Patent application number | Description | Published |
20100273600 | AUTOMATIC TRANSMISSION - An automatic transmission includes first to third single-pinion planetary gearsets. The second ring gear and third sun gear are coupled to the first carrier and first ring gear respectively to constitute first and second rotor units. Input and output shafts are coupled to the second sun gear and third ring gear respectively. A first clutch selectively holds the first sun gear to the third carrier. A first brake selectively holds the first sun gear stationary. A second clutch selectively holds the second sun gear to the third carrier. A third clutch selectively holds the second carrier to the second rotor unit. A fourth clutch selectively holds the second carrier to the third carrier. A second brake selectively holds the first rotor unit stationary. At least eight gear ratios and one reverse gear ratio are obtained by simultaneous application of three of the clutches and brakes. | 10-28-2010 |
20100273601 | AUTOMATIC TRANSMISSION - An automatic transmission including three single pinion planetary gearsets and six friction elements, in which an input shaft is always connected to a first sun gear of a first planetary gearset, the output shaft is always connected to a second ring gear of a second planetary gearset, a third sun gear of a third planetary gearset is always kept in a fixed state relative to a transmission case of the automatic transmission, a first ring gear of the first planetary gearset and a third pinion carrier of the third planetary gearset are always connected to each other and constitute a first rotary member, and at least eight forward speeds and one reverse speed are respectively established by simultaneous engagements of three friction elements selected from the six friction elements. | 10-28-2010 |
20110028261 | AUTOMATIC TRANSMISSION - An automatic transmission includes first to third single-pinion planetary gearsets. The second ring gear and third sun gear are coupled to the first carrier and first ring gear respectively to constitute first and second rotor units. Input and output shafts are coupled to the second sun gear and third ring gear respectively. A first clutch selectively couples the first sun gear to the first carrier. A second clutch selectively couples the second sun gear to the third carrier. A third clutch selectively couples the second carrier to the second rotor unit. A fourth clutch selectively couples the second carrier to the third carrier. A first brake selectively holds the first sun gear stationary. A second brake selectively holds the third carrier stationary. At least eight forward gear ratios and one reverse gear ratio are obtained by simultaneous application of three of the clutches and brakes. | 02-03-2011 |
20110028262 | AUTOMATIC TRANSMISSION - An automatic transmission comprising: a first planetary gearset of a double pinion; a second planetary gearset of a single pinion; a third planetary gearset of the single pinion, first sun gear and second sun gear being at all times linked together to constitute a first rotary member and second ring gear and third sun gear being at all times linked together to constitute a second rotary member; an input shaft; an output shaft; a first frictional element; a second frictional element; a third frictional element; a fourth frictional element; a fifth frictional element; a sixth frictional element, the six frictional elements being appropriately released or engaged to make a gear shift to a gear shift stage of at least eight forward speeds and, from among the six frictional elements, a combination of simultaneous engagements of three frictional elements achieving at least eight forward speed and one reverse speed. | 02-03-2011 |
20110071742 | AUTOMATIC TRANSMISSION AND LEARNING METHOD THEREOF - When an inertia phase of an upshift of the transmission is started during a lockup clutch engagement operation, a following command oil pressure to be used during a following lockup clutch engagement operation is learned on the basis of a slip rotation speed, which is a rotation speed difference between an input side rotation speed of the torque converter and an output side rotation speed of the torque converter, at or after a start point of the inertia phase. | 03-24-2011 |
Patent application number | Description | Published |
20110136616 | AUTOMATIC TRANSMISSION - An automatic transmission including a single-pinion first planetary gearset having a first sun gear, a first ring gear and a first pinion carrier, a double-pinion second planetary gearset having a second sun gear, a second ring gear and a second pinion carrier, a single-pinion third planetary gearset having a third sun gear, a third ring gear and a third pinion carrier, an input shaft always connected to the first sun gear, an output shaft always connected to the first pinion carrier, the third sun gear always kept in a fixed state, the first ring gear and the second sun gear which are always connected to each other, the second and third ring gears which are always connected to each other, and six friction elements, at least eight forward speeds and one reverse speed being respectively established by simultaneous engagement of two friction elements selected from the six friction elements. | 06-09-2011 |
20110231073 | CONTROL APPARATUS OF AUTOMATIC TRANSMISSION - A control apparatus for a vehicle includes an automatic transmission configured to attain a predetermined shift-stage by releasing an engaged friction-engagement element and by engaging a released friction-engagement element; a variation-start detecting section configured to detect that a parameter which varies with a progress of inertia phase has varied; a memorizing section configured to sequentially memorize a state of the vehicle; and a learning section to configured to correct a control quantity for a next-time shift of the transmission on the basis of the state of vehicle memorized at a timing earlier by a given time interval than a timing when the variation-start detecting section detects that the parameter has varied. | 09-22-2011 |
20110306461 | AUTOMATIC TRANSMISSION - An automatic transmission includes a double-pinion planetary gearset and two single-pinion planetary gearsets. A first ring gear is held stationary. A second sun gear and a third ring gear are coupled to a first sun gear and a first carrier respectively, constituting first and second rotor units. An output is coupled to a third carrier. A first clutch selectively couples a second carrier to the first rotor unit. A second clutch selectively couples the second carrier to the second rotor unit. A third clutch selectively couples an input to the second carrier. A fourth clutch selectively couples a second ring gear to a third sun gear. A fifth clutch selectively couples the second ring gear to the third carrier. A sixth clutch selectively couples the input to the third sun gear. Nine forward gear ratios and one reverse gear ratio are obtained by simultaneous application of three of the clutches. | 12-15-2011 |
20120004067 | LOW FRICTION LOSS AUTOMATIC TRANSMISSION - An automatic transmission including a double pinion planetary gear unit PG | 01-05-2012 |
20120244988 | AUTOMATIC TRANSMISSION - An automatic transmission includes: a first planetary gearset including a first sun gear, a first ring gear, and a first pinion carrier; a second planetary gearset including a second sun gear, a second ring gear, and a second pinion carrier; an input shaft constantly coupled to the first sun gear; an output shaft constantly coupled to the second pinion carrier; a first rotary member constantly connecting the first ring gear and the second sun gear; a first friction element selectively connecting the first sun gear and the second ring gear; a second friction element selectively connecting the first pinion carrier and the second ring gear; a third friction element selectively interrupting a rotation of the first pinion carrier; and a fourth friction element selectively interrupting a rotation of the first rotary member, the automatic transmission attaining first to fourth forward speeds and one reverse speed. | 09-27-2012 |
20140005901 | AUTOMATIC TRANSMISSION CONTROL DEVICE | 01-02-2014 |
20140349803 | AUTOMATIC TRANSMISSION FOR VEHICLE - The first planetary gear set is configured to integrally rotate by a first clutch. The first element is coupled with the fifth element. The second element is configured to be locked through a first brake to a stationary section and configured to be coupled through a second clutch with the ninth element. The third element is coupled with the input shaft. The fourth element is configured to be coupled through a third clutch with the ninth element. The sixth element is locked to the stationary section. The seventh element is configured to be locked through a second brake to the stationary section. The eighth element is coupled with an output shaft. The ninth element is coupled with the twelfth element. The tenth element is configured to be coupled through a fourth clutch with the output shaft. The eleventh element is coupled with the input shaft. | 11-27-2014 |
Patent application number | Description | Published |
20110056421 | PUNCH DATA GENERATING DEVICE AND COMPUTER READABLE MEDIUM STORING PUNCH DATA GENERATING PROGRAM - A punch data generating device is disclosed that generates punch data for execution with an embroiderable sewing machine including a needle bar allowing attachment of a punch needle for forming a plurality of small holes on a sheet of workpiece by piercing the workpiece in dot-by-dot strokes of the punch needle, a transfer mechanism that transfers the workpiece in two predetermined directions in coordination with an up and down movement of the punch needle to execute a holing operation for forming the small holes on the workpiece. The punch data generating device includes a cut data generator that generates cut data constituting the punch data, the cut data being configured to instruct consecutive formation of the small holes at least along an outline of a pattern section of the workpiece in which a predetermined pattern is drawn to allow cutting of the outline. | 03-10-2011 |
20110088605 | PUNCH DATA GENERATING DEVICE AND COMPUTER READABLE MEDIUM STORING PUNCH DATA GENERATING PROGRAM - A punch data generating device generating punch data for execution with an embroiderable sewing machine including a needle bar moved up and down and mounted with a punch needle for forming penetrations on a workpiece in dot-by-dot strokes, a transfer mechanism transferring the workpiece in two directions in coordination with the movement of the punch needle to form the penetrations. The punch data generating device includes a cut data generator generating cut data constituting the punch data, the cut data being used to form the penetrations along an outline of a predetermined pattern to allow cutting of the outline; and an auxiliary cut data generator generating auxiliary cut data constituting the punch data, the auxiliary cut data being used to form penetrations contacting the outline of the pattern to form a cut that facilitates detachment of the outline from the workpiece. | 04-21-2011 |
20110088606 | PUNCH DATA GENERATING DEVICE AND COMPUTER READABLE MEDIUM STORING PUNCH DATA GENERATING PROGRAM - A punch data generating device generating punch data for execution with an embroiderable sewing machine including a needle bar that is moved up and down and mounted with a punch needle for forming penetrations on a workpiece in dot-by-dot strokes, a transfer mechanism transferring the workpiece in two directions in coordination with the movement of the punch needle to form the penetrations. The punch data generating device includes a punch data generator generating punch data, the punch data including at least either of draw data being configured to instruct sequential formation of the penetrations to draw a predetermined pattern, and cut data being configured to instruct sequential formation of the penetrations along an outline of a predetermined pattern to allow cutting of the outline; and a data modifier modifying at least either of the draw data and the cut data to change how the penetrations are to be formed. | 04-21-2011 |
20130112129 | APPARATUS, NON-TRANSITORY COMPUTER-READABLE MEDIUM AND SEWING MACHINE - An apparatus includes a processor and a memory. The memory is configured to store computer-readable instructions that instruct the apparatus to execute steps including acquiring pattern data, identifying a plurality of needle drop points, identifying a corresponding identified needle, storing needle drop point data and identified needle data in association with each other in the memory, identifying a continuous number of times, replacing, among the identified needle data stored in the memory, the identified needle data of the identified needle for which the identified continuous number of times is smaller than a threshold value, with other identified needle data corresponding to the needle drop point data of one of a previous needle drop point and a subsequent needle drop point in the order, and generating cut data based on the needle drop point data and the identified needle data stored in the memory. | 05-09-2013 |
20130116815 | APPARATUS AND NON-TRANSITORY COMPUTER-READABLE MEDIUM - An apparatus includes a processor and a memory configured to store computer-readable instructions that instruct the apparatus to execute steps comprising acquiring pattern data, identifying needle drop points on a pattern line, identifying, as a corresponding cutting needle for each of the plurality of needle drop points, one of cutting needles configured to be attachable to needle bars of a multi-needle sewing machine in a state in which directions of cutting edges are different from each other, storing needle drop point data and cutting needle data in association with each other in the memory, identifying an extending direction of fibers of the work cloth, replacing the cutting needle data in which an angle between the extending direction and the direction of the cutting edge does not satisfy a predetermined relationship, with other data indicating another cutting needle in which the angle satisfies the predetermined relationship, and generating cut data. | 05-09-2013 |
20140109815 | SEWING MACHINE, APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE MEDIUM STORING COMPUTER-READABLE INSTRUCTIONS - A sewing machine includes a sewing portion, a processor, and a memory. The sewing portion is configured to perform sewing on a work cloth. The memory is configured to store computer-readable instructions. The computer-readable instructions cause the processor to perform processes that include specifying an inside position that is a position inside a hole in at least one sequin that has been disposed on the work cloth in advance, creating sewing data based on the inside position that has been specified, and causing the sewing portion to sew the at least one sequin onto the work cloth, based on the sewing data that has been created. The sewing data includes at least needle drop point data and is data for sewing the at least one sequin onto the work cloth. The needle drop point data indicates a point where a sewing needle is to pierce the work cloth. | 04-24-2014 |
20140182432 | CUTTING DATA GENERATOR, CUTTING APPARATUS AND NON-TRANSITORY COMPUTER-READABLE MEDIUM STORING CUTTING DATA GENERATING PROGRAM - A cutting data generator generating cutting data includes a control device configured to obtain position information of a plurality of figures printed on a sheet material, the figures representing an arrangement of a plurality of types of decorative pieces having at least different colors, the figures being capable of identifying the types of the decorative pieces, to set arrangement positions of a plurality of holes in the sheet material based on the obtained position information, the arrangement positions being positions where the holes partially overlap the figures respectively or where the holes come close to the figures respectively, the holes defining an arrangement of the decorative pieces, and to generate cutting data usable to cut the holes through the sheet material based on the set arrangement positions. | 07-03-2014 |
20140182463 | CUTTING DATA GENERATOR, CUTTING APPARATUS AND NON-TRANSITORY COMPUTER-READABLE MEDIUM STORING CUTTING DATA GENERATING PROGRAM - A cutting data generator includes a control device configured to obtain arrangement information including arrangement positions for arranging a plurality of types of decorative pieces with at least different colors and the types of the decorative pieces, to generate print data for printing identification marks at respective positions, based on the obtained arrangement information, the positions where the identification marks are to be printed corresponding to the arrangement positions respectively, the identification marks being indicative of the types of the decorative pieces respectively, and to generate cutting data for cutting a plurality of holes in a sheet material, based on the obtained arrangement information, the holes being usable to arrange the decorative pieces on the sheet material. | 07-03-2014 |
Patent application number | Description | Published |
20100273062 | ALL-SOLID-STATE BATTERY - An all-solid-state battery includes: a positive electrode active material layer that contains a positive electrode active material, and a first sulfide solid electrolyte material that contacts the positive electrode active material and that substantially does not have a cross-linking chalcogen; a negative electrode active material layer containing a negative electrode active material; and a solid electrolyte layer that is provided between the positive electrode active material layer and the negative electrode active material layer, and that contains a second sulfide solid electrolyte material that substantially has a cross-linking chalcogen. | 10-28-2010 |
20110065007 | ELECTRODE ACTIVE MATERIAL LAYER, ALL SOLID STATE BATTERY, MANUFACTURING METHOD FOR ELECTRODE ACTIVE MATERIAL LAYER, AND MANUFACTURING METHOD FOR ALL SOLID STATE BATTERY - An electrode active material layer includes an electrode active material and a sulfide solid state electrolyte material which is fused to a surface of the electrode active material and is substantially free of bridging sulfur. | 03-17-2011 |
20110167625 | METHOD FOR PRODUCING ALL SOLID LITHIUM BATTERY - The main object of the present invention is to provide a method for producing an all solid lithium battery, capable of easily performing dew point control in a battery assembly step. The present invention solves the above-mentioned problems by providing a method for producing an all solid lithium battery, comprising the steps of: preparing a material composition by adding Li | 07-14-2011 |
20110195315 | SOLID BATTERY - A solid battery includes: a positive electrode active material layer that includes a positive electrode active material; a negative electrode active material layer that includes a negative electrode active material; and a solid electrolyte layer that is formed between the positive electrode active material layer and the negative electrode active material layer. A reaction suppressing portion made of an oxide of a group 4 metallic element is formed at an interface between the positive electrode active material and an amorphous non-bridging sulfide-based solid electrolyte material that does not substantially contain bridging sulfur. | 08-11-2011 |
20110274984 | SULFIDE SOLID ELECTROLYTE MATERIAL - A main object of the present invention is to provide a sulfide solid electrolyte material that generates little hydrogen sulfide. To achieve the object, the present invention provides a sulfide solid electrolyte material which has a LiSbS | 11-10-2011 |
20120034529 | SULFIDE SOLID ELECTROLYTE MATERIAL - The main object of the present invention is to provide a sulfide solid electrolyte material with less hydrogen sulfide generation amount. The present invention solves the above-mentioned problem by providing a sulfide solid electrolyte material obtained by using a raw material composition containing Li | 02-09-2012 |
20120091391 | METHOD FOR PROCESSING BATTERY MEMBER - It is a major object of the invention to provide a method for processing a battery member, by which a cathode active material and a sulfide solid electrolyte material can be efficiently separated from each other and the cathode active material and Li contained in the sulfide solid electrolyte material can be efficiently recovered. To achieve the object, the present invention provides a method for processing a battery member containing at least a Li-containing cathode active material and a Li-containing sulfide solid electrolyte material, comprising the steps of: bringing the battery member into contact with a process solution to generate hydrogen sulfide as well as to dissolve the Li contained in the sulfide solid electrolyte material in the process solution; recovering the cathode active material as an insoluble component from the process solution containing the Li dissolved therein; and recovering a Li compound from the process solution, from which the cathode active material as an insoluble component is recovered. | 04-19-2012 |
20120115028 | ALL-SOLID BATTERY - An all-solid battery is formed so that an electrode active material layer of at least one of positive and negative electrodes has a composition distribution such that a local volume ratio, expressed by a ratio of a volume of an electrode active material contained in a part of the electrode active material layer with respect to a volume of a solid electrolyte material contained in the part of the electrode active material layer, increases as the part of the electrode active material layer approaches from an interface of the solid electrolyte layer toward an interface of a current collector in a thickness direction of the electrode active material layer, and a voidage of the electrode active material layer increases as the part of the electrode active material layer approaches from the interface of the solid electrolyte layer toward the interface of the current collector in the thickness direction. | 05-10-2012 |
20120177997 | METHOD FOR PRODUCING SOLID ELECTROLYTE MATERIAL-CONTAINING SHEET - A main object of the present invention is to provide a method for producing a solid electrolyte material-containing sheet excellent in strength. The present invention attains the object by providing a method for producing a solid electrolyte material-containing sheet comprising the steps of: preparing a raw material composition containing a sulfide solid electrolyte material and a binder composition containing a monomer or oligomer having a double bond and a radical polymerization initiator; applying the raw material composition to form a sheet-shaped composition; and polymerizing the sheet-shaped composition by radical polymerization. | 07-12-2012 |
20130065135 | ALL SOLID LITHIUM BATTERY - An Object of the invention is to obtain an all solid lithium battery having an excellent output performance. To achieve the object, a sulfide based solid electrolyte is used as an electrolyte; an oxide containing lithium, a metal element that acts as a redox couple, and a metal element that forms an electron-insulating oxide is used as a cathode active material; and the concentration of the metal element that forms the electron-insulating oxide on the surface of the cathode active material (oxide) that is in contact with the sulfide solid electrolyte is made high. | 03-14-2013 |
Patent application number | Description | Published |
20090289519 | ELECTRIC ROTATING MACHINE - A lead conductor penetrating portion that bring out lead conductors to the inner diameter side is formed in a winding holding portion of a clamp ring for holding a rotor winding that overhangs from a rotor core, and furthermore a stopper is formed in a lead portion on the inner diameter side of the lead conductor, and a centrifugal force-resistant member for holding a centrifugal force acting on the lead conductor is interposed between the stopper and the inner diameter side of the winding holding portion. | 11-26-2009 |
20090315429 | ROTATING ELECTRICAL MACHINE - The present invention provides a rotating electrical machine including a rotor core that does not produce narrow areas in rotor slots even if circumferential ends of fan-shaped segment cores are displaced radially outwardly and circumferentially during operation. In the present invention, slots near circumferential ends of the fan-shaped segment cores are made larger than slots in circumferential intermediate portions of the segment cores. With such a configuration, even if the circumferential ends of the segment cores are displaced radially outwardly and circumferentially during operation, the circumferential ends of the segment cores forming the large slots do not protrude into the slots formed in the circumferential intermediate portions of axially adjacent segment cores, thereby preventing narrow areas from being produced in the rotor slots. | 12-24-2009 |
20110278994 | ROTOR OF ROTATING ELECTRICAL MACHINE - A rotating electrical machine is provided in which, even when torque from a water turbine is reduced and reverse torque is applied due to load cut off, a rotor core is not eccentric to spider arms. The rotor of a rotating machine includes a vertical rotating shaft, spider arms extending radially from the vertical rotating shaft, and a rotor core component provided to the outer circumference of the spider arms. A T key and cotters are inserted into and secured to a key way provided to an abutment surface of the inner circumference of the rotor core component and the top end of the spider arm. A plate spring is mounted to a surface of the spider arm, the surface facing a rotational direction for electrical generation. The plate spring has one side engaging the spider arm, the other side engaging the rotor core component, and a middle portion bolted from an opposite surface of the spider arm. | 11-17-2011 |