Nishitani
Eisuke Nishitani, Toyama JP
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20160083844 | Substrate Processing Apparatus, Gas Introduction Shaft and Gas Supply Plate - Provided is a substrate processing apparatus including: a substrate support unit; a gas supply plate including a plurality of gas distribution pipes connected to a plurality of gas supply regions; and a gas introduction shaft mounted on the gas supply plate. The gas introduction shaft includes a plurality of gas introduction pipes. Each of the plurality of gas introduction pipes is connected to each of the plurality of gas distribution pipes via each of a plurality of gas discharging spaces having an annular shape. | 03-24-2016 |
Hikaru Nishitani, Hyogo JP
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20130277678 | THIN-FILM SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A thin-film semiconductor device manufacturing method according to the present disclosure includes: preparing a substrate; forming a gate electrode above the substrate; forming a gate insulating film above the substrate; forming an amorphous film (amorphous silicon film) above the substrate; forming a crystalline film (crystalline silicon film) including a first crystal and a second crystal, by crystallizing the amorphous film, the first crystal (i) containing subgrains formed with different crystal orientations in a single crystal and (ii) including a subgrain boundary formed by plural crystal planes between the subgrains, the second crystal having an average crystal grain size smaller than an average crystal grain size of the first crystal; thinning the crystalline film; and forming a source electrode and a drain electrode above the substrate. | 10-24-2013 |
20140209911 | THIN-FILM TRANSISTOR DEVICE - A thin-film transistor device includes a gate electrode formed above a substrate, a gate insulating film formed on the gate electrode, a crystalline silicon thin film that is formed above the gate insulating film and has a channel region, an amorphous silicon thin film formed on the crystalline silicon thin film, and a source electrode and a drain electrode that are formed above the channel region, and the crystalline silicon thin film has a half-width of a Raman band corresponding to a phonon mode specific to the crystalline silicon thin film of 5.0 or more and less than 6.0 cm | 07-31-2014 |
Hiroshi Nishitani, Nakakoma-Gun JP
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20150231321 | PERITONEAL DIALYSIS FLUID - The present invention is a sterile peritoneal dialysis fluid, including an acidic first liquid containing only icodextrin and 0 to 2.34 g/L of sodium chloride, and an alkaline second liquid containing an alkaline pH regulator, in which the first liquid after sterilization has a pH of 5.0 to 5.5, the second liquid after sterilization has a pH of 6.5 to 7.5, and a mixture of the first liquid and the second liquid after sterilization has a pH of 6.0 to 7.5. The present invention can provide a peritoneal dialysis fluid containing icodextrin, in which the stability of icodextrin during the heat sterilization and the subsequent storage can be improved to the maximum, and the pH of the peritoneal dialysis fluid is close to the physiological range. | 08-20-2015 |
20150250819 | PERITONEAL DIALYSIS FLUID - The present invention is a sterile peritoneal dialysis fluid, including an acidic first liquid containing 60.0 to 94.0 g/L of icodextrin and 0 to 2.34 g/L of sodium chloride, and an alkaline second liquid containing an alkaline pH regulator, in which the first liquid after sterilization has a pH of 5.0 to 5.5, the second liquid after sterilization has a pH of 6.5 to 7.5, and a mixture of the first liquid and the second liquid after sterilization has a pH of 6.0 to 7.5. The present invention can provide a peritoneal dialysis fluid containing icodextrin, in which the stability of icodextrin during the heat sterilization and the subsequent storage can be improved to the maximum, and the pH of the peritoneal dialysis fluid is close to the physiological range. | 09-10-2015 |
Hiroyuki Nishitani, Osaka JP
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20140379613 | INFORMATION PROCESSING DEVICE, INFORMATION PROCESSING SYSTEM, INFORMATION PROCESSING METHOD, AND COMPUTER-READABLE NON-TRANSITORY STORAGE MEDIUM - There is provided an information processing device for measuring a dimension of an object to be measured in a low-load calculation processing. A handy terminal includes a depth map sensor block for generating a depth map of an object to be measured by use of a depth map sensor, and a coordinate transformation/side length calculation unit that measures a dimension of the object to be measured based on the depth map. The handy terminal may further includes a delivery fee calculation unit that calculates a delivery fee of the object to be measured based on the dimension. | 12-25-2014 |
Hisahiro Nishitani, Shiga JP
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20140190961 | COOKING APPARATUS - A cooking apparatus 1 includes: a heating chamber which accommodates an object to be heated; an interior lamp illuminates the heating chamber; a control unit which supplies power to the interior lamp; and an operation unit which operates the control unit. The interior lamp is formed with an LED board on which a plurality of LED elements are mounted, and the control unit supplies power to only a part of the plurality of LED elements during cooking. | 07-10-2014 |
Katsuhiko Nishitani, Kanagawa-Ken JP
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20150079764 | VAPOR PHASE GROWTH APPARATUS AND VAPOR PHASE GROWTH METHOD - According to one embodiment, a vapor phase growth apparatus includes a susceptor in a chamber, the susceptor configured to rotate on an axis perpendicular to a surface of the susceptor, a plurality of substrate holding portions above the susceptor, each of the substrate holding portions configured to revolve around the axis by the rotation of the susceptor and configured to rotate circumferentially, a plurality of bearings arranged in a housing between the susceptor and the substrate holding portion, and a plurality of blade portions on an outer periphery of the substrate holding portion, each of the blade portions extending radially toward a center of the substrate holding portion. | 03-19-2015 |
Kazuhito Nishitani, Chigasaki JP
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20150091075 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a nonvolatile semiconductor memory device is provided. The element isolation insulating bodies form active areas extending in one direction along a surface of a semiconductor substrate in a surface region of the semiconductor substrate, and partition the surface region into the active areas. The tunnel insulating films are formed on the active areas respectively. The floating gate electrodes are formed on the tunnel insulating films respectively. The inter-gate insulating films are formed on the floating gate electrodes. The control gate electrodes are provided on the inter-gate insulating films. The source regions and drain regions are formed in the active areas respectively. Each of the active areas has steps at side surfaces. A width of a portion of each of the active areas deeper than the steps is larger than that of a portion of each of the active areas shallower than the steps. | 04-02-2015 |
Kazuya Nishitani, Kanonji-Shi TW
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20110125120 | ABSORBENT ARTICLE - An absorbent article includes liquid-permeable top sheet, a liquid-impermeable back sheet, and an absorber sandwiched between the top sheet and back sheet, wherein the top sheet is composed of a nonwoven fabric, and the region of the top sheet that contacts the site of discharge is the low density section of the nonwoven fabric with a lower apparent density than the other regions of the top sheet. The thickness of the low density section of the top sheet is larger than the thickness of the sections other than the low density section of the top sheet, and the basis weight of the low density section of the top sheet is equal to the basis weight of the sections other than the low density section of the top sheet. | 05-26-2011 |
Keisuke Nishitani, Zama-Shi JP
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20130218422 | CONSTRUCTION MACHINE WITH HYBRID DRIVE UNIT, REGENERATIVE DEVICE EQUIPPED IN CONSTRUCTION MACHINE, AND REGENERATIVE METHOD - Provided is a method of controlling the regenerating condition by use of a construction machine having an upper revolving structure with a hybrid drive unit, and a lower traveling body, wherein when in a brake mode, the hydraulic motor is neutralized by the internal communication of an inlet port and an outlet port of the hydraulic motor via a communication valve, such that most of the kinetic (inertia) energy is efficiently transduced into electric energy by way of regenerative power generation for electric storage, and such that the switchover between driving and regenerative power generation is rendered in the optimal condition. | 08-22-2013 |
Ken Nishitani, Hiroshima-Shi JP
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20150053029 | TURNING DEVICE AND ROTATING MACHINE - A turning device includes: a pinion gear having spur teeth that mesh with a wheel gear provided on a rotary shaft; an arm member that rotatably supports the pinion gear; an ON/OFF mechanism that operates the arm member such that the pinion is brought close to the wheel gear, in a meshed position, with respect to the wheel gear and such that the pinion is separated radially outward from the wheel gear, in a retracted position; and a supporting device that supports the pinion in an axial direction of the pinion. | 02-26-2015 |
Kenji Nishitani, Osaka JP
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20130341830 | IN-MOLD DECORATING METHOD AND IN-MOLD SYSTEM - A case molded article is molded by injecting resin into a molding space formed in an in-mold decoration die; meanwhile, foil is joined to the surface of the case molded article. After that, the foil is peeled off from the surface of the case molded article while leaving a pattern layer at least on the upper ends of the corners of the rising wall on the case molded article. Subsequently, the foil is peeled off from the surface of the case molded article while leaving the pattern layer at other points where the foil is joined to the surface of the case molded article. | 12-26-2013 |
Masanobu Nishitani, Suwa JP
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20160078583 | IMAGE PROCESSING APPARATUS AND ROBOT SYSTEM - An image processing apparatus includes a first connecting unit connected to an image pickup apparatus, a plurality of second connecting units connected to one control apparatus or one other image processing apparatus, the control apparatus being configured to control a robot; and a processing unit configured to process picked-up images picked up by the image pickup apparatus. | 03-17-2016 |
Masayoshi Nishitani, Yokosuka-Shi JP
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20140044171 | MOVING PICTURE ENCODING DEVICE, MOVING PICTURE ENCODING METHOD AND MOVING PICTURE ENCODING PROGRAM AS WELL AS MOVING PICTURE DECODING DEVICE, MOVING PICTURE DECODING METHOD AND MOVING PICTURE DECODING PROGRAM - A first vector predictor candidate list generating unit generates a first motion vector predictor candidate list from motion vectors of encoded neighboring blocks to blocks to be encoded. A second vector predictor candidate list generating unit generates a second motion vector predictor candidate list from motion vectors of blocks at the same positions as the blocks to be encoded in an encoded image and neighboring blocks to the blocks at the same positions. A combination determining unit determines whether to generate a third vector predictor candidate list combining the first and second vector predictor candidate lists by comparison of a block size of the blocks to be encoded and a threshold size. A vector predictor candidate list deciding unit generates the third vector predictor candidate list from the first vector predictor candidate list. | 02-13-2014 |
20140146876 | MOVING PICTURE CODING APPARATUS, MOVING PICTURE CODING METHOD, MOVING PICTURE CODING PROGRAM, AND MOVING PICTURE DECODING APPARATUS - An inter mode coding unit codes the information regarding the motion information of either one of a merge mode and a motion vector difference mode. A block size information coding unit codes the shape of the block on which the motion compensation prediction is performed. An evaluation inter mode setting unit sets the shape of the block, on which the motion compensation prediction is performed, then selects at least one of the merge mode and the motion vector difference mode, according to the shape thereof set. An inter mode determining unit determines an inter mode of the information regarding the motion information to be coded by the inter mode coding unit in the selectable inter mode. | 05-29-2014 |
20140153647 | MOVING PICTURE CODING APPARATUS, MOVING PICTURE CODING METHOD, AND MOVING PICTURE CODING PROGRAM, AND MOVING PICTURE DECODING APPARATUS, MOVING PICTURE DECODING METHOD, AND MOVING PICTURE DECODING PROGRAM - A motion vector predictor candidate generation unit derives a plurality of motion vector predictor candidates by prediction from first coded prediction blocks neighboring a prediction block subject to coding within the same picture as the prediction block subject to coding, or from a second coded prediction block located at the same position as or in the neighborhood of the prediction block subject to coding in a picture different from that of the prediction block subject to coding, and adds the derived motion vector predictor candidates in a motion vector predictor candidate. The motion vector predictor candidate generation unit determines, for the purpose of obtaining a predetermined number of motion vector predictor candidates, which of first coded prediction blocks provides the motion vector from which to derive the motion vector predictor candidate, organizing the blocks in the order of priority. | 06-05-2014 |
20140219356 | PICTURE CODING DEVICE, PICTURE CODING METHOD, PICTURE CODING PROGRAM, PICTURE DECODING DEVICE, PICTURE DECODING METHOD, AND PICTURE DECODING PROGRAM - In a first inter-image prediction mode in which information on a motion vector is used, a first mode detection unit constructs a first candidate list from a plurality of reference block candidates based on a first predetermined order, assigns indices for designating reference block candidates added in the first candidate list, and outputs the indices of the plurality of reference candidate blocks. In a second inter-image prediction mode in which is used a motion vector difference between a motion vector predictor based on information on a motion vector, and a motion vector of a coding target block, a second mode detection unit constructs a second candidate list from a plurality of reference block candidates based on a second predetermined order, assigns indices for designating reference block candidates added in the second candidate list, and outputs the indices of the plurality of reference block candidates and motion vector differences. | 08-07-2014 |
20140286402 | MOVING PICTURE CODING DEVICE, MOVING PICTURE CODING METHOD, AND MOVING PICTURE CODING PROGRAM, AND MOVING PICTURE DECODING DEVICE, MOVING PICTURE DECODING METHOD, AND MOVING PICTURE DECODING PROGRAM - In a moving picture coding device that codes moving pictures in units of a block by partitioning a first block, which is obtained by partitioning each picture of the moving pictures into predetermined sizes, into one or a plurality of second blocks, a quantization parameter calculation unit calculates a quantization parameter of the second block. A predictive quantization parameter deriving unit derives a predictive quantization parameter of the second block using quantization parameters of a third block adjacent to the left of the second block and a fourth block adjacent to the top of the second block. A differential quantization parameter generation unit generates a differential quantization parameter of the second block from a difference between the quantization parameter of the second block and the predictive quantization parameter. A first bitstream generation unit codes the differential quantization parameter of the second block. | 09-25-2014 |
20140286403 | MOVING PICTURE CODING DEVICE, MOVING PICTURE CODING METHOD, AND MOVING PICTURE CODING PROGRAM, AND MOVING PICTURE DECODING DEVICE, MOVING PICTURE DECODING METHOD, AND MOVING PICTURE DECODING PROGRAM - In a moving picture coding device that further divides a first block acquired by dividing each picture of a moving picture into a predetermined size into one or a plurality of second blocks and codes the moving picture in units of blocks, a quantization parameter calculation unit calculates a quantization parameter of the second block. A predictive quantization parameter deriving unit derives a predictive quantization parameter of the second block by using the quantization parameter of one or a plurality of third blocks that are neighboring to the second block. The predictive quantization parameter deriving unit derives the predictive quantization parameter of the second block by using a quantization parameter of a fourth block coded before the second block in a case where the third block neighboring to the second block is located at a position beyond a boundary of the first block. | 09-25-2014 |
20140376621 | PICTURE CODING DEVICE, PICTURE CODING METHOD, AND PICTURE CODING PROGRAM, AND PICTURE DECODING DEVICE, PICTURE DECODING METHOD, AND PICTURE DECODING PROGRAM - There is provided a picture encoding device that encodes a picture and encodes a difference quantization parameter in a unit of a quantization coding block which is divided from the picture and is a management unit of a quantization parameter. A quantization parameter calculator derives a quantization parameter of the quantization coding block to be encoded. A prediction quantization parameter derivation unit derives a prediction quantization parameter using the quantization parameters of a plurality of quantization coding blocks which precede the quantization coding block to be encoded in order of encoding. A difference quantization parameter generator derives a difference quantization parameter of the quantization coding block to be encoded, using a difference between the quantization parameter of the quantization coding block to be encoded and the prediction quantization parameter. A first bitstream generator encodes the difference quantization parameter of the quantization coding block to be encoded. | 12-25-2014 |
20150131734 | PICTURE CODING DEVICE, PICTURE CODING METHOD, PICTURE CODING PROGRAM, PICTURE DECODING DEVICE, PICTURE DECODING METHOD, AND PICTURE DECODING PROGRAM - In a first inter-image prediction mode in which information on a motion vector is used, a first mode detection unit constructs a first candidate list from a plurality of reference block candidates based on a first predetermined order, assigns indices for designating reference block candidates added in the first candidate list, and outputs the indices of the plurality of reference candidate blocks. In a second inter-image prediction mode in which is used a motion vector difference between a motion vector predictor based on information on a motion vector, and a motion vector of a coding target block, a second mode detection unit constructs a second candidate list from a plurality of reference block candidates based on a second predetermined order, assigns indices for designating reference block candidates added in the second candidate list, and outputs the indices of the plurality of reference block candidates and motion vector differences. | 05-14-2015 |
20160050412 | MOVING PICTURE ENCODING DEVICE, MOVING PICTURE ENCODING METHOD AND MOVING PICTURE ENCODING PROGRAM AS WELL AS MOVING PICTURE DECODING DEVICE, MOVING PICTURE DECODING METHOD AND MOVING PICTURE DECODING PROGRAM - A first vector predictor candidate list generating unit generates a first motion vector predictor candidate list from motion vectors of encoded neighboring blocks to blocks to be encoded. A second vector predictor candidate list generating unit generates a second motion vector predictor candidate list from motion vectors of blocks at the same positions as the blocks to be encoded in an encoded image and neighboring blocks to the blocks at the same positions. A combination determining unit determines whether to generate a third vector predictor candidate list combining the first and second vector predictor candidate lists by comparison of a block size of the blocks to be encoded and a threshold size. A vector predictor candidate list deciding unit generates the third vector predictor candidate list from the first vector predictor candidate list. | 02-18-2016 |
20160080759 | PICTURE CODING DEVICE, PICTURE CODING METHOD, PICTURE CODING PROGRAM, PICTURE DECODING DEVICE, PICTURE DECODING METHOD, AND PICTURE DECODING PROGRAM - In a first inter-image prediction mode in which information on a motion vector is used, a first mode detection unit constructs a first candidate list from a plurality of reference block candidates based on a first predetermined order, assigns indices for designating reference block candidates added in the first candidate list, and outputs the indices of the plurality of reference candidate blocks. In a second inter-image prediction mode in which is used a motion vector difference between a motion vector predictor based on information on a motion vector, and a motion vector of a coding target block, a second mode detection unit constructs a second candidate list from a plurality of reference block candidates based on a second predetermined order, assigns indices for designating reference block candidates added in the second candidate list, and outputs the indices of the plurality of reference block candidates and motion vector differences. | 03-17-2016 |
Masayoshi Nishitani, Yokohama-Shi JP
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20150139329 | MOVING PICTURE CODING APPARATUS, MOVING PICTURE CODING METHOD, AND MOVING PICTURE CODING PROGRAM, AND MOVING PICTURE DECODING APPARATUS, MOVING PICTURE DECODING METHOD, AND MOVING PICTURE DECODING PROGRAM - A motion vector predictor candidate generation unit derives a plurality of motion vector predictor candidates by prediction from first coded prediction blocks neighboring a prediction block subject to coding within the same picture as the prediction block subject to coding, or from a second coded prediction block located at the same position as or in the neighborhood of the prediction block subject to coding in a picture different from that of the prediction block subject to coding, and adds the derived motion vector predictor candidates in a motion vector predictor candidate. The motion vector predictor candidate generation unit determines, for the purpose of obtaining a predetermined number of motion vector predictor candidates, which of first coded prediction blocks provides the motion vector from which to derive the motion vector predictor candidate, organizing the blocks in the order of priority. | 05-21-2015 |
Mitsuaki Nishitani, Hyogo JP
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20150135949 | WET ELECTROSTATIC PRECIPITATOR AND FLUE GAS TREATMENT METHOD - A wet electrostatic precipitator includes an electric field forming unit including a first electrode and a second electrode which form an alternating electric field. The first electrode is a flat plate, and has a plurality of discharge electrodes on a surface that opposes the second electrode. The second electrode includes a discharge frame, a first flat plate portion and a second flat plate portion. The first flat plate portion opposes the discharge electrode of the first electrode. A plurality of discharge electrodes are formed on a surface of the second flat plate portion that opposes the first electrode. The discharge electrodes alternately generate corona discharges having opposite polarities in a direction perpendicular to a flow direction of gas, and alternately apply charges having opposite polarities to mist and dust. The first electrode and the first flat plate portion trap the charged mist and the dust. | 05-21-2015 |
Mitsuaki Nishitani, Hyogo-Ku, Kobe-Shi, Hyogo JP
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20150182975 | WET-TYPE ELECTRIC DUST COLLECTION DEVICE AND DUST REMOVAL METHOD - A wet-type electric dust collection device and low-concentration SO | 07-02-2015 |
Taiji Nishitani, Aichi-Ken JP
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20130248091 | TRANSPARENT LAMINATE FILM AND METHOD FOR PRODUCING SAME - A transparent laminate film which has visible light transmittance, sunlight blocking properties, radio wave transmittance and good appearance is provided. A transparent laminate film includes a laminate structure formed on at least one side of a transparent polymer film, in which a metal oxide layer and a metal layer are laminated, the metal oxide layer containing an organic component, wherein grooves having a width of 30 μm or less are formed in the laminate structure, and an overall surface resistance is 150Ω/□ or more. Preferably, the grooves are numerous cracks, or are formed by laser processing. Further, preferably, the transparent polymer film has an easy adhesion layer formed on at least one side thereof, and the laminate structure is formed on top of the easy adhesion layer. Furthermore, preferably, the metal oxide layer containing the organic component is formed by a sol-gel method using optical energy during sol-gel curing. | 09-26-2013 |
Yoshito Nishitani, Kyoto JP
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20160053769 | DYNAMIC PRESSURE BEARING PUMP - A pump a shaft portion arranged to extend in a vertical direction; a rotor portion arranged to surround an outer circumference of the shaft portion, and including a magnet; and a housing joined to the shaft portion, and arranged to contain the rotor portion. The housing includes a stator arranged opposite to the magnet; a rotor accommodating portion arranged to accommodate the rotor portion; and an inlet and an outlet each of which is arranged to pass through a portion of the rotor accommodating portion. A surface of at least one of the rotor portion, the shaft portion, and the rotor accommodating portion includes at least one first dynamic pressure groove arranged to support rotation of the rotor portion. A surface of at least one of the rotor portion and the rotor accommodating portion includes at least one second dynamic pressure groove arranged to transfer a fluid from the inlet to the outlet. The rotor portion includes a through hole arranged to pass therethrough in an axial direction. | 02-25-2016 |
20160053770 | DYNAMIC PRESSURE BEARING PUMP - A pump a shaft portion arranged to extend in a vertical direction; a rotor portion arranged to surround an outer circumference of the shaft portion, and including a magnet; and a housing joined to the shaft portion, and arranged to contain the rotor portion. The housing includes a stator arranged opposite to the magnet; a rotor accommodating portion arranged to accommodate the rotor portion; and an inlet and an outlet each of which is arranged to pass through a portion of the rotor accommodating portion. A surface of at least one of the rotor portion, the shaft portion, and the rotor accommodating portion includes at least one first dynamic pressure groove arranged to support rotation of the rotor portion. A surface of at least one of the rotor portion and the rotor accommodating portion includes at least one second dynamic pressure groove arranged to transfer a fluid from the inlet to the outlet. | 02-25-2016 |
Yosuke Nishitani, Fujisawa-Shi JP
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20150251685 | BUSH BEARING AND RACK-AND-PINION TYPE STEERING APPARATUS FOR AUTOMOBILE USING THE SAME - A bush bearing | 09-10-2015 |
Yosuke Nishitani, Kanagawa JP
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20150291205 | RACK GUIDE FOR RACK AND PINION STEERING DEVICE, RACK AND PINION STEERING DEVICE AND MANUFACTURING METHOD OF RACK GUIDE FOR RACK AND PINION STEERING DEVICE - A rack guide for a rack and pinion steering device, a rack and pinion steering device and a manufacturing method for a rack guide for a rack and pinion steering device, has a simple configuration with a close contact property being kept between a rack guide and a rack guide base member to ensure quietness. A rack guide for a rack and pinion steering device includes: a casing; a pinion to be slidably supported by said casing; a rack bar having a rack tooth meshed with said pinion; a rack guide including an abutment portion to which said rack bar is to be slidably abutted and a recessed portion, which is continued to said abutment portion, to be spaced from said rack bar; a rack guide base member for receiving said rack guide; and urging means for urging said rack guide against said rack bar through said rack guide base member. | 10-15-2015 |
Yuichi Nishitani, Obu-Shi JP
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20140147196 | SHAFT COUPLING STRUCTURE - In a shaft coupling structure in which a first shaft and a second shaft are coupled with each other by a combination of a key coupling and a clamp coupling, the first shaft has a cylindrical portion into which the second shaft is inserted and slits which are formed in the cylindrical portion by cutting off portions thereof in the axial direction, and a clamping fastener is mounted on portions of the outer circumference of the first shaft in which the slits are formed and the slit can be also used as a keyway of the key, and the plurality of slits are formed in the circumferential direction. | 05-29-2014 |
20140154005 | SHAFT COUPLING STRUCTURE - In a shaft coupling structure in which a second shaft is inserted into a cylindrical portion provided in a first shaft to be coupled with each other, with a bush being interposed between an inner circumference of the first shaft and an outer circumference of the second shaft, the first shaft and the second shaft are coupled with each other by a combination of a key coupling and a clamp coupling; the first shaft has a keyway with which the key engages and a shaft slit which is formed in the cylindrical portion by cutting off a portion thereof in the axial direction; and a fastener for the clamp coupling is mounted on a portion of an outer circumference of the first shaft in which the shaft slit is formed and the bush has a bush slit which corresponds to the keyway. | 06-05-2014 |
20140296014 | ROTATION APPARATUS INCLUDING MOTOR AND SPEED REDUCER - In a rotation apparatus including a motor and a speed reducer, the speed reducer includes a casing, an internal gear integrated with the casing, a planetary gear internally engaged with the internal gear, and a carrier body arranged in an axial side portion of the planetary gear, the motor and the speed reducer are connected with each other via an adapter, the adapter includes a motor-fixed surface fixed to the motor, a carrier-fixed surface fixed to the carrier body, and an externally fixed surface that is not parallel with the carrier-fixed surface and is fixed to an external member, a driven member is connected to the casing, the driven member, the speed reducer, and the externally fixed surface are overlapped with each other when viewed from a radial direction, and the driven member is rotated within a range of 180 degrees. | 10-02-2014 |
Yuuji Nishitani, Kanagawa JP
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20150380347 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device including a plurality of solder balls on a surface the semiconductor device, and a retaining body associated with a first solder ball of the plurality of solder balls, separating the first solder ball from at least a second solder ball of the plurality of solder balls. The retaining body includes a conductive portion and an insulating portion configured to cover the conductive portion. Also, a method of manufacturing a semiconductor device, including acts of forming a plurality of retaining bodies on a surface of a wiring substrate, each retaining body comprising a conductive portion and an insulating portion covering the conductive portion, each retaining body forming an opening section, and forming a solder ball in the opening section formed by each of the retaining bodies. | 12-31-2015 |
Yuuji Nishitani, Shizuoka JP
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20150340058 | ROTATING DEVICE - A rotating device includes: a hub mounting a recording disk; a base rotatably supporting the hub via a bearing, a core fixedly mounted on the base, and having a circular portion and salient poles protruding radially outward; a coil wound around the salient poles; and an FPC including driving lines. The base has a wire hole that communicates between an upper face that faces the coil in the axial direction and an opposite lower face. The lower face has a bottom recess portion surrounding a hub rotational axis, and regions facing each other across the rotational axis. The FPC includes an arc section housed in the bottom recess portion. Each lead wire is drawn out from the coil to the lower-face side via the wire hole, and is connected to the driving line on a connection land formed at an interval from the wire hole in the circumferential direction. | 11-26-2015 |