Patent application number | Description | Published |
20090244707 | VEHICLE ACCESSORY - The present invention provides a vehicle accessory which always provides good visibility, can easily be installed, and has excellent appearance. The vehicle accessory includes a light controlling sheet which is attached on a windshield of a vehicle, a rearview mirror, and a mirror support member. The rearview mirror has a mirror housing, a mirror plate, a front light receiving sensor, and a rear light receiving sensor, and the mirror housing encloses a circuit board which applies a value of voltage according to a received light quantity of the rear light receiving sensor to the mirror plate, and applies a value of voltage according to a received light quantity of the front light receiving sensor to the light controlling sheet, and a power supply unit which supplies power to the circuit board. Wires and electrode lead out portions are enclosed in the mirror support member connected to the inside of the mirror housing. | 10-01-2009 |
20100026035 | VEHICLE ACCESSORY - The present invention provides a vehicle accessory which reliably blocks the sunlight without any mechanical operation. The vehicle accessory includes: a light controlling sheet which is attached to the windshield of a vehicle, and of which light transmittance changes according to a value of voltage; and a rear view mirror which insures a rear view of the vehicle. The rear view mirror has a front light receiving sensor which measures illumination intensity of the sunlight which enters from the front of the vehicle, a rear light receiving sensor which measures illumination intensity inside the vehicle, and a circuit board which controls voltage to be applied to the light controlling sheet. When a combination of the illumination intensity of the sunlight received by the front light receiving sensor and the illumination intensity inside the vehicle received by the rear light receiving sensor is a combination stored in storage unit in advance, the circuit board applies voltage to the light controlling sheet. | 02-04-2010 |
Patent application number | Description | Published |
20080292805 | METHOD FOR MANUFACTURING STAMPER, METHOD FOR MANUFACTURING NANOHOLE STRUCTURE, AND METHOD FOR MANUFACTURING MAGNETIC RECORDING MEDIUM - According to an aspect of an embodiment, a method for manufacturing a stamper for duplicating a pit pattern on a substrate includes forming on another substrate, a layer of a material insoluble to a liquid of a suspension of particles in a pattern having a plurality of land portions and a plurality of groove portions between the land portions, and dipping the another substrate having the layer of the material having the pattern in the liquid of the suspension of the particles so that the particles are adhered to the groove portions. The-method further includes forming a mold having a plurality of pits corresponding to the particles by transferring the shapes of the particles on the another substrate to the mold, and forming a stamper having a plurality of protrusions corresponding to the pits by transferring the shapes of the pits of the molds to the stamper. | 11-27-2008 |
20090045550 | TRANSCRIPTION MOLD FIXATION APPARATUS AND SUBSTRATE REMOVING METHOD - According to an aspect of an embodiment, a transcription mold fixation apparatus includes a support base, a magnet, a pin, and a regulating mechanism. The support base receives, on a surface thereof, a transcription mold having a center hole formed therein and containing a magnetic material, and the support base has a through hole aligned to the center hole. The magnet is incorporated in the support base, and fixes the transcription mold to the surface of the support base. The pin extends through the through hole. The regulating mechanism causes the magnet to be spaced apart from the magnetic material. | 02-19-2009 |
20090206513 | METHOD OF MANUFACTURING MOLDED PRODUCT AND METHOD OF MANUFACTURING STORAGE MEDIUM - A method of manufacturing a molded product includes forming a coat film for covering and concealing particles with the surface of a board while filling the gaps among the particles, and separating the coat film for holding the particles on the reverse side from the board. The coat film and the particles are etched from the reverse side of the separated coat film, the particles are removed from the coat film, and an array of dents carved by the particles is formed on the reverse side of the coat film. A film is formed on the reverse side of the coat film, and a molded product having an array of protrusions on the surface is formed from the film. | 08-20-2009 |
20090244785 | MAGNETIC RECORDING MEDIUM, MAGNETIC RECORDING/REPRODUCTION DEVICE, AND METHOD OF MANUFACTURING MAGNETIC RECORDING MEDIUM - A magnetic recording medium suppresses effectively side erasure even when recording dot intervals are reduced. Magnetic dots and a soft magnetic layer are provided on a soft magnetic underlayer with a nonmagnetic layer intervening, so that magnetic dots are separated by the soft magnetic layer, and consequently leakage flux during recording to magnetic dots is absorbed by the soft magnetic layer, side erasure can be suppressed, and moreover the soft magnetic underlayer and soft magnetic layer are separated, so that an influence on recording/reproduction characteristics can be prevented. | 10-01-2009 |
20090297169 | Optical signal receiving apparatus and optical signal attenuation controlling method - A VOA maximum attenuation control circuit has, in addition to a conventional VOA maximum attenuation control circuit, a first resistor and a second resistor, a transistor which is an emitter follower type PNP transistor, and a capacitor. Since charge of the capacitor is 0 volt at the instant when power of the optical interface unit or each optical interface is shifted from OFF state to ON state, current is supplied to a VOA by the transistor in association with shift to the ON state of the power. As a result, attenuation of the VOA reaches maximum. When the capacitor is gradually charged, base potential of the transistor is finally +5 volts, and current is 0 ampere. Then shifting to maximum attenuation control of the VOA by an operational amplifier is realized. | 12-03-2009 |