Yasuhira
Makoto Yasuhira, Kanagawa-Ken JP
Patent application number | Description | Published |
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20150127182 | POWER MANAGEMENT METHOD, POWER MANAGEMENT SERVER, AND OFFICE MACHINE FOR MANAGING ELECTRIC POWER - According to one embodiment, there is provided a power management method for connecting a server to office machines to control electric power of the office machines. The office machines respectively store machine side power plans, which are operation states with respect to transition times. The server stores server side power plans of the office machines and subjects electric powers of the office machines to management control. The power management method includes comparing the server side power plan stored in the server and the machine side power plan stored in the office machines, comparing, when an operation state based on the server side power plan and an operation state based on the machine side power plan are different, power consumptions in the operation state based on the server side power plan and an operation state based on the machine side power plan, and changing an operation state of the office machine to be an operation state with small power consumption. | 05-07-2015 |
Masanori Yasuhira, Iwakuni-Shi JP
Patent application number | Description | Published |
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20100180550 | Bag opening method and apparatus for use in bag filling and packaging - A bag opening method and apparatus for use in bag filling and packaging in which a bag B is gripped at its laterally opposite side edges with a pair of gripping members and moved along a predetermined path. A pair of suction cups | 07-22-2010 |
20130167481 | Method for Sealing-in a Gas in a Bag with a Gas Filling Compartment - A method for sealing-in a gas in a bag that has therein a gas filling compartment, including the steps of: placing a blow-out port of a nozzle, which is connected to a pressurized gas supply source, against a cut-in or a hole of the bag and holding the back surface side of the bag with a backing member; blowing a gas from the nozzle into the gas filling compartment of the bag through the cut-in or the hole; gripping and thus closing the gas flow path in sealed portions surrounding the periphery of the cut-in or the hole by a blocking gripper while the gas blow-in continues, thus cutting off the flow of the gas between the cut-in or the hole and the inside of the gas filling compartment; and then sealing the cut-in or the hole, thus allowing the gas to be sealed in the gas filling compartment. | 07-04-2013 |
20140083061 | Method and Apparatus for Manufacturing Spout-Equipped Bags - Method and apparatus for manufacturing spout-equipped bags in which the lateral sides of a bag are gripped by a pair of grippers, the bag is conveyed along a conveying path, and a spout is attached to the bag mouth during the conveyance. Unloading suction members adheres by suction to a bag in a horizontal orientation and takes out the bag; and then bag suction members adheres to the bag and changes the bag into a vertical orientation, the bag is then rotated through a predetermined angle, making the bag mouth horizontal. A transfer chuck grips the bag and conveys it towards grippers, and the bag is displaced a predetermined distance horizontally and supplied to the grippers. The horizontal displacement distance of the transfer chuck is set in advance such that gripping margins on the bag for the grippers are made substantially equal on the left and right of the bag. | 03-27-2014 |
Mitsuo Yasuhira, Osaka JP
Patent application number | Description | Published |
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20120037960 | SOLID-STATE IMAGING DEVICE - A solid-state imaging device according to the present invention is of a MOS type and includes a plurality of pixels arranged in rows and columns, and includes: a semiconductor substrate; a photodiode which is formed in the semiconductor substrate and converts, into a signal charge, light that is incident from a first main surface of the semiconductor substrate; a transfer transistor which is formed in a second main surface of the semiconductor substrate and transfers the signal charge converted by the photodiode; a light shielding film which is conductive and formed on a boundary between the pixels, above the first main surface of the semiconductor substrate; an overflow drain region electrically connected to the light shielding film and formed in the first main surface of the semiconductor substrate; and an overflow barrier region formed between the overflow drain region and the photodiode. | 02-16-2012 |
20140117486 | SOLID-STATE IMAGE PICKUP DEVICE - A solid-state imaging apparatus having a plurality of pixels, comprising: a substrate; a wiring layer formed on the substrate and including an insulating film and a plurality of wires; a plurality of lower electrodes formed on the wiring layer in one-to-one correspondence with the plurality of pixels; a photoelectric conversion film formed covering the plurality of lower electrodes; a light-transmissive upper electrode formed on the photoelectric conversion film; and a shield electrode extending through a gap between each pair of adjacent lower electrodes among the plurality of lower electrodes, the shield electrode having a fixed potential and being electrically insulated from the plurality of lower electrodes. | 05-01-2014 |