Patent application number | Description | Published |
20120002348 | ELECTRIC DOUBLE LAYER CAPACITOR, LITHIUM ION CAPACITOR AND MANUFACTURING METHOD THEREOF - A thin energy storage device having high capacity is obtained. An energy storage device having high output is obtained. A current collector and an active material layer are formed in the same manufacturing step. The number of manufacturing steps of an energy storage device is reduced. The manufacturing cost of an energy storage device is suppressed. One embodiment of the present invention relates to an electric double layer capacitor which includes a pair of electrodes including a porous metal material, and an electrolyte provided between the pair of electrodes; or a lithium ion capacitor which includes a positive electrode that is a porous metal body functioning as a positive electrode current collector and a positive electrode active material layer, a negative electrode including a negative electrode current collector and a negative electrode active material layer, and an electrolyte provided between the positive electrode and the negative electrode. | 01-05-2012 |
20120032170 | Electric Double-Layer Capacitor and Solar Power Generation Device - The present invention relates to a solar power generation device which includes an electric double-layer capacitor and a solar cell. The electric double-layer capacitor includes a pair of current collectors formed using a light-transmitting conductive material; active materials which are dispersed on the pair of current collectors; a light-transmitting electrolyte layer which is provided between the pair of current collectors; and a terminal portion which is electrically connected to the current collector. The solar cell includes, over a light-transmitting substrate, a first light-transmitting conductive film; a photoelectric conversion layer which is provided in contact with the first light-transmitting conductive film; and a second light-transmitting conductive film which is provided in contact with the photoelectric conversion layer. The electric double-layer capacitor and the solar cell are electrically connected to each other through the terminal portion, the first light-transmitting conductive film, and the second light-transmitting conductive film. | 02-09-2012 |
20120073984 | METHOD FOR RECOVERING METALLIC LITHIUM - An object is to recover metallic lithium from metallic lithium on which an unnecessary substance is formed without discarding the metallic lithium on which an unnecessary substance is formed. The present invention relates to a method for recovering metallic lithium in such a manner that metallic lithium on which a substance is formed is reacted with nitrogen to form lithium nitride; the lithium nitride is reacted with carbon dioxide to form lithium carbonate; the lithium carbonate is reacted with hydrochloric acid to form lithium chloride; the lithium chloride and potassium chloride are melted; and electrolysis is applied to the melted lithium chloride and potassium chloride. | 03-29-2012 |
20120126231 | Electric Double Layer Capacitor, Lithium Ion Capacitor, and Charging Device - An electric double layer capacitor, a lithium ion capacitor, and a charging device including a solar cell and either of the capacitors are disclosed. The electric double layer capacitor includes a first and second light-transmitting substrates; a pair of current collectors provided perpendicular to the substrates; active material layers provided on facing planes of the current collectors; and an electrolyte in a region surrounded by the substrates and the facing active material layers. The lithium ion capacitor includes a first and second light-transmitting substrates; a positive and negative electrode active material layers provided perpendicular to the substrates; and an electrolyte in a region surrounded by the facing substrates and the positive and negative electrode active material layers. | 05-24-2012 |
20120308891 | METHOD OF MANUFACTURING ELECTRODE - To increase the conductivity and electric capacity of an electrode which includes active material particles and the like and is used in a battery, a graphene net including 1 to 100 graphene sheets is used instead of a conventionally used conduction auxiliary agent add binder. The graphene net which has a two-dimensional expansion and a three-dimensional structure is more likely to touch active material particles or another conduction auxiliary agent, thereby increasing the conductivity and the bonding strength between active material particles. This graphene net is obtained by mixing graphene oxide and active material particles and then heating the mixture in a vacuum or a reducing atmosphere. | 12-06-2012 |
20120308894 | POWER STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A negative electrode and a power storage device are provided, which have one of an alloy-based particle and an alloy-based whisker and a carbon film including 1 to 50 graphene layers. A surface of the alloy-based particle or the alloy-based whisker is covered with the carbon film. In addition, a method of manufacturing a negative electrode and a method of manufacturing a power storage device are provided, which have the step of mixing an alloy-based particle or an alloy-based whisker with graphene oxide, and the step of heating the mixture in a vacuum or in a reducing atmosphere. | 12-06-2012 |
20120328956 | MULTILAYER GRAPHENE AND POWER STORAGE DEVICE - To provide graphene through which ions can transfer in the direction perpendicular to a plane of the graphene. Multilayer graphene includes a plurality of graphenes stacked in a layered manner. The plurality of graphenes contain a six-membered ring composed of carbon atoms, a poly-membered ring which is a seven or more-membered ring composed of carbon atoms or carbon atoms and one or more oxygen atoms, and an oxygen atom bonded to one of the carbon atoms in the six-membered ring and the poly-membered ring, which is a seven or more-membered ring. The interlayer distance between adjacent graphenes of the plurality of graphenes is greater than 0.34 nm and less than or equal to 0.5 nm, preferably greater than or equal to 0.38 nm and less than or equal to 0.42 nm. | 12-27-2012 |
20130052522 | CARBON-BASED NEGATIVE ELECTRODE MATERIAL AND SECONDARY BATTERY INCLUDING NEGATIVE ELECTRODE MATERIAL - To provide a carbon-based negative electrode material which can be used with an electrolyte containing PC as a main ingredient, a carbon-based negative electrode material having a graphene layer structure is crystalline and has pores. That is, the crystal structure of the carbon-based negative electrode material is distorted more significantly than that of graphite. Accordingly, the carbon-based negative electrode material has a larger interlayer distance between graphenes than graphite. It has been shown that such a negative electrode material can be used for a secondary battery which contains an electrolyte containing PC as a main ingredient. | 02-28-2013 |
20130183226 | GRAPHITE OXIDE, GRAPHENE OXIDE OR GRAPHENE, ELECTRIC DEVICE USING THE SAME AND METHOD OF MANUFACTURING THE SAME, AND ELECTRODIALYSIS APPARATUS - Highly-pure graphite oxide, graphene oxide, or graphene is mass-produced. Graphite is oxidized by an oxidizer, so that a graphite oxide solution is obtained, and electrodialysis is performed on the graphite oxide solution to remove aqueous ions, whereby the purity of graphite oxide is increased. Graphene oxide manufactured using the graphite oxide is mixed with powder, and the mixture is reduced, whereby graphene exhibiting conductive properties is yielded and the powder can be bonded. Such graphene can be used instead of a conduction auxiliary agent or a binder of a variety of batteries. | 07-18-2013 |
20130266869 | GRAPHENE AND POWER STORAGE DEVICE, AND MANUFACTURING METHOD THEREOF - The formation method of graphene includes the steps of forming a layer including graphene oxide over a first conductive layer; and supplying a potential at which the reduction reaction of the graphene oxide occurs to the first conductive layer in an electrolyte where the first conductive layer as a working electrode and a second conductive layer with a as a counter electrode are immersed. A manufacturing method of a power storage device including at least a positive electrode, a negative electrode, an electrolyte, and a separator includes a step of forming graphene for an active material layer of one of or both the positive electrode and the negative electrode by the formation method. | 10-10-2013 |
20130273428 | POWER STORAGE DEVICE - A power storage device a positive electrode including a positive electrode active material layer and a negative electrode including a negative electrode active material layer. The positive electrode active material layer includes a plurality of particles of x[Li | 10-17-2013 |
20140230208 | ELECTRIC DOUBLE LAYER CAPACITOR, LITHIUM ION CAPACITOR AND MANUFACTURING METHOD THEREOF - A thin energy storage device having high capacity is obtained. An energy storage device having high output is obtained. A current collector and an active material layer are formed in the same manufacturing step. The number of manufacturing steps of an energy storage device is reduced. The manufacturing cost of an energy storage device is suppressed. One embodiment of the present invention relates to an electric double layer capacitor which includes a pair of electrodes including a porous metal material, and an electrolyte provided between the pair of electrodes; or a lithium ion capacitor which includes a positive electrode that is a porous metal body functioning as a positive electrode current collector and a positive electrode active material layer, a negative electrode including a negative electrode current collector and a negative electrode active material layer, and an electrolyte provided between the positive electrode and the negative electrode. | 08-21-2014 |
20150064565 | GRAPHENE AND POWER STORAGE DEVICE, AND MANUFACTURING METHOD THEREOF - The formation method of graphene includes the steps of forming a layer including graphene oxide over a first conductive layer; and supplying a potential at which the reduction reaction of the graphene oxide occurs to the first conductive layer in an electrolyte where the first conductive layer as a working electrode and a second conductive layer with a as a counter electrode are immersed. A manufacturing method of a power storage device including at least a positive electrode, a negative electrode, an electrolyte, and a separator includes a step of forming graphene for an active material layer of one of or both the positive electrode and the negative electrode by the formation method. | 03-05-2015 |
Patent application number | Description | Published |
20100207315 | VALVE UNIT AND PAPER SHEET TAKEOUT DEVICE - A valve unit which circulates and blocks air has a first block connected to upstream suction tubes, a second block facing this first block and connected to downstream suction tubes, a shield plate disposed in a space S between the first block and the second block, and a motor which rotates this shield plate. The shield plate is provided with a connection hole which connects the upstream suction tube to the downstream suction tube, and a connection hole which connects the upstream suction tube to the downstream suction tube. | 08-19-2010 |
20100270730 | PAPER SHEET PICKUP DEVICE - A paper sheet pickup device includes a pickup belt configured to run along one of accumulated paper sheets, which is positioned at the most downstream side with respect to a direction of accumulation, and a negative pressure chamber provided inside the pickup belt. The negative pressure chamber is connected to a pump, and a valve unit is interposed therebetween. Further, an air inlet tube is connected to the negative pressure chamber for supplying air therein. | 10-28-2010 |
20110001285 | STIFFNESS DETECTOR, STIFFNESS DETECTION METHOD, AND PAPER SHEET PROCESSOR INCLUDING STIFFNESS DETECTOR - A stiffness detector includes a bending portion configured to bend a paper sheet to be carried. The stiffness detector transmits acoustic waves to an incidence point on an inner surface of the paper sheet which is bent by the bending portion and is carried, thereby exciting Lamb waves. The stiffness detector receives leaky waves of the Lamb waves emitted from a detection point on the inner surface of the paper sheet. The stiffness detector specifies a maximum crest value based on the received signals, and judges whether the paper sheet is an unimpaired sheet based on the specified maximum crest value. | 01-06-2011 |
20110031683 | SHEET MASS MEASURING UNIT - A mass measuring unit includes two driving rollers vertically separate from each other and intersecting the direction of conveyance of a mail matter. Servo motors for driving the driving rollers are connected to torque detection units. A control unit controls motor control units to cause them to impart a rate difference between the driving rollers to rotate the mail matter during its conveyance, and to cause the torque detection units to detect the torque values of the servo motors. The control unit compares the thus detected torque values with the torque values of the servo motors detected when the servo motors are idling without rotating the mail matter, thereby measuring the mass of the mail matter using a calculation unit. | 02-10-2011 |
20110042886 | VALUE DEVICE AND PAPER SHEET PICKUP APPARATUS - A valve device is provided with a first block connected to an upstream-side suction tube that is connected to a negative-pressure chamber, a second block connected to a downstream-side suction tube that is connected to a pump, first and second shielding plates rotatably interposed between the first and second blocks, and servo motors for rotating the shielding plates. Each of the shielding plates has a plurality of air passing holes, and are rotated in opposite directions. | 02-24-2011 |
20110254220 | SHEET HANDLING APPARATUS - According to one embodiment, a pickup device includes a separation mechanism for applying, to a to-be-subsequently-fed mail item picked up from accumulated mail items, a separation force exerting in a direction opposite to a mail item pickup direction. The separation mechanism comprises an outer drum with suction holes that face the to-be-subsequently-fed mail item during rotation, an inner drum provided inside and concentric with the outer drum and having air holes that overlap with the suction holes during rotation, a pump for drawing air through the suction holes facing the to-be-subsequently-fed mail item and the air holes overlapping with them to attach the to-be-subsequently-fed mail item to the outer peripheral surface of the outer drum. A controller rotates the inner and outer drums in association with each other to apply a sufficient separation force to the to-be-subsequently-fed mail item. | 10-20-2011 |
20120025448 | PAPER SHEET PICKUP DEVICE - A paper sheet pickup device includes a pickup belt configured to run along one of accumulated paper sheets, which is positioned at the most downstream side with respect to a direction of accumulation, and a negative pressure chamber provided inside the pickup belt. The negative pressure chamber is connected to a pump, and a valve unit is interposed therebetween. Further, an air inlet tube is connected to the negative pressure chamber for supplying air therein. | 02-02-2012 |
Patent application number | Description | Published |
20100308530 | PAPER SHEET TAKEOUT DEVICE - In one embodiment, a supply mechanism is provided. The supply mechanism supplies accumulated paper sheets to a takeout position sequentially. A takeout belt having adsorption hole runs along a surface of the takeout position. An opening of a negative pressure chamber is arranged so as to face the takeout belt. A suction unit sucks air existing at the takeout position via the opening and the adsorption holes. The suction unit causes a negative pressure to act on each of the paper sheets so that each is adsorbed onto an adsorption surface of the takeout belt. The suction unit has an air supply port to supply air into the negative pressure chamber. The air supply port is arranged so that the air supplied via the air supply port is directed to a position and in a direction different from those of the opening. | 12-09-2010 |
20100314217 | POSTURE CONVERTING DEVICE AND PAPER-LIKE MATERIAL PROCESSING APPARATUS - According to one embodiment, a posture converting device includes two upstream-side correction rollers spaced apart in a direction intersecting with a conveying direction of a paper-like material, two downstream-side correction rollers arranged at a position spaced apart from the upstream-side correction rollers toward a downstream side in the conveying direction, and a control unit for independently controlling rotations of the four correction rollers, wherein the control unit rotates a conveyance posture of the paper-like material to some extent by making a speed difference between the two upstream-side correction rollers, and rotates the paper-like material to a desired conveyance posture by making a speed difference between the two downstream-side correction rollers. | 12-16-2010 |
20110227276 | FLOW CHANNEL OPENING AND CLOSING DEVICE AND SHEET HANDLING APPARATUS - According to one embodiment, a flow channel opening and closing device includes a first rotating plate provided rotatably along a face which crosses two adjacent flow channels, having a first fluid passing hole which overlaps with each of the two flow channels midway during rotation, which fully opens the one flow channel and blocks the other flow channel at a region except the first fluid passing hole by making the first fluid passing hole overlap with the one flow channel, and a second rotating plate provided adjacent to the first rotating plate and rotatably along a face which crosses the two flow channels, having a second fluid passing hole which overlaps with each of the two flow channels midway during rotation, which rotates to a position where the second fluid passing hole overlaps at least partially with the one flow channel when the first rotating plate rotates to a position where the first fluid passing hole fully opens the one flow channel. | 09-22-2011 |
20110290568 | DEVICE FOR MEASURING THE WEIGHT OF A SHEET-LIKE ARTICLE, SHEET PROCESSING DEVICE INCLUDING THIS WEIGHT MEASURING DEVICE AND METHOD FOR MEASURING THE WEIGHT OF A SHEET-LIKE ARTICLE - A weight measuring device for measuring the weight of a sheet-like article, comprising: a conveying unit that is arranged along a conveying route to convey the sheet-like article to be measured, the conveying unit being adapted to rotate while contacting the sheet-like article without being applied by a driving force from outside after receiving the sheet-like article from the conveying route, and transporting the sheet-like article in its rotation direction while supporting the weight of the sheet-like article; and a scale to measure the weight of the conveying unit in a state in which the conveying unit supports the weight of the sheet-like article and transports the sheet-like article. | 12-01-2011 |
20110316216 | SHEET HANDLING APPARATUS AND SHEET HANDLING METHOD - According to one embodiment, a sheet handling apparatus includes a take-out member to take out a sheet from a take-out position by rotating in a state in which a negative pressure is applied to the sheet at the take-out position and the sheet is adsorbed to the take-out member; a conveyor portion to receive and convey the sheet taken out from the take-out position by the take-out member; and a control portion to control the take-out member such that, when the sheet at the take-out position is being adsorbed to the take-out member, the take-out member is rotated at a circumferential speed that is slower than a conveying speed of the sheet at the conveyor portion, and when the sheet adsorbed to the take-out member is being transferred to the conveyor portion, the take-out member is rotated at a circumferential speed that is the same as a conveying speed of the conveyor portion at that time. | 12-29-2011 |
20120068398 | SHEET HANDLING APPARATUS - According to one embodiment, a sheet handling apparatus includes a conveying path to convey a sheet, a processing portion to perform a predetermined process on the sheet while conveying the sheet on the conveying path, a separable roller pair that is arranged at a certain distance from the processing portion on an upstream side or a downstream side in conveying direction, the separable roller pair being adapted to hand over the sheet between the conveying path and the processing portion by holding the sheet with a nip and rotating, a separating mechanism to separate the separable roller pair, and a controller that controls the separating mechanism such that the separable roller pair is separated before or after processing is started with the processing portion on a sheet that is conveyed on the conveying path. | 03-22-2012 |
20130015003 | WEIGHT DETECTING DEVICE AND WEIGHT DETECTING METHODAANM ASARI; YukioAACI Kanagawa-kenAACO JPAAGP ASARI; Yukio Kanagawa-ken JPAANM TODORIKI; ToruAACI Kanagawa-kenAACO JPAAGP TODORIKI; Toru Kanagawa-ken JPAANM MITSUYA; YusukeAACI Kanagawa-kenAACO JPAAGP MITSUYA; Yusuke Kanagawa-ken JPAANM NARUOKA; YoshihikoAACI Kanagawa-kenAACO JPAAGP NARUOKA; Yoshihiko Kanagawa-ken JPAANM HIRAMITSU; NaruakiAACI Kanagawa-kenAACO JPAAGP HIRAMITSU; Naruaki Kanagawa-ken JPAANM FUJIHARA; HiroakiAACI Kanagawa-kenAACO JPAAGP FUJIHARA; Hiroaki Kanagawa-ken JP - According to one embodiment, a weight detecting device includes a conveying portion to convey a sheet-like article, a vibration source causing the conveying portion to oscillate; a sensor to detect a weight of the sheet-like article while it is being conveyed by the conveying portion, an A/D converter portion to sample and digitize an output of the sensor at a predetermined period, and a calculating portion to calculate a weight of the sheet-like article by determining an average of a plurality of detection signal values digitized by the A/D converter portion after subjecting the detection signal values to statistical processing. | 01-17-2013 |
20140035221 | SHEET HANDLING APPARATUS - According to one embodiment, a sheet handling apparatus includes a conveying path to convey a sheet, a processing portion to perform a predetermined process on the sheet while conveying the sheet on the conveying path, a separable roller pair that is arranged at a certain distance from the processing portion on an upstream side or a downstream side in conveying direction, the separable roller pair being adapted to hand over the sheet between the conveying path and the processing portion by holding the sheet with a nip and rotating, a separating mechanism to separate the separable roller pair, and a controller that controls the separating mechanism such that the separable roller pair is separated before or after processing is started with the processing portion on a sheet that is conveyed on the conveying path. | 02-06-2014 |