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Ooto
Hisashi Ooto, Osaka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110199035 | MOTOR CONTROL DEVICE - A motor control device, which receives at least two emergency stop signals, includes an LSI, a PWM signal transmission circuit, a drive circuit, and an inverter circuit. The LSI generates PWM signals. The PWM signal transmission circuit transmits the PWM signals. The drive circuit generates inverter drive signals. The inverter circuit includes a P-side power switching device and an N-side power switching device. The drive circuit includes a P-side drive circuit for driving the P-side power switching device, and an N-side drive circuit for driving the N-side power switching device. One of the emergency stop signals is inputted to the P-side drive circuit and the PWM signal transmission circuit. The other emergency stop signal is inputted to the N-side drive circuit and the PWM signal transmission circuit. In response to the receipt of an emergency stop signal, the PWM signal transmission circuit stops transmitting the PWM signals, and the drive circuit stops outputting the inverter drive signals. | 08-18-2011 |
Masanori Ooto, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20100314247 | Filtered cathodic arc device and carbon protective film deposited using the device - A filtered cathodic arc device includes a plasma generating module which generates plasma using an arc discharge which has a cathode target as a deposition raw material; a deposition processing chamber in which a deposition receiving substrate is placed; a curved magnetic field duct that is placed between the plasma generating module and the deposition processing chamber, and that guides plasma generated by the plasma generating module to the deposition processing chamber with a magnetic field; a wool medium formed of a nonmagnetic metal fiber which covers the interior wall of the magnetic field duct; and a bias power source for the wool medium. The device balances reduction of particulate particles and a high deposition rate. | 12-16-2010 |
Mayumi Ooto, Kawasaki-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100306201 | NEIGHBOR SEARCHING APPARATUS - To provide a neighbor searching apparatus that can select an index suitable for each search target. A neighbor searching apparatus has: a storage part that stores a meta table containing index-dependent meta data associated with a data structure of each index; a database managing part that searches for an index associated with an instruction when receiving the instruction from a user and makes an indexing part perform a processing associated with the instruction using the index-dependent meta data associated with the index; and the indexing part that performs the processing associated with the instruction using the index-dependent meta data based on the instruction from the managing database part. | 12-02-2010 |
Sotaro Ooto, Kyoto-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20090203134 | REMEDY FOR NERVE CELL REGENERATION | 08-13-2009 |
Takashi Ooto, Tokyo JP
| Patent application number | Description | Published |
|---|---|---|
| 20080211174 | MEDIUM PROCESSING APPARATUS - In a bill processing apparatus | 09-04-2008 |
| 20090017663 | CARD PROCESSOR - A card processor of the present invention has: an insertion slot, into which a card is inserted; a carriage path, along which the card inserted from the insertion slot is carried; and a shutter mechanism driven to make the insertion slot closable, wherein the shutter mechanism includes an oscillating member oscillatably supported by a shaft, the oscillating member having a closing portion, formed on one end side, configured to make the insertion slot closable and a projecting/withdrawing portion, formed on the other end side, configured to be able to project and withdraw from the carriage path, and the oscillating member is bendably formed along a card carrying direction, and the closing portion of the oscillating member in a bent state comes into contact with the surface on the rear end side of the card when the front end side of the card moving along the carriage path presses the projecting/withdrawing portion. | 01-15-2009 |
Yasumichi Ooto, Ibaraki JP
| Patent application number | Description | Published |
|---|---|---|
| 20090137847 | Decomposing system for polyisocyanate residues, and start-up method for the same - An object of the invention is to provide a decomposing system for polyisocyanate residues that is capable of suppressing reaction of polyisocyanate residues with high temperature and high pressure water to allow smooth start-up of the operation, and a start-up method for the decomposing system for the polyisocyanate residues. The decomposing system is used for hydrolyzing the polyisocyanate residues to polyamine using high temperature and high pressure water, comprising a hydrolyzer, a water feed pipe connected to the hydrolyzer, a residual feed pipe connected to the water feed pipe, a solvent feed line for filling an organic solvent in a solvent filling portion of the residual feed pipe, and a solvent draining line. Upon start-up of the operation, the organic solvent is previously filled in the solvent filling portion via the solvent feed line and the solvent draining line, first, and then, the high temperature and high pressure water is fed from the water feed pipe to the hydrolyzer. Then, the organic solvent is fed from the residual feed pipe to the water feed pipe, first, and then, the polyisocyanate residues are fed thereto. | 05-28-2009 |
Yasumichi Ooto, Kamisu-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110027134 | DECOMPOSING SYSTEM FOR POLYISOCYANATE RESIDUES, AND START-UP METHOD FOR THE SAME - An object of the invention is to provide a decomposing system for polyisocyanate residues that is capable of suppressing reaction of polyisocyanate residues with high temperature and high pressure water to allow smooth start-up of the operation, and a start-up method for the decomposing system for the polyisocyanate residues. The decomposing system is used for hydrolyzing the polyisocyanate residues to polyamine using high temperature and high pressure water, comprising a hydrolyzer, a water feed pipe connected to the hydrolyzer, a residual feed pipe connected to the water feed pipe, a solvent feed line for filling an organic solvent in a solvent filling portion of the residual feed pipe, and a solvent draining line. Upon start-up of the operation, the organic solvent is previously filled in the solvent filling portion via the solvent feed line and the solvent draining line, first, and then, the high temperature and high pressure water is fed from the water feed pipe to the hydrolyzer. Then, the organic solvent is fed from the residual feed pipe to the water feed pipe, first, and then, the polyisocyanate residues are fed thereto. | 02-03-2011 |