Patent application number | Description | Published |
20100110710 | VEHICLE HEADLAMP - A vehicle headlamp with improved vibration proof of a movable reflector is provided. The vehicle headlamp has: a holder; an upside movable reflector and a downside movable reflector; light sources; and a drive unit. The drive unit is made up of a motor and a drive force transmission mechanism. The drive force transmission mechanism rotates the upside and downside movable reflectors in reverse directions, respectively. As a result, the vehicle headlamp can improve the vibration proof of the upside and downside movable reflectors. | 05-06-2010 |
20100110711 | VEHICLE HEADLAMP - A vehicle headlamp is provided with: a fixed reflector having reflecting surfaces, a respective one of which is made of a parabola-based free curved face; movable reflectors having reflecting surfaces, a respective one of which is made of a parabola-based free curved face; and semiconductor-type light sources, a respective one of which has a light emitting chip shaped like a planar rectangle. When the movable reflectors are positioned in a first location, a light distribution pattern for low beam is obtained on the reflecting surfaces of the fixed reflector. When the movable reflectors are positioned in a second location, light distribution patterns for high beams are obtained on the reflecting surfaces of the fixed reflector and the movable reflector. As a result, the vehicle headlamp enables downsizing, weight reduction, power saving, and cost reduction. | 05-06-2010 |
20100165653 | VEHICLE HEADLAMP - A vehicle headlamp is provided with semiconductor-type light sources, lenses, a reflector, light shading members, prism members, and a switching device. When the light shading members are positioned in a first location by means of the switching device, a light distribution pattern LP for low beam, having one or more cutoff lines, is illuminated. In addition, when the prism members are positioned in the first location by means of the switching device, a light distribution pattern HP for high beam is illuminated. As a result, the vehicle headlamp can achieve downsizing, weight reduction, power saving, and cost reduction. | 07-01-2010 |
20100165654 | VEHICLE HEADLAMP - A vehicle headlamp is provided with: a main reflector having a convergent reflecting surface; a semiconductor-type light source; a projecting lens; an auxiliary reflector having a parabolic reflecting surface; a shade and a light shading member that are structured integrally with each other; and a switching device. By means of the switching device, the shade and light shading member, which are structured integrally with each other, are switched and positioned in a first location and a second location, thereby allowing light distribution patterns for high and low beams to be switched and illuminated toward a forward direction of a vehicle. As a result, the vehicle headlamp becomes capable of achieving downsizing, weight reduction, power saving, and cost reduction. | 07-01-2010 |
20100194276 | VEHICLE HEADLAMP - A vehicle headlamp is provided with: a fixed reflector having reflecting surfaces made of parabola-based free curved faces; movable reflectors having reflecting surfaces made of parabola-based free curved faces; and semiconductor-type light sources having light emitting chips shaped like a planar rectangle. When the movable reflectors are positioned in a first location, a light distribution pattern for low beam is obtained. When the movable reflectors are positioned in a second location, light distribution patterns for high beams are obtained. When the movable reflectors are positioned in a third location, light distribution patterns for daytime running light are obtained. As a result, the vehicle headlamp can achieve downsizing, weight reduction, power saving, and cost reduction. | 08-05-2010 |
20120188783 | VEHICLE HEADLAMP - An AFS-type vehicle headlamp is provided, and includes a bearing holder adapted to hold a bearing that is inserted into an upper support shaft of a lamp unit. The bearing holder is formed integrally with a fixing portion for a bracket, a bearing holding portion adapted to hold the upper support shaft, and a spring portion adapted to compress a tip end of the upper support shaft. The fixing portion includes the bearing holding portion adapted to hold the bearing on a flat plate member in such a manner that a center of the bearing is positioned in a plane that includes the flat plate member. | 07-26-2012 |
20120188784 | VEHICLE HEADLAMP - A vehicle headlamp includes: a lamp unit including an upper support shaft and a lower support shaft that are coaxially formed each other; a bracket adapted to support the lamp unit via a ball bearing in the upper support shaft and via a slider in a lower shaft support portion; an actuator including a mechanism portion adapted to drive the lower support shaft of the lamp unit, the actuator being movable in a forward and backward direction with respect to the bracket; and a spring portion that is fixed to the bracket, and is adapted to compress a tip end of the upper support shaft. | 07-26-2012 |
20130027957 | VEHICLE HEADLAMP - The present invention is provided with a first lamp unit | 01-31-2013 |
20130039084 | VEHICLE HEADLAMP - The present invention provides: semiconductor-type light sources; a fixed reflector having reflection surfaces; movable reflectors having reflection surfaces; a solenoid; and a driving force transmission mechanism. The driving force transmission mechanism is made of: a rack that is elastically deformable; and pinions. A height H | 02-14-2013 |
20130058118 | VEHICLE LIGHTING DEVICE - In present invention, the vehicle lighting device includes a heat sink; a light emitting element that is mounted on the heat sink; and a reflector that is disposed on a side of a light emission surface of the light emitting element, the reflector being adapted to reflect light from the light emitting element in a first direction. The heat sink includes: a heat sink main body; and a plate-shaped light source mount member which is protruded from the heat sink main body in the first direction, and on which the light emitting element is to be disposed. A light source is disposed to tit with respect to a horizontal surface in a widthwise direction of the vehicle when a vehicle lighting device is mounted on the vehicle. | 03-07-2013 |
20130163265 | VEHICLE HEADLAMP - The present invention provides a semiconductor-type light source | 06-27-2013 |
20130163267 | VEHICLE HEADLAMP - The present invention provides a semiconductor-type light source | 06-27-2013 |
20130163269 | VEHICLE HEADLAMP - The present invention provides a semiconductor-type light source | 06-27-2013 |
20130242589 | VEHICLE HEADLAMP - The present invention provides a semiconductor-type light source | 09-19-2013 |
20130251450 | MOUNTING STRUCTURE OF VEHICLE COMPONENT - The present invention provides: an upside and a downside rotary shafts | 09-26-2013 |
Patent application number | Description | Published |
20130309582 | SOLID OXIDE FUEL CELL - Provided is a solid oxide fuel cell having a service life of approximately 90,000 hours, a level required to encourage the widespread use of SOFC. The solid oxide fuel cell is provided with a solid electrolyte layer, an oxygen electrode layer provided on one side of the solid electrolyte layer, and a fuel electrode layer provided on the other side of the solid electrolyte layer. The oxygen electrode layer is made from a material containing iron or manganese, and the solid electrolyte layer contains an yttria-stabilized zirconia solid electrolyte material having a lanthanoid oxide dissolved therein. | 11-21-2013 |
20130309583 | SOLID OXIDE FUEL CELL - Provided is a solid oxide fuel cell having a service life of approximately 90,000 hours, a level required to encourage the widespread use of SOFC. The solid oxide fuel cell according to the present invention comprises a solid electrolyte layer, an oxygen electrode layer provide to one side of the solid electrolyte layer, and a fuel electrode layer provide to the other side of the solid electrolyte layer. The oxygen electrode layer is made from a material including iron or manganese, the solid electrolyte layer is made from a scandia-stabilized zirconia electrolyte material containing alumina, and the solid electrolyte layer has a lanthanoid oxide and/or yttria dissolved therein. | 11-21-2013 |
20130316266 | SOLID ELECTROLYTE MATERIAL AND SOLID OXIDE FUEL CELL PROVIDED WITH SAME - Provided is a solid electrolyte material provided which, while maintaining a high oxygen ion conductivity, minimizes the extraction of scandia caused by impurities such as silicon in the fuel gas, and has improved intergranular strength in order to eliminate intergranular fracture caused by crystalline modification. The solid electrolyte material is a zirconia solid electrolyte material having yttria dissolved therein, has cubic crystals as the main ingredient, and is further characterized by having a lanthanoid oxide dissolved therein. | 11-28-2013 |
20130316267 | SOLID ELECTROLYTE MATERIAL AND SOLID OXIDE FUEL CELL PROVIDED THE SAME - Provided is a solid electrolyte material which, while maintaining high oxygen ion conductivity, minimizes the decomposition of scandia caused by impurities such as silicon in the fuel gas, and improves intergranular strength in order to eliminate intergranular fracture caused by crystalline modification. The solid electrolyte material is a zirconia solid electrolyte material having scandia and a lanthanoid oxide and/or yttria dissolved therein, and has alumina further added thereto. | 11-28-2013 |
20140023946 | SOLID OXIDE FUEL CELL DEVICE - To provide a fuel cell device capable of extending the years of service life of a reformer by suppressing thermal runaways. The present invention is a solid oxide fuel cell device, including a fuel cell module having fuel cell units; a reformer disposed above the fuel cell units, for producing hydrogen by a partial oxidation reforming reaction and a steam reforming reaction; a vaporizing chamber disposed adjacent to the reformer; a combustion chamber for heating the vaporization chamber; a water supply device; an electrical generation oxidant gas supply device; and a controller for raising the fuel cell units to a temperature at which electrical generation is possible; whereby over the entire period of the startup step, the reforming oxidant gas supply device and water supply device are controlled so that partial oxidation reforming reactions do not occur independently in the reformer. | 01-23-2014 |
20140023947 | SOLID OXIDE FUEL CELL DEVICE - To provide a fuel cell device capable of extending the years of service life of a reformer by suppressing thermal runaways. The present invention is a solid oxide fuel cell device, including a fuel cell module having multiple fuel cell units; a reformer disposed above the fuel cell units, for producing hydrogen by a partial oxidation reforming reaction and a steam reforming reaction; a vaporizing chamber disposed adjacent to the reformer; a combustion chamber for heating the vaporization chamber; a water supply device; a supply device for oxidant gas for electrical generation; and a controller for raising the fuel cell unit to a temperature at which electrical generation is possible; wherein fuel electrodes in each individual fuel cell unit are constituted to act as catalysts for a shift reaction, and the controller executes only the ATR step and SR step in the reformer. | 01-23-2014 |
Patent application number | Description | Published |
20160084470 | LAMP FOR VEHICLES - In a conventional lamp for vehicles, there may be a case in which any shuddering is generated. The present invention comprises a semiconductor-type light source, a lens, a lens holder, and a heat sink member. An attachment hook section is provided in the lens holder. Attachment sections are provided in the heat sink member. The attachment sections of the heat sink member are interposed between the lens holder and the attachment hook section. The present invention is capable of attaching the lens holder to the heat sink member without any shuddering being generated. | 03-24-2016 |
20160097504 | LAMP FOR VEHICLES - The present invention comprises a semiconductor-type light source, a lens, a lens holder, and a heat sink member. Positioning sections are provided in the lens and the lens holder, respectively. The positioning section in the lens holder comprises a pressing section and a positioning surface. The positioning section in the lens comprises a protrusion-receiving section and a positioning protrusion section. As a result, the present invention is capable of accurately positioning the lens, relative to the lens holder, in the standard optical axis direction of the lens. | 04-07-2016 |
20160102831 | VEHICLE HEADLAMP - In vehicle headlamps of the prior art, a low-beam light distribution pattern and a high-beam distribution pattern could not be obtained in a direct illumination lens-type lamp unit. The present invention is provided with a semiconductor light source, a lens, a light control member, and a drive member. The lens is composed of a main lens section and an auxiliary lens section. The drive member positions the light control member in a first position and a second position in a moveable and switchable manner. Consequently, the present invention enables a low-beam light distribution pattern and a high-beam light distribution pattern to be obtained in a direct illumination lens-type lamp unit. | 04-14-2016 |