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Keiichi Ishikawa
Keiichi Ishikawa, Tsurugi-Cho JP
| Patent application number | Description | Published |
|---|---|---|
| 20100222756 | DISPOSABLE ABSORBENT ARTICLE - A disposable absorbent article comprising: an absorbent body including a top sheet, a back sheet and an absorbent core disposed therebetween; and a flap provided along an edge of opposite sides in a width direction of the absorbent core; wherein the flap has a fixing part joined to the top sheet and a rising part extending upward from the fixing part, and the rising part consists of a nonstretch nonwoven fabric which is water-repellent or liquid impermeable. Further, the flap may have a fold back part extending from the rising part and formed by folding back the rising part at an upper end of the rising part, wherein the fold back part consists of a nonstretch nonwoven fabric which is water-repellent or liquid impermeable, and the rising part and the fold back part are fusion-bonded to each other at a fusion-bond part. | 09-02-2010 |
Keiichi Ishikawa, Setagaya JP
| Patent application number | Description | Published |
|---|---|---|
| 20100007441 | Coaxial connector having a dielectric material for impedance matching - A coaxial connector includes a first inner conductor and a second inner conductor. A capacitor connects between the first inner conductor and the second inner conductor. An outer conductor extends along and surrounds the first and second inner conductors and the capacitor. A first dielectric material is filled in a gap between the outer conductor and the first and second inner conductors. A support member supports the first and second inner conductors with respect to the outer conductor. A second dielectric material for impedance matching is provided between the capacitor and the outer conductor. | 01-14-2010 |
| 20110140800 | Radio frequency signal transmission method with coaxial connection having a dielectric material for impedance matching - A radio frequency signal transmission method for transmitting a radio frequency signal through an inner conductor serving as a signal line, the radio frequency signal transmission method including: causing the radio frequency signal to be input to and propagate through the inner conductor, an impedance between the inner conductor and an outer conductor serving as a grounding line being adjusted to a predetermined impedance; and causing a component of the radio frequency signal to propagate through a capacitor provided in a middle of the inner conductor, an impedance at a portion of the capacitor installed being adjusted to match the predetermined impedance by a dielectric material provided around the capacitor. | 06-16-2011 |
| 20110306237 | Coaxial connector having a dielectric material for impedance matching - A coaxial connector that includes: a first inner conductor and a second inner conductor; a capacitor that is electrically coupled to the first inner conductor and the second inner conductor; an outer conductor that surrounds the first and second inner conductors, and the capacitor; a first support member that fixes the first inner conductor to the outer conductor; a second support member that fixes the second inner conductor to the outer conductor; a first dielectric material that is provided between the outer conductor and the first inner conductor and between the outer conductor and the second inner conductor, and a second dielectric material that is provided between the outer conductor and the capacitor. | 12-15-2011 |
Keiichi Ishikawa, Nagasaki JP
| Patent application number | Description | Published |
|---|---|---|
| 20090320658 | Cutting Methods and Cutting Apparatus - The present invention provides cutting methods and cutting apparatus that can precisely cut workpieces in complicated shapes with high aspect ratios regardless of materials of the workpieces. The present invention is cutting methods and cutting apparatus using a wire saw wherein cutting processing is performed for a workpiece by extending a cutting wire on a cutting arm that rotates around a wire's center axis or a real cutting position relative to a fixed section and rotating the cutting arm such that a cutting direction of the wire matches a support direction of a total stiffness that supports the wire. | 12-31-2009 |
Keiichi Ishikawa, Shizuoka JP
| Patent application number | Description | Published |
|---|---|---|
| 20110233019 | POWER TRANSMITTING APPARATUS - A power transmitting apparatus for transmitting power from a driving source of a vehicle to its wheels can be adapted to properly select transmitting or cutting-off of the driving force of the driving source to or from the wheels. The apparatus can comprise a torque converter having a torque amplifying function; a clutch mechanism including a first clutch device operable on advancement of the vehicle and adapted to transmit the driving force of the driving source to the wheels through a power transmitting system of the torque converter and a second clutch device adapted to transmit the driving force of the driving source to the wheels without the power transmitting system of the torque converter. A selecting device can be configured to operate the first clutch device and/or the second clutch device in accordance with operation modes of the vehicle, including starting. | 09-29-2011 |
| 20110237389 | POWER TRANSMITTING APPARATUS - A power transmitting apparatus, such an automotive transmission, adapted to properly select transmission of or cutting-off of a driving force of the driving source to or from the wheels of a vehicle can include a torque converter having a torque amplifying function. A clutch mechanism can include a first clutch device configured to transmit the driving force to the wheels through the torque converter and a second clutch device configured to transmit the driving force without passing through the torque converter. A selecting device can control the first clutch device or the second clutch device in accordance with conditions of the vehicle including starting from a stop. An input-side measuring device can be used to measure an input-side rotational speed of the first clutch device and an output-side measuring device can be used for measuring an output-side rotational speed of the first clutch device. A slip ratio calculating device can be used to calculate the slip ratio of the first clutch device from the difference or the ratio between the rotational speed measured by the input-side measuring device and the rotational speed measured by the output-side measuring device. | 09-29-2011 |
Keiichi Ishikawa, Hamamatsu-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110301796 | POWER TRANSMITTING APPARATUS FOR A HYBRID VEHICLE - A power transmitting apparatus for a hybrid vehicle can transmit the driving force of engine E to the motor M or reversely the driving force of motor M to the engine E when the vehicle is stopped while avoiding transmission of the driving force of either of them to the driving wheels D such that the vehicle remains stopped. In some embodiments, a power transmitting apparatus for a hybrid vehicle can comprise a first clutch operatively posited between an engine mounted on a vehicle to driving wheels in a power transmission system and configured to transmit or cutoff driving force of the engine to or from the driving wheels; a second clutch operatively positioned between a motor mounted on a vehicle to the driving wheels in a power transmission system and configured to transmit or cut off driving force of the motor to or from the driving wheels. The first and second clutches can operated based on the vehicle operating conditions such that power can be transmitted from one of the engine and the motor to the other of them by connecting them to each other while cutting off power transmission from the engine and the motor to the driving wheels. | 12-08-2011 |