Sugiyama, Hamamatsu-Shi
Daisuke Sugiyama, Hamamatsu-Shi JP
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20100006369 | Vehicle exhaust device - In a vehicle exhaust device, rear wheels are disposed outside of rear side members extending in a vehicle front-rear direction. Opening portions are formed at side portions, in the vehicle width-direction, of a rear bumper. Diffusers extending into the rear bumper are mounted in the opening portions. Mufflers are disposed at a rear portion of the vehicle with axes of the mufflers extending in the vehicle front-rear direction, and tail pipes connected to rear end faces of the mufflers are inserted into the diffusers while spaced from inner peripheries of the diffusers. The mufflers are disposed on rear sides of the rear wheels in the vehicle front-rear direction with outer peripheral faces of the mufflers protruding outside the rear side members in the vehicle-width direction, and with the rear end faces of the mufflers facing front end opening portions of the diffusers. | 01-14-2010 |
Kazuo Sugiyama, Hamamatsu-Shi JP
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20100251993 | BI-FUEL INTERNAL COMBUSTION ENGINE - A bi-fuel internal combustion engine comprises an engine body having a cylinder axis inclined toward one side; a branched intake pipe extending from a cylinder head at an inclined upper face side of the engine body to the other side; liquid fuel injection valves for injecting liquid fuel to the intake pipe; and gas fuel injection valves for injecting a gas fuel to the intake pipe. The liquid fuel injection valves are arranged in the vicinity of the cylinder head at one side of the intake pipe, and the gas fuel injection valves are arranged at an upper side exceeding the highest position of a cylinder head cover mounted on the cylinder head at one side of the liquid fuel injection valves. | 10-07-2010 |
Mototsugu Sugiyama, Hamamatsu-Shi JP
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20140016752 | RADIATION IMAGE ACQUISITION DEVICE - A radiation image acquisition device includes: a radiation source which emits radiation; a wavelength conversion member which generates scintillation light according to incidence of the radiation emitted from the radiation source and transmitted by an object; first imaging means which condenses and images the scintillation light emitted from an entrance surface for the radiation in the wavelength conversion member; and second imaging means which condenses and images the scintillation light emitted from a surface opposite to the entrance surface in the wavelength conversion member, wherein one of the first imaging means and the second imaging means condenses the scintillation light emitted from the entrance surface or the opposite surface in a direction of a normal thereto, and wherein the other condenses the scintillation light emitted from the entrance surface or the opposite surface in a direction inclined with respect to a direction of a normal thereto. | 01-16-2014 |
20140016753 | RADIATION IMAGE ACQUISITION DEVICE - A radiation image acquisition device includes: a radiation source which emits radiation; a wavelength conversion member of a flat plate shape which generates scintillation light according to incidence of the radiation emitted from the radiation source and transmitted by an object; first imaging means which condenses and images the scintillation light emitted from an entrance surface for the radiation in the wavelength conversion member in a direction of a normal to the entrance surface; and second imaging means which condenses and images the scintillation light emitted from a surface opposite to the entrance surface in the wavelength conversion member in a direction of a normal to the opposite surface. | 01-16-2014 |
20140016754 | RADIATION IMAGE ACQUISITION DEVICE - A radiation image acquisition device includes: a radiation source which emits radiation; a wavelength conversion member of a flat plate shape which generates scintillation light according to incidence of the radiation emitted from the radiation source and transmitted by an object; first imaging means which condenses and images the scintillation light emitted from an entrance surface for the radiation in the wavelength conversion member in a direction inclined with respect to a direction of a normal to the entrance surface; and second imaging means which condenses and images the scintillation light emitted from a surface opposite to the entrance surface in the wavelength conversion member in a direction inclined with respect to a direction of a normal to the opposite surface. | 01-16-2014 |
20140021372 | SCINTILLATOR PLATE - This scintillator plate | 01-23-2014 |
20140211918 | SCINTILLATOR PLATE - This scintillator plate | 07-31-2014 |
Norikazu Sugiyama, Hamamatsu-Shi JP
Patent application number | Description | Published |
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20130088719 | MEMBRANE POTENTIAL CHANGE DETECTION DEVICE AND MEMBRANE POTENTIAL CHANGE DETECTION METHOD - A membrane potential change detection device | 04-11-2013 |
20130130307 | CELL OBSERVATION DEVICE AND CELL OBSERVATION METHOD - A cell observation device is provided with a reflection interference shutter | 05-23-2013 |
20130288286 | CELL OBSERVATION DEVICE AND CELL OBSERVATION METHOD - A cell observation device is provided with a reflection interference measurement light source | 10-31-2013 |
20140064594 | CELL ANALYSIS METHOD, CELL ANALYSIS DEVICE, AND CELL ANALYSIS PROGRAM - Provided is a cell analysis method in a cell analysis device D that uses an optical path length image of a cell colony formed of a large number of cells to analyze the cell colony, the method comprising: acquiring the optical path length image of the cell colony by an acquisition unit of the cell analysis device; extracting a circular shape corresponding to a cell nucleus of the cell in the acquired optical path length image by an extraction unit of the cell analysis device extracts; comparing an inner optical path length of the extracted circular shape and an outer optical path length of the extracted circular shape by a comparison unit of the cell analysis device extracts; and analyzing the cell colony based on the comparison result by analysis unit of the cell analysis device. | 03-06-2014 |
20140073002 | METHOD FOR DETERMINING DIFFERENTIATION LEVEL OF PLURIPOTENT STEM CELLS - The present invention provides a method for determining differentiation level of pluripotent stem cell, comprising a step of determining a flatness of cultured pluripotent stem cell, wherein the flatness is an indication. | 03-13-2014 |
20140287452 | METHOD FOR OBSERVING STEM CELLS, METHOD FOR REMOVAL OF CELL REGION IN STATE TENDING TOWARD DIFFERENTIATION, AND DEVICE FOR OBSERVING STEM CELLS - A method for observing stem cells by an observation device | 09-25-2014 |
Shuichi Sugiyama, Hamamatsu-Shi JP
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20130149920 | COOLING WATER PASSAGE STRUCTURE OF OUTBOARD MOTOR - An outboard motor has a driveshaft and a propeller shaft connected to each other while placing gears in between in a casing of a lower unit. A cooling water passage structure of the motor has main water intakes provided on the left and right of the casing, a cooling water passage which guides therethrough water taken up through the main water intakes to a cooling water pump, and sub water intakes disposed on the left and right of the pointed portion of the gear case provided to the casing to give an appearance of bullet in the front-back direction. The sub water intake on the left is allowed to communicate through a left cooling water passage with the main water intake on the left. The sub water intake on the right is allowed to communicate through a right cooling water passage with the main water intake on the right. | 06-13-2013 |
Tatsuhiko Sugiyama, Hamamatsu-Shi JP
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20150070941 | Electrostatic Induction Conversion Device and DC-DC Converter - An electrostatic induction conversion device includes: an input-side electrostatic actuator that includes a first fixed electrode and a first movable electrode facing the first fixed electrode; and an output-side electrostatic actuator that includes a second movable electrode linked to the first movable electrode via a link mechanism member, which increases or decreases a displacement quantity representing an extent of displacement occurring at the first movable electrode, and a second fixed electrode facing the second movable electrode, wherein: a permanently charged layer is deposited on an electrode surface either on a movable electrode side or on a fixed electrode side, at the input-side electrostatic actuator and the output-side electrostatic actuator. | 03-12-2015 |
Yuichi Sugiyama, Hamamatsu-Shi JP
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20120228089 | PINCH ROLLER LIFTING MECHANISM - The present invention is related to a pinch roller lifting mechanism. The pinch roller lifting mechanism includes drive rollers for holding and transferring a medium, the drive rollers arranged adjacent to each other along a first axis, pinch rollers for holding the medium with the drive rollers, a plate-like member extending along the first axis, wherein the plate-like member includes an opening, a support member having a first end section on which the pinch rollers are provided, a cam slidably provided on the plate-like member, the cam comprising a guide section that abuts against a second end section of the support member and engages the opening of the plate-like member, a pulley operationally connected to a drive motor for pulling the plate-like member in a first direction, and a spring that biases the plate-like member in a direction opposite to the first direction. | 09-13-2012 |