Tomohiro Sugimoto
Tomohiro Sugimoto, Tochigi-Ken JP
Patent application number | Description | Published |
---|---|---|
20100319182 | DEVICE AND METHOD FOR MOUNTING VEHICLE INSTRUMENT PANEL - A device for mounting a vehicle instrumental panel has an assist machine and work robots. The assist machine has instrument panel holding means for holding an instrument panel, conveys the instrument panel, and has an assist function for holding the weight of the instrument panel. The work robots have connection means removably connected to the instrument panel holding means and operate the instrument panel holding means to place the instrument panel in a vehicle interior. | 12-23-2010 |
Tomohiro Sugimoto, Minamisaitama-Gun JP
Patent application number | Description | Published |
---|---|---|
20110116081 | REFRACTIVE INDEX DISTRIBUTION MEASURING METHOD AND REFRACTIVE INDEX DISTRIBUTION MEASURING APPARATUS - The method includes first and second steps of placing an object in first and second media whose refractive indices are lower than that of the object, and of causing the reference light to enter the object to measure first and second transmitted wavefronts. When light rays entering a peripheral portion of the object and passing through a same point of the object are defined as first and second light rays, the method causes these light rays to proceed in directions mutually different to change an NA of the reference light such that the reference light after being transmitted through the object is brought closer to collimated light than that before entering the object. The method calculates an effective thickness of the object using geometric thicknesses thereof and calculates a refractive index distribution thereof using the first and second transmitted wavefronts and the effective thickness. | 05-19-2011 |
20120069350 | MEASURING METHOD OF REFRACTIVE INDEX AND MEASURING APPARATUS OF REFRACTIVE INDEX - A measuring method includes measuring a sum of an optical path length of a test object and a first medium in a first container, introducing light into an area that includes the first medium but does not include the test object and measuring the optical path length of the first medium, measuring a sum of the optical path length of the test object and a second medium in a second container, the second medium having a refractive index different from that of the first medium, introducing the light into an area that includes the second medium but does not include the test object and of measuring the optical path length of the second medium, and calculating a refractive index of the test object based on the measured optical path lengths and an actual distance of an optical path for which each optical path length is measured. | 03-22-2012 |
Tomohiro Sugimoto, Hagagun JP
Patent application number | Description | Published |
---|---|---|
20110208347 | MACHINING SYSTEM AND METHOD - According to the present invention, even during and immediately before a machining operation by a machining apparatus, it is possible to improve positioning control accuracy thereof and, as a result, machining accuracy thereof. A robot 11 equipped with a machining tool 12 performs a moving operation to a target position 41 of a machining target workpiece 2 and a machining operation on the machining target. A robot moving mechanism 14 moves the robot 11 in parallel with the workpiece 2 that is being conveyed by a conveyance carriage 18. A robot control device 17 controls movement of the robot moving mechanism 14 using a detection result of a synchronizing sensor 15 and carries out positioning control of the robot 11 using the detection result of a visual sensor 13 or a synchronizing sensor 15. | 08-25-2011 |
20140353116 | PART MOUNTING FACILITY AND PART MOUNTING METHOD - A part mounting facility is provided with substantially U-shaped conveyance paths having return bends, and the substantially U-shaped conveyance paths are formed by providing conveyance paths, which are in part mounting work regions, with the return bends. The substantially U-shaped conveyance paths are connected to each other, and the upstream-most substantially U-shaped conveyance path among the connected substantially U-shaped conveyance paths is connected to the downstream-most substantially U-shaped conveyance path to enable a workpiece conveyance dolly to circulate along the conveyance paths. | 12-04-2014 |
Tomohiro Sugimoto, Toyonaka-Shi JP
Patent application number | Description | Published |
---|---|---|
20120239188 | Medicine Packing Apparatus - Provided is a medicine packing apparatus which is capable of packing of medicines so that relations between the medicines and production-history information pieces can be clearly understood even when the medicines prepared as one dose include medicines having different production-history information pieces while being of the same type. Control means ( | 09-20-2012 |
20150082744 | MEDICINE PACKAGING DEVICE, INK RIBBON RUNNING CONTROL METHOD, INK RIBBON ROLL AND INK RIBBON CASSETTE - Provided is a medicine packaging device. The medicine packaging device includes: a reader-writer that reads information from an IC tag installed at a supply core of an ink ribbon roll detachably installed to an ink ribbon cassette as well as writes information to the IC tag; a motor control unit that controls a winding motor for rotating a winding core, based on a used length of the ink ribbon which is information read from the IC tag, so that the ink ribbon of the ink ribbon roll runs in a winding direction at a higher speed than a feeding speed of a continuous sheet for packaging; and a written information output unit that outputs information showing the used length of the ink ribbon which has been changed due to use of the ink ribbon, to the reader/writer as information written on the IC tag. | 03-26-2015 |
Tomohiro Sugimoto, Yoshikawa-Shi JP
Patent application number | Description | Published |
---|---|---|
20120241989 | REFRACTIVE INDEX DISTRIBUTION MEASURING METHOD AND REFRACTIVE INDEX DISTRIBUTION MEASURING APPARATUS - A method includes measuring a transmitted wavefront of a test object by introducing reference light into the test object arranged in a medium having a refractive index different from a refractive index of the test object, and calculating a refractive index distribution of the test object by using a measurement result of the transmitted wavefront. The measuring step measures a first transmitted wavefront for a first wavelength and a second transmitted wavefront for a second wavelength different from the first wavelength. The calculating step calculates the refractive index distribution of the test object by removing a shape component of the test object utilizing measurement results of the first and the second transmitted wavefront, and a transmitted wavefront of a reference object arranged in the medium for each of the first and second wavelengths. The reference object has the same shape as the test object and a specific refractive index distribution. | 09-27-2012 |
20140009765 | METHOD OF MEASURING REFRACTIVE INDEX DISTRIBUTION, METHOD OF MANUFACTURING OPTICAL ELEMENT, AND MEASUREMENT APPARATUS OF REFRACTIVE INDEX DISTRIBUTION - A method of measuring a refractive index distribution includes steps of setting a plurality of different arrangements by a translation movement in a state where an object is arranged in first and second media having refractive indices different from a refractive index of the object, measuring transmissive wavefront of the object for each of media and each of the plurality of arrangements by reference light entering the object (S | 01-09-2014 |
Tomohiro Sugimoto, Tochigi JP
Patent application number | Description | Published |
---|---|---|
20130299510 | NUT FEEDING SYSTEM - Provided is a nut feeding system for feeding a nut smoothly and efficiently without the occurrence of nut clogging or the like. A posture alignment device | 11-14-2013 |