Patent application number | Description | Published |
20110061803 | MANUFACTURING METHOD OF IMAGE DISPLAY APPARATUS, AND BONDING METHOD OF BASE MATERIAL - An image display apparatus manufacturing method comprises: arranging a bonding material between a pair of base materials acting as a first or second substrate and a frame member, wherein the bonding material includes a main portion extending along the frame member in a closed shape, and a thinner additional portion branching from the main portion as an elongation of a side constituting the main portion; and bonding, as mutually pressing to each other the base materials, the pair of the base materials by the bonding material, by irradiating an electromagnetic wave to the main portion while moving an irradiation position along the bonding material to melt the main portion, and then hardening the melted main portion. Thus, a crack having a possibility of occurrence and widening from the corners of the bonding material can be easily suppressed. | 03-17-2011 |
20110061804 | BONDING METHOD OF BASE MATERIALS, AND MANUFACTURING METHOD OF IMAGE DISPLAY APPARATUS - It arranges a bonding material between a pair of base materials having different heat capacities and in which a difference between thermal expansion coefficients thereof is within 10×10 | 03-17-2011 |
20110061805 | IMAGE DISPLAY APPARATUS MANUFACTURING METHOD - A bonding step of an image display apparatus manufacturing method includes, after bringing a first or second substrate opposite to a face of a frame member having a bonding material thereon into contact with the bonding material, bonding the first or second substrate opposite to the face of the frame member having the bonding material thereon and the frame member to each other, by irradiating a laser beam to the bonding material through at least a underlying layer. Here, the underlying layer includes a material which absorbs the laser beam easily, and the laser beam is irradiated to a predetermined range. Thus, in bonding of base materials by irradiation of the laser beam, it is possible to reduce damages such as occurrence of disconnection and short circuit in wirings, and achieve reliability and excellent airtightness of the image display apparatus. | 03-17-2011 |
20110061806 | MANUFACTURING METHOD OF IMAGE DISPLAY APPARATUS, AND BONDING METHOD OF BASE MATERIALS - A method comprises: arranging a bonding material between a pair of base materials; and bonding, as mutually pressing the pair of the base materials, the pair of the base materials by the bonding material, by irradiating an electromagnetic wave while moving an irradiation position along the bonding material to melt and then harden the bonding material, wherein the arranging includes arranging the bonding material on one of faces of the pair of the base materials so as to have a convex portion which continuously extends in a direction along which the bonding material extends and in which its central region in a width direction protrudes toward the other of the faces of the pair of the base materials. Thus, a stress according to heating and cooling of the base material is reduced and crack does not occur easily in a bonding portion. | 03-17-2011 |
20110100670 | JOINED UNIT OF GLASS BASE MEMBERS, AIRTIGHT ENVELOPE, AND METHOD FOR PRODUCING GLASS STRUCTURAL UNIT - A joined unit of glass base members is provided, comprising first and second glass base members and a joining member which extends along opposing surfaces of the first and second glass base members, wherein glass base member is elastically deformed while being depressed in an internal direction of the glass base member in the vicinity of an end portion in a widthwise direction of the joining member, a boundary surface between the elastically deformed glass base member and the joining member and a surface of the elastically deformed glass base member, which are disposed in the vicinity of the end portion in the widthwise direction of the joining member, are positioned on an internal side of the glass base member, and an area, in which a residual stress is a compressive stress, is formed in the vicinity of the end portion in the widthwise direction of the joining member. | 05-05-2011 |
20130171380 | JOINED UNIT OF GLASS BASE MEMBERS, AIRTIGHT ENVELOPE, AND METHOD FOR PRODUCING GLASS STRUCTURAL UNIT - A joined unit of glass base members is provided, comprising first and second glass base members and a joining member which extends along opposing surfaces of the first and second glass base members, wherein glass base member is elastically deformed while being depressed in an internal direction of the glass base member in the vicinity of an end portion in a widthwise direction of the joining member, a boundary surface between the elastically deformed glass base member and the joining member and a surface of the elastically deformed glass base member, which are disposed in the vicinity of the end portion in the widthwise direction of the joining member, are positioned on an internal side of the glass base member, and an area, in which a residual stress is a compressive stress, is formed in the vicinity of the end portion in the widthwise direction of the joining member. | 07-04-2013 |
Patent application number | Description | Published |
20100035396 | Semiconductor device and method of manufacturing the same - This disclosure concerns a manufacturing method of a semiconductor device includes forming a Fin-type body on an insulation layer, the Fin-type body being made of a semiconductor material and having an upper surface covered with a protective film; forming a gate insulation film on side surfaces of the Fin-type body; depositing a gate electrode material so as to cover the Fin-type body; planarizing the gate electrode material; forming a gate electrode by processing the gate electrode material; depositing an interlayer insulation film so as to cover the gate electrode; exposing the upper surface of the gate electrode; depositing a metal layer on the upper surface of the gate electrode; siliciding the gate electrode by reacting the gate electrode with the metal layer; forming a trench on the upper surface of the protective film by removing an unreacted metal in the metal layer; and filling the trench with a conductor. | 02-11-2010 |
20100213039 | MEMS ELEMENT AND METHOD OF MANUFACTURING THE SAME - A MEMS element of an aspect of the present invention including a first electrode provided on a substrate, a second electrode which is provided above the first electrode and which is driven toward the first electrode, an anchor provided on the substrate, a beam which supports the second electrode in midair, one end of the beam being connected to the anchor and the beam including a sidewall part provided at its end in the width direction, the sidewall part having a downward-facing protrusion. | 08-26-2010 |
20110063774 | MEMS DEVICE - According to one embodiment, a MEMS devise includes an electrode on a substrate, a movable structure which is supported in midair above the electrode by first and second anchor portions on the substrate, and moves toward the electrode, a first spring structure which connects the first anchor portion to the movable structure and uses a ductile material, and a second spring structure which connects the second anchor portion to the movable structure and uses a brittle material. | 03-17-2011 |
20120228726 | MEMS AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a MEMS includes a first electrode, a first auxiliary structure and a second electrode. The first electrode is provided on a substrate. The first auxiliary structure is provided on the substrate and adjacent to the first electrode. The first auxiliary structure is in an electrically floating state. The second electrode is provided above the first electrode and the first auxiliary structure, | 09-13-2012 |
20130182366 | MEMS DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a MEMS element comprises a first electrode fixed on a substrate, a second electrode formed above the first electrode to face it, and vertically movable, a first anchor portion formed on the substrate and configured to support the second electrode, and a first spring portion configured to connect the second electrode and the first anchor portion. The first spring portion includes a liner layer includes a brittle material in contact with the second electrode and the first anchor portion, and a base layer formed on the liner layer, includes a brittle material having a composition different from that of the liner layer, and having a film thickness larger than that of the liner layer. | 07-18-2013 |
20130285164 | MEMS DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a MEMS device comprises a first electrode fixed on a substrate, a second electrode formed above the first electrode to face the first electrode, and vertically movable, a second anchor portion formed on the substrate and configured to support the second electrode, and a second spring portion configured to connect the second electrode and the second anchor portion. The second spring portion is continuously formed from an upper surface of the second electrode to an upper surface of the second anchor portion, and has a flat lower surface. | 10-31-2013 |
20140231934 | ELECTRICAL COMPONENT AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, an electrical component comprises a substrate, a functional element formed on the substrate, a first layer configured to form a cavity which stores the functional element on the substrate, the first layer having through holes, the first layer having a first recessed portion and a first projecting portion on an upper surface thereof, and the first layer having different film thicknesses in a direction perpendicular to a surface of the substrate, and a second layer formed on the first layer and configured to close the through holes. | 08-21-2014 |
20140284730 | MEMS DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a MEMS device comprises a first electrode provided on a support substrate, a burying insulating film formed at the sides of the first electrode, and a second electrode opposed to the first electrode, having ends extending outside the ends of the first electrode and able to move in the direction it is opposed to the first electrode. | 09-25-2014 |
20140291780 | MEMS DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a MEMS device including a first electrode provided on a support substrate, a second electrode opposed to the first electrode, having at least one end part overlapping the first electrode, and able to move in a direction it is opposed to the first electrode, and beam parts provided on the support substrate and supporting the second electrode. The surface of that part of the first electrode, which opposes the end part of the second electrode, is set at a lower level than the surface of that part of the second electrode, which opposes a center part of the second electrode. | 10-02-2014 |
Patent application number | Description | Published |
20100009225 | FUEL CELL SYSTEM AND MOBILE BODY - A fuel cell system is provided with a fuel cell, an electric storage device, and a controller which determines a directed drive amount for a drive device. In the case where a drive request is input during a low-efficiency drive period in which power is supplied from the electric storage device, the directed drive amount after power generation by the fuel cell is begun is restrained. This arrangement allows a driving state to be smoothly changed even when power supply to the drive device is changed from power supply using the electric storage device alone to that using both the fuel cell and the electric storage device. | 01-14-2010 |
20100167142 | MOBILE BODY - The present invention has a theme of a mobile body capable of securing reliability of the mobile body at a time of start. The mobile body includes a driving force generation device which generates a driving force of the mobile body; a power accumulation device and a fuel cell capable of supplying a power to the driving force generation device; and a control device which controls driving of the driving force generation device. The control device prohibits to start driving the driving force generation device by the power supply of the power accumulation device, in a case where there is a possibility of failure in startup of the fuel cell when starting the mobile body. | 07-01-2010 |
20100228411 | MOBILE BODY - The present invention has a theme of a mobile body capable of suppressing rapid acceleration along a downward slope at a time of start. The mobile body comprises a driving force generation device which generates a driving force of the mobile body; a power accumulation device capable of supplying a power to the driving force generation device; a fuel cell capable of supplying a power to the driving force generation device; and a control device which controls driving of the driving force generation device. The control device prohibits to start driving the driving force generation device by the power supply of the power accumulation device in a case where the mobile body is positioned on a downward slope when starting the mobile body. | 09-09-2010 |
20110127944 | PARKING AND POWER CHARGING SYSTEM - When an arriving electric vehicle arrives at a car park with parking spaces, a parking state detection means in a parking and power charging system detects the presence of empty parking spaces. An assignment means assigns a ranking of charging performance to each detected empty parking space so that the empty parking space having the charging device of a higher charging performance has a higher ranking of charging performance on the basis of descending order of charging performance of the charging devices. A communication means obtains vehicle parameters of the arriving electric vehicle. A parking space instruction means instructs the arriving electric vehicle to move to and be parked in the empty parking space having the ranking of charging performance selected on the basis of the vehicle parameter such as necessity to charge or degree to easily charge the on-vehicle battery mounted on the arriving electric vehicle. | 06-02-2011 |
Patent application number | Description | Published |
20080204899 | Imaging lens and imaging device including the imaging lens - It is to provide an imaging lens and an imaging device including the imaging lens that can maintain optical performance and achieve size and weight reduction. | 08-28-2008 |
20100053777 | Imaging lens - It is to provide an imaging lens that can improve optical performance while reducing size and weight. | 03-04-2010 |
20100053778 | Imaging lens - It is to provide an imaging lens that can improve optical performance while reducing size and weight. | 03-04-2010 |
20100110566 | Imaging lens - It is to provide an imaging lens that can improve optical performance while reducing size and weight. | 05-06-2010 |
20120081910 | Light Beam Controlling Member and Optical Device including Light Beam Controlling Member - The invention is capable of easily suppressing deterioration of light distribution characteristics caused by unnecessary light with certainty, using a design that is not difficult to manufacture, and improving efficiency of light utilization. | 04-05-2012 |
20130063950 | LUMINOUS FLUX CONTROL MEMBER AND LIGHT-EMITTING APPARATUS INCLUDING THE SAME - A luminous flux control member that controls travelling direction of light emitted from a light source includes an incident area, an emission area, and a plurality of projecting sections. The plurality of projecting sections are constituted by an inner area, an intermediate area, and a peripheral area defined in the radial direction, and a first specific projecting section disposed in the inner area is configured such that a planar section that is used to measure the height of the first specific projecting section and is perpendicular to the optical axis is connected to an inner peripheral end and an outer peripheral end of a base end portion of the first specific projecting section. The projecting sections other than the first specific projecting section, in principle, come into contact internally or externally with another projecting section other than the first specific projecting section. | 03-14-2013 |
Patent application number | Description | Published |
20110249451 | LIGHT FLUX CONTROLLING MEMBER, LIGHT EMITTING DEVICE, AND LIGHTING DEVICE - In the light flux controlling member ( | 10-13-2011 |
20110286221 | LIGHT FLUX CONTROLLING MEMBER, LIGHT-EMITTING DEVICE AND LIGHTING DEVICE - A light flux controlling member capable of uniformly illuminating an illumination-target surface arranged approximately in parallel with an optical axis of a light-emitting device and reducing the weight of an lighting device is provided. An light flux controlling member is arranged on an edge side of an illumination-target member together with a light-emitting device ( | 11-24-2011 |
20110310618 | LUMINOUS FLUX CONTROL MEMBER AND OPTICAL APPARATUS HAVING THE SAME - A luminous flux control member can stabilize an optical performance, make manufacturing easy and improve efficiency of use of light at the same time. A reflection surface ( | 12-22-2011 |
20140293613 | LIGHT FLUX CONTROLLING MEMBER, LIGHT EMITTING DEVICE AND ILLUMINATION APPARATUS - A light flux controlling member has an incidence region and an emission region. The incidence region is assumed to have a plurality of virtual quadrangles that are disposed in such a manner that one fits into another, and have the same number of apexes as one another, and includes a plurality of convex parts each of which has a ridge line along a first virtual straight line that connects two adjacent apexes of the virtual quadrangle, and a plurality of wall portions each of which is disposed along a second virtual straight line that connects respective corresponding apexes of the virtual quadrangles. The wall portion is disposed continuously between a connection portion of the convex parts at an innermost side and a connection portion of the convex parts at an outermost side in the second virtual straight line. | 10-02-2014 |
20140355273 | LIGHT FLUX CONTROLLING MEMBER AND LIGHT EMITTING DEVICE - A luminous flux control member ( | 12-04-2014 |
Patent application number | Description | Published |
20110315313 | MANUFACTURING METHOD OF HERMETIC CONTAINER, AND MANUFACTURING METHOD OF IMAGE DISPLAYING APPARATUS - A manufacturing method of a highly-reliable hermetic container having both joining strength and airtightness is provided. Sealants of which a viscosity has a negative temperature coefficient and of which softening point is lower than that of each of first and second glass substrates are formed in a frame shape having a discontinuous portion on the first glass substrate, and the second glass substrate is disposed to face the first glass substrate so as to press the sealants formed thereon by contacting them. Local heating light is irradiated to form the discontinuous portion at a boundary between a region irradiated by the local heating light and a region not irradiated by the local heating light, and a portion adjacent to the discontinuous portion is heated and melted to close the discontinuous portion, whereby a continuous sealed portion between the first and second glass substrates is formed. | 12-29-2011 |
20120055196 | MANUFACTURING METHOD OF HERMETIC CONTAINER - A manufacturing method of a hermetic container includes an assembling step of assembling the hermetic container and a sealing step of sealing by first and second sealing materials. Thus, in a case where local heating light is scanned toward an already-sealed portion of the second sealing material, since a separation portion of an unsealed state is located between the already-sealed portion and a downstream end of scanning, a load due to expansion/contraction of a frame body is applied to the first sealing material which is present in the separation portion of the unsealed state. After then, since the local heating light is irradiated to the first sealing material to which the load has been applied so as to heat and melt it, the load is relieved, whereby it is possible to suppress deterioration of joining strength and airtightness of the hermetic container. | 03-08-2012 |
20120073727 | MANUFACTURING METHOD OF HERMETICALLY SEALED CONTAINER FOR HOLDING THEREIN ATMOSPHERE OF REDUCED PRESSURE - The present invention provides a hermetically sealed container offering a strength and airtightness which are reliable over time. A joining member having a viscosity of negative temperature coefficient, having a softening temperature lower than those of a pair of glass substrates and a frame member, and extending into a frame shape is arranged between one of the pair of glass substrates and the frame member so that the joining member contacts both the one of the pair of glass substrates and the frame member. Then, the joining member is heated and thermally melted while being pressed so that the center G of an incoming heat flux distribution in the width direction of the joining member is positioned at an inner space E rather than the center of the joining member in the width direction thereof. | 03-29-2012 |
Patent application number | Description | Published |
20120006153 | POWER TRANSMISSION DEVICE FOR VEHICLE - An output shaft is arranged to be lateral and parallel to engine input shafts and a motor input shaft. An engine side gear mechanism for transmitting a power of the engine input shafts to the output shaft is provided. A motor side gear mechanism for transmitting a power of the motor input shaft to the output shaft is provided. An input side clutch engages and disengages the engine input shafts and the motor input shaft. When the input side clutch is engaged, the power transmission between a position where the engine side gear mechanism is arranged on the engine input shafts and a position where the motor side gear mechanism is arranged on the motor input shaft is invariably possible. | 01-12-2012 |
20130157807 | VEHICLE DRIVING SYSTEM CONTROL APPARATUS - A vehicle driving system control apparatus includes a power transmission device and a power transmission control section. The power transmission device includes an engine input shaft, a motor input shaft, an output shaft, an engine-side gear mechanism transmitting a power of the engine input shaft to the output shaft, a motor-side gear mechanism transmitting a power of the motor input shaft to the output shaft, a first clutch enables and disables a power transmission between the engine input shaft and the motor input shaft, a second clutch enables and disables a power transmission between the motor-side gear mechanism and the output shaft, and a third clutch enables and disables a power transmission between the engine-side gear mechanism and the output shaft. The power transmission control section determines statuses of the clutches and required torques of motor generators in correspondence with a rotation speed of an axle. | 06-20-2013 |
20130166127 | VEHICLE DRIVING SYSTEM CONTROL APPARATUS - A vehicle driving system control apparatus includes a regeneration control section that performs a regeneration control when a vehicle is decelerated. In the regeneration control, the regeneration control section drives at least one of a first motor generator and a second motor generator with a power of an axle so as to charge a battery with an electric power generated with the at least one of the first motor generator and the second motor generator. The regeneration control section selects a mode of the regeneration control by controlling engagement and disengagement statuses of first to third clutches in correspondence with at least one of a target energy regeneration amount, a required brake torque and a vehicle speed. | 06-27-2013 |
20130276576 | DRIVE FORCE TRANSMISSION APPARATUS - A first tubular shaft is placed on a radially outer side of a countershaft. A second tubular shaft is placed on a radially outer side of the first tubular shaft. A first driven gear is provided at one end portion of the first tubular shaft and is meshed with a first drive gear. A second driven gear is provided at one end portion of the second tubular shaft and is meshed with a second drive gear. A second secondary coupling portion is provided at the countershaft. A second primary coupling portion is provided at the other end portion of the first tubular shaft. The second primary coupling portion is engageable with the second secondary coupling portion. A third primary coupling portion is provided at the other end portion of the second tubular shaft. The third primary coupling portion is engageable with the second secondary coupling portion. | 10-24-2013 |
20130324360 | CONTROL APPARATUS FOR VEHICLE DRIVING SYSTEM - A first slip travel mode is traveling or starting in a state where a first clutch is fully connected and a third clutch is fully disconnected while a second clutch is slipped. A second slip travel mode is traveling or starting in a state where the first clutch is fully connected and the second clutch is fully disconnected while the third clutch is slipped. An overheat avoidance mode is traveling or starting in a state where the first clutch is fully disconnected and the second clutch is fully connected while the third clutch is slipped. When the second clutch is in a high-temperature state under the first slip travel mode or the third clutch is in a high-temperature state under the second slip travel mode, the slip travel mode is switched into the overheat avoidance mode. This reduces a heat value of the second clutch or third clutch. | 12-05-2013 |
20140379194 | POWER TRANSMISSION DEVICE FOR VEHICLE - An output shaft is arranged to be lateral and parallel to engine input shafts and a motor input shaft. An engine side gear mechanism for transmitting a power of the engine input shafts to the output shaft is provided. A motor side gear mechanism for transmitting a power of the motor input shaft to the output shaft is provided. An input side clutch engages and disengages the engine input shafts and the motor input shaft. When the input side clutch is engaged, the power transmission between a position where the engine side gear mechanism is arranged on the engine input shafts and a position where the motor side gear mechanism is arranged on the motor input shaft is invariably possible. | 12-25-2014 |
20140379195 | POWER TRANSMISSION DEVICE FOR VEHICLE - An output shaft is arranged to be lateral and parallel to engine input shafts and a motor input shaft. An engine side gear mechanism for transmitting a power of the engine input shafts to the output shaft is provided. A motor side gear mechanism for transmitting a power of the motor input shaft to the output shaft is provided. An input side clutch engages and disengages the engine input shafts and the motor input shaft. When the input side clutch is engaged, the power transmission between a position where the engine side gear mechanism is arranged on the engine input shafts and a position where the motor side gear mechanism is arranged on the motor input shaft is invariably possible. | 12-25-2014 |