an insulated electric wire. | 08-12-2010 |
20140216340 | METHOD AND APPARATUS FOR PRODUCING INSULATED WIRE - Disclosed is a method of producing an insulated electric wire, in which a primary coating layer including at least an enamel-baking layer is formed on a metallic conductor to form a primary coated electric wire, and a secondary coating layer is extrusion-formed on the primary coating layer of the primary coated electric wire. The method includes an electric wire pre-heating process where a surface of the primary coating layer is pre-heated using an electric wire pre-heating unit, and a resin extrusion process where a secondary coating layer is extrusion-formed on the pre-heated primary coating layer using a resin extrusion unit. Further disclosed is an apparatus for producing an insulated electric wire. | 08-07-2014 |
Shinji Ichikawa, Toyota JP
Patent application number | Description | Published |
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20100197171 | CONNECTOR - A connector | 08-05-2010 |
20130099594 | Control Device of Power Supply Circuit - An ECU executes a program including a step of turning on an SMRP and an A-SMRP if an ignition switch is turned on; a step of detecting voltage values VB(1)and VB(2) of running batteries when VH is detected and if VH is higher than | 04-25-2013 |
20130099595 | Control Device of Power Supply Circuit - An ECU executes a program including a step of turning on an SM and an A-SMRP if an ignition switch is turned on a step of detecting voltage values VB(1)and VB(2) of running batteries when VH is detected and if VH is higher than 180 V; a step of detecting that SMRP connected to the running battery is welded, if VB(1) is higher than 150 V; and a step of detecting that A-SMRB connected to the running battery is welded, if VB(2) is higher than 150 V. | 04-25-2013 |
20130099596 | Control Device of Power Supply Circuit - An ECU executes a program including a step of turning on an SMRP and an A-SMRP if an ignition switch is turned on; a step of detecting voltage values VB( | 04-25-2013 |
Shinji Ichikawa, Ichinomiya-Shi JP
Patent application number | Description | Published |
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20100138088 | INFORMATION SYSTEM USING VEHICLE, CHARGING DEVICE AND VEHICLE - A vehicle is configured to be rechargeable from a charging station through a charging cable. The charging cable is configured to allow supply of electric power from the charging station to the vehicle. A house is configured to allow transmission of physiological data of a vehicle user gathered at the house to the vehicle through the charging station and the charging cable. The vehicle is configured to allow receipt of physiological data of the vehicle user transmitted from the house through the charging cable to control on-vehicle equipment based on the received physiological data. | 06-03-2010 |
Shinji Ichikawa, Anjo-Shi JP
Patent application number | Description | Published |
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20090183934 | POWER SUPPLY SYSTEM, VEHICLE PROVIDED WITH THE SAME, POWER SUPPLY SYSTEM CONTROL METHOD AND COMPUTER-READABLE RECORDING MEDIUM BEARING PROGRAM FOR CAUSING COMPUTER TO CONTROL THE POWER SUPPLY SYSTEM - First and second converters are connected in parallel to positive and negative lines, respectively. When a required power is smaller than a reference value, an ECU controls the first and second converters such that one of the first and second converters operates and the other stops. When the required power is equal to or larger than the reference value, the ECU controls the first and second converters such that both the first and second converters operate. | 07-23-2009 |
Shinji Ichikawa, Aichi-Ken JP
Patent application number | Description | Published |
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20120062172 | RESONANCE TYPE NON-CONTACT CHARGING DEVICE - A resonance type non-contact charging device includes a high frequency power source, a primary side resonant coil, a secondary side resonant coil, a charger, a secondary battery, and a stop control unit, The primary side resonant coil receives supply of high frequency electric power from the high frequency power source. The secondary side resonant coil is arranged apart from the primary side resonant coil in a non-contact manner. The secondary side resonant coil receives electric power from the primary side resonant coil through magnetic field resonance between the primary side resonant coil and the secondary side resonant coil. The charger receives supply of high frequency electric power from the secondary side resonant coil. The secondary battery is connected to the charger. The stop control unit stops the high frequency power source before stopping the charger when charging is to be stopped. | 03-15-2012 |
20120086267 | ELECTRIC-POWERED VEHICLE - A power receiving port includes an inlet, a pullout hole for a pullout type cord, and a selector switch. Inlet is connectable with a charging cable provided outside a vehicle. Pullout type cord is pulled out from pullout hole so as to be connectable to a socket of a power source outside the vehicle. In power receiving port, pullout hole is provided at a position where a distance between the pullout hole and a joint openably combining a lid with power receiving port is more than a distance between the inlet and the joint. Selector switch is to select whether to use inlet or pullout type cord by a user. | 04-12-2012 |
20150291048 | PARKING ASSIST SYSTEM FOR VEHICLE, CONTACTLESS POWER TRANSMITTING DEVICE, AND CONTACTLESS POWER RECEIVING DEVICE - A parking assist system for a vehicle includes a target position setting unit setting a vehicle target parking position on the basis of a coil type and position of a power transmitting unit. When the coil type is a composite coil having a configuration such that an annular coil wound to surround a first axis and a solenoid coil wound to surround a second axis intersecting with the first axis are serially connected, the target position setting unit sets the target parking position such that a center of a power receiving unit mounted on the vehicle is located at a predetermined distance from the first axis along the second axis. The solenoid coil is set at a position with respect to the annular coil such that the first axis extends through a side face center portion of the solenoid coil. | 10-15-2015 |
Shinji Ichikawa, Kanagawa JP
Patent application number | Description | Published |
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20140041310 | HANDLE BASE ATTACHMENT STRUCTURE - The door handle device of a vehicle is provided with: a handle base disposed along the rear surface of a door panel; and an operation handle that is coupled to the handle base. The handle base has hook-shaped pressing portions that ride on a protruding portion provided to the oppossed side edges along the sliding direction of a mounting opening provided to the door panel accompanying a sliding operation along the door panel; a panel-abutting portion that sandwiches the door panel in cooperation with the hook-shaped pressing portions; and an elastic locking piece that restricts the rearwards motion of the handle base by resilient locking to the center of a rear end edge of the mounting opening, and restricts removal of the hook-shaped pressing portions from the protruding portion. | 02-13-2014 |
20140049058 | VEHICLE DOOR HANDLE DEVICE - This door handle device is provided with: a handle base; an introduction opening that is opened in a door handle and that supports the handle base; an operation handle that is connected to the handle base; and a gasket that is disposed between the handle base and the operation handle. A handle stopper, of which one end passes through the introduction aperture and is borne by the handle base, and of which the other end contacts the operation handle, is integrally provided to the gasket. | 02-20-2014 |
20140069225 | CABLE CONNECTION STRUCTURE FOR MOVABLE MEMBER - In a cable connection structure in which a roughly spherical cable end disposed at the tip of an inner wire is connected to a movable member, the movable member is provided with a pair of wing pieces that hold the inner wire, a cable insertion opening that guides the cable end to a space between the wing pieces, and a roughly elliptical cable end passage part that displaceably supports the cable end. The long axis of the roughly elliptical shape of the cable end passage part roughly coincides with the direction of insertion of the cable. | 03-13-2014 |
Shinji Ichikawa US
Patent application number | Description | Published |
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20150224883 | VEHICLE AND CONTACTLESS POWER SUPPLY SYSTEM - A contactless power supply system contactlessly supplies electric power from a power transmitting device to a vehicle. The vehicle includes a power receiving unit contactlessly receiving electric power from the power transmitting device, an electrical storage device storing electric power received by the power receiving unit, and a vehicle ECU. The power transmitting device includes a power supply unit, a power transmitting unit contactlessly supplying electric power, supplied from the power supply unit, to the power receiving unit and a matching transformer used to adjust an impedance between the power supply unit and the power transmitting unit. The vehicle ECU is able to output, to the power transmitting device, a command to adjust the matching transformer, and sets an impedance of the matching transformer on the basis of a power transfer efficiency between the power transmitting unit and the power receiving unit while the electrical storage device is being charged. | 08-13-2015 |
Shinji Ichikawa, Toyota-Shi, Aichi-Ken JP
Patent application number | Description | Published |
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20150357828 | POWER RECEIVING DEVICE AND POWER TRANSMITTING DEVICE - A power receiving device includes: a power receiving unit that receives electric power from an externally provided power transmitting unit contactlessly; and a casing having the power receiving unit accommodated therein, the casing including: a lid member located on the power transmitting unit's side and allowing a magnetic field to pass therethrough, and a plurality of temperature sensors provided at the lid member and sensing in temperature a foreign matter present between the power transmitting unit and the power receiving unit, the temperature sensors being spaced closer together at the location of a strong portion of an electromagnetic field strength generated from the power receiving unit than the location of a weak portion of the electromagnetic field strength generated from the power receiving unit. | 12-10-2015 |