Patent application number | Description | Published |
20100197453 | Travel Operation Structure for Work Vehicle - A travel operation structure of a work vehicle, comprising a pair of left and right side brake pedals disposed on either the left or right of a steering wheel; a hydro static transmission for changing the speed of travel; and a stop operation pedal disposed on the other of the left and right of the steering wheel; wherein the corresponding left or right side brake is applied when one of the pair of left and right side brake pedals is depressed, and when both the left and right side brake pedals are depressed, both the left and right side brakes operate, and travel is stopped; and when the stop operation pedal is depressed, operating oil of the continuously variable speed change device is directed into an oil tank, and the continuously variable speed change device is switched to a neutral stop position for blocking transmission of power to the travel device. | 08-05-2010 |
20100242637 | Transmission Device for Work Vehicle - A transmission device for a work vehicle, comprising a travel drive system for transmitting engine power to a travel device; an implement drive system for transmitting engine power to an external power take-off shaft; braking operation tools for a braking operation; a stop operation mechanism provided to the travel drive system and capable of interrupting the transmission of power to the travel device; and a hydraulically operated PTO clutch for interrupting the transmission of power to the external power take-off shaft, the PTO shaft being provided to the implement drive system; wherein
| 09-30-2010 |
20110178684 | Speed Change System for Work Vehicle - A speed change system for work vehicle having a continuously variable transmission device selects a first change gear ratio which is set larger than a smallest change gear ratio, when an engine rotational speed is a first set rotational speed which is set equal or close to an idling rotational speed of an engine; retains the change gear ratio of the continuously variable transmission device at the smallest change gear ratio, when the engine rotational speed is equal to or above a second set rotational speed set on a high-speed side relative to the first set rotational speed; and makes the change gear ratio of the continuously variable transmission device larger between the first change gear ratio and the smallest change gear ratio, as the engine rotational speed at that moment becomes lower, when the engine rotational speed is between the first and second set rotational speeds. | 07-21-2011 |
20160091078 | WORK VEHICLE WITH IMPROVED TRANSMISSION HYDRAULICS - A work vehicle that includes: a transmission system decreasing or changing a speed of a driving force from an engine and outputting the driving force. A transmission case houses the transmission system. A hydraulic circuit supplies oil collected in the transmission case to hydraulic equipment. The transmission case is divided to form a storage space housing a minimum speed transmission portion of the transmission system. The hydraulic circuit connects a suction intake oil passage of the hydraulic circuit to a bottom portion of the storage space and supplies the oil collected in the storage space to the hydraulic equipment. | 03-31-2016 |
Patent application number | Description | Published |
20090115286 | Electrically conductive thin film formed from an ionic liquid and carbon nanotubes having a high aspect ratio, and actuator element comprising the thin film - The present invention provides an actuator exhibiting improved performance. The actuator is formed of an electrically conductive thin film formed from an ionic liquid and carbon nanotubes having an aspect ratio of not less than 10 | 05-07-2009 |
20130251619 | AGGREGATED THREAD STRUCTURE, PRODUCTION METHOD THEREOF, AND ELECTRIC WIRE USING THE SAME - A method for producing an aggregated thread structure includes (a) a process of dispersing carbon nanotube to a first solvent, which is water or a mixed solvent containing organic solvent and water, with a surfactant, to create a dispersion and (b) a process of injecting the dispersion, in which carbon nanotube is dispersed, to a condensing liquid, which is a second solvent that differs from the first solvent, to thereby aggregate and spin carbon nanotube. The aggregated thread structure containing carbon nanotube has: a bulk density of 0.5 g/cm | 09-26-2013 |
20140346697 | AGGREGATED THREAD STRUCTURE, PRODUCTION METHOD THEREOF, AND ELECTRIC WIRE USING THE SAME - A method for producing an aggregated thread structure includes (a) a process of dispersing carbon nanotube to a first solvent, which is water or a mixed solvent containing organic solvent and water, with a surfactant, to create a dispersion and (b) a process of injecting the dispersion, in which carbon nanotube is dispersed, to a condensing liquid, which is a second solvent that differs from the first solvent, to thereby aggregate and spin carbon nanotube. The aggregated thread structure containing carbon nanotube has: a bulk density of 0.5 g/cm | 11-27-2014 |
Patent application number | Description | Published |
20100176071 | Water treatment apparatus and a method for cleaning a filter layer of a water treatment apparatus - A water treatment apparatus includes a raw water supply tube, mixed raw water stream jet nozzles each communicating at one end thereof with the raw water supply tube and having at the other end thereof a raw water outlet from which mixed stream of raw water and air is jetted out, a filtering tank housing a filter layer disposed below the mixed raw water stream jet nozzles with a predetermined distance between the surface of the filter layer and the raw water outlet of the mixed raw water stream jet nozzles, a filtered water takeout tube provided in the filtering tank for taking out water filtered through the filter layer, a reverse stream cleaning water supply tube provided in the filtering tank for supplying reverse stream cleaning water to the filter layer, filter layer cleaning jet nozzles each communicating at one end thereof with a filter layer cleaning water supply tube and having at the other end thereof a cleaning water outlet from which cleaning water is jetted out, and an overflow outlet provided in the filtering tank above the filter layer. | 07-15-2010 |
20120103917 | Water Treatment Apparatus and a Method for Cleaning a Filter Layer of a Water Treatment Apparatus - A water treatment apparatus including one or a plurality of mixed raw water stream jet nozzles ( | 05-03-2012 |
20130068855 | MIXED STREAM NOZZLE - A mixed stream nozzle which can prevent accumulation and solidifying of oxides on an inner wall of a raw-water-air mixed stream nozzle of a water treatment apparatus with a simple device is provided. In a mixed stream nozzle having, at one end thereof, a water supply tube connecting portion ( | 03-21-2013 |
20140238924 | CLEANING APPARATUS FOR FILTRATION LAYER IN SEAWATER INFILTRATION INTAKE - To provide a cleaning apparatus suitable for removing clogging substances trapped in a surface layer of a sand filtration layer. A cleaning apparatus equipped with drive wheels serving as a driving device configured to move across a surface of a sand filtration layer. A pump and a jet nozzle are provided as an agitation device configured to agitate a surface layer portion of the sand filtration layer only at a desired depth, and which blows the clogging substances upward into the seawater in a turbid water intake pit together with a filtration sand. A perforated pipe for suctioning turbid water, a pump, an ejector, and a discharge pipe for dilute turbid water are provided as a suction and discharge device configured to suction turbid water blown upward into seawater in the water intake pit by the agitation device, and discharge it to outside of the turbid water intake pit. Prevents clogging by performing a timely cleaning of the sand filtration layer, thereby making it possible to maintain a high-speed seawater infiltration rate for seawater. Impact on the surrounding environment is reduced, because the apparatus suctions turbid water containing clogging substances which is blown upward into the turbid water intake pit, and discharges it to outside of the system. | 08-28-2014 |
Patent application number | Description | Published |
20080302773 | Arc Welding Robot - In the visual inspection of welded members, there is a limit to welding quality control. Even in the welding quality control using general-purpose measuring instruments, sufficient data cannot be collected, and increased cost entails. | 12-11-2008 |
20080314884 | Method of Controlling Arc Welding and Welding Apparatus - A wire feeding speed is decreased to a level lower than a base wire feeding speed in a short-circuiting period, and set to the base wire feeding speed in an arcing period. During the arcing period, a welding current is increased to a predetermined peak value by means of current control from the start of arcing to a first predetermined time, the welding current is then supplied with a welding voltage, a source voltage of which is controlled constant, from the first predetermined time to a second predetermined time, and the welding current is decreased to a predetermined base current by means of current control from the second predetermined time until the end of the arcing period. | 12-25-2008 |
20090152252 | Pulse arc welding control method and pulse arc welding device - Disclosed here is a pulse welding control method and a pulse arc welding device capable of improving arc stability, and decreasing the amount of spatters. The structure contains arc short-circuit judging section ( | 06-18-2009 |
20100059492 | AUTOMATIC WELDING EQUIPMENT - A welding control unit has a common power section for detecting contact of a welding material and for welding. A material contact detector for detecting contact of the welding material and a workpiece, and a power controller are built in the welding control unit. This stabilizes a bead shape in starting welding. The number of components can also be reduced, resulting in more inexpensive equipment. In addition, only a space for installing the welding control unit is needed without any additional space. | 03-11-2010 |
20100126976 | WELDING DEVICE - A welding device includes a welding torch, a memory, a power supply, an input section, a selector, and a controller. The welding torch includes a welding tip having a feeder for supplying electric power to a welding wire. The memory stores a plurality of welding conditions in which a feeder-work-piece to be welded distance is associated with at least one a length of the wire supplied per unit time, a weight of the wire supplied per unit time, and a set electric current. The power supply supplies electric power between the wire and the work-piece. The input section receives an input of a set value of a feeder-work-piece distance. The selector selects one of the welding conditions stored in the memory based on the set value. The controller controls the power supply based on the welding condition selected by the selector. | 05-27-2010 |
20100230395 | WELDING TORCH - It comprises cylindrical feeder collet ( | 09-16-2010 |
20120000895 | METHOD OF CONTROLLING WELDING - A welding control method for a welding device having an output characteristic with a predetermined gradient showing a relation between a welding output voltage and a welding output current. By setting a set target welding voltage that is higher than the set initial welding voltage according to a difference between the set initial welding voltage and the welding output voltage, the welding output voltage is controlled to be the set target welding voltage. Thus, a proper arc length can be achieved early by correcting the change of the arc length due to, for example, motion of the hands of a welding operator. | 01-05-2012 |
20120074114 | CONSUMABLE ELECTRODE ARC WELDING METHOD AND CONSUMABLE ELECTRODE ARC WELDING DEVICE - If a short circuit does not occur during deceleration of a wire feed speed in forward feed of a welding wire before the wire feed speed reaches a predetermined wire feed speed, a cyclic change is stopped and the wire feed speed is constantly controlled at the first feed speed. If a short circuit occurs during forward feed at the first feed speed, deceleration from the first feed speed starts, and the cyclic change is resumed for welding. This achieves uniform weld bead without increasing spatters even if any external disturbance such as change of distance between a tip and base material occurs. | 03-29-2012 |
20120097654 | ARC WELDING CONTROL METHOD AND ARC WELDING APPARATUS - An arc welding control method for carrying out welding by generating an arc between a wire and a base material. The wire is fed at wire feed speed (Wf) of periodically repeating forward feeding and reverse feeding with predetermined frequency and amplitude from time point ( | 04-26-2012 |
20120111842 | ARC WELDING METHOD AND ARC WELDING APPARATUS - An arc welding method relates to consumable electrode arc welding in which a welding wire feeding rate suitable for a welding current is determined as an average feeding rate, and the short circuit state and the arc generation state are alternately generated by changing the wire feeding periodically and repeatedly between the forward feeding and the reverse feeding. The method offers arc welding with the average feeding rate according to a welding current, a predetermined frequency, and a predetermined velocity amplitude. In the method, at least any one of the frequency and the velocity amplitude is set to a value suitable for the welding current. | 05-10-2012 |
20120145690 | ARC WELDING METHOD AND ARC WELDING APPARATUS - An arc welding method comprising the steps of accelerating a feeding speed of a welding wire to cause shorting between the welding wire and a base metal when a welding end signal is input during a period of arcing, retracting the welding wire backward thereafter until a wire retracting speed reaches a predetermined rate, controlling the wire retracting speed constant at this speed for a predetermined duration of time, then stopping the backward retraction of the welding wire, and then terminating a welding power output after supplying a predetermined amount of welding current for a predetermined duration of time starting from a time when opening of the shorting occurs during the backward retraction of the welding wire. | 06-14-2012 |
20120145691 | ARC WELDING METHOD AND ARC WELDING APPARATUS - An arc welding method of the present invention controls a short-circuit current increasing gradient (di/dt), an inflection point at which the short-circuit current increasing gradient (di/dt) changes, the current in a peak period and in a base period, and the time of the peak period in accordance with a difference between a set voltage and an output voltage. This allows the output voltage to be matched with the set voltage, and stabilizes the arc. Thereby, a stable arc welding method can be implemented, even as a method for outputting a welding current based on a welding voltage. | 06-14-2012 |
20130082040 | CONSUMABLE ELECTRODE ARC WELDING METHOD AND CONSUMABLE ELECTRODE ARC WELDING DEVICE - If a short circuit does not occur during deceleration of a wire feed speed in forward feed of a welding wire before the wire feed speed reaches a predetermined wire feed speed, a cyclic change is stopped and the wire feed speed is constantly controlled at the first feed speed. If a short circuit occurs during forward feed at the first feed speed, deceleration from the first feed speed starts, and the cyclic change is resumed for welding. This achieves uniform weld bead without increasing spatters even if any external disturbance such as change of distance between a tip and base material occurs. | 04-04-2013 |
20130082041 | CONSUMABLE ELECTRODE ARC WELDING METHOD AND CONSUMABLE ELECTRODE ARC WELDING DEVICE - If a short circuit does not occur during deceleration of a wire feed speed in forward feed of a welding wire before the wire feed speed reaches a predetermined wire feed speed, a cyclic change is stopped and the wire feed speed is constantly controlled at the first feed speed. If a short circuit occurs during forward feed at the first feed speed, deceleration from the first feed speed starts, and the cyclic change is resumed for welding. This achieves uniform weld bead without increasing spatters even if any external disturbance such as change of distance between a tip and base material occurs. | 04-04-2013 |
20140202993 | WELDING METHOD - A method of welding surface-treated members together using a welding wire includes a step of transferring a droplet detached from the wire to the members and a step of pushing the melt pool in the direction opposite to the direction of welding in such a manner that the gas generated from the members during welding is released from the site of generation. The melt pool is pushed to expose the overlapped region of these members. The gas generated from the members is released to the exposed portion, preventing generation of pores such as blowholes, and also generation of spatters. | 07-24-2014 |
20140203001 | WELD LINE-DETECTING METHOD AND INDUSTRIAL ROBOT - The present invention is a weld line-detecting method when fillet welding by an industrial robot including a welding torch is taught. The welding torch on which an angle sensor having a contactor is attached is moved toward a welding object, angle information obtained when the contactor is in contact with the welding object is transmitted to the industrial robot, and the industrial robot moves the welding torch based on the angle information so that the angle of the contactor becomes zero. These operations are repeated, and the welding torch is moved toward a fillet part along the surface of the welding object. When the contactor arrives at the fillet part, a signal indicating that the contactor is pressed in the axial direction of the contactor is transmitted to the industrial robot. The industrial robot detects that the contactor arrives at the position to be welded on the weld line. | 07-24-2014 |
20150041449 | ARC-WELDING METHOD AND ARC-WELDING APPARATUS - An arc-welding method in welding by repeating a short circuit and an arc. When the sign of opening of the short circuit is detected, the welding current is reduced from a first current value at the detection of the sign to a second current value, which is lower than the first current value. When the opening of the short circuit is detected, a pulse current having a peak value higher than the first current value is supplied at a plurality of times in the arc period. This suppresses porosities and spatters when galvanized steel sheets are welded. | 02-12-2015 |
Patent application number | Description | Published |
20120219904 | RESIST COMPOSITION AND METHOD FOR PRODUCING RESIST PATTERN - A resist composition contains (A1) a resin having a structural unit represented by the formula (I), (A2) a resin being insoluble or poorly soluble in alkali aqueous solution, but becoming soluble in an alkali aqueous solution by the action of an acid, and (B) an acid generator represented by the formula (II). | 08-30-2012 |
20120219905 | RESIST COMPOSITION AND METHOD FOR PRODUCING RESIST PATTERN - A resist composition contains (A1) a resin having a structural unit represented by the formula (I), (A2) a resin being insoluble or poorly soluble in alkali aqueous solution, but becoming soluble in an alkali aqueous solution by the action of an acid, (B) an acid generator, and (D) at least one compound selected from the group consisting of a compound represented by the formula (II1) and a compound represented by the formula (II2), | 08-30-2012 |
20120251945 | PHOTORESIST COMPOSITION - The present invention provides a photoresist composition containing: a resin which contains a structural unit derived from a compound having an acid-labile group and which is insoluble or poorly soluble in an alkali aqueous solution but becomes soluble in an alkali aqueous solution by the action of an acid; an acid generator and a compound represented by the formula (I): | 10-04-2012 |
20120264055 | PHOTORESIST COMPOSITION - The present invention provides a photoresist composition comprising a salt represented by the formula (I): | 10-18-2012 |
20130040237 | SALT, PHOTORESIST COMPOSITION AND METHOD FOR PRODUCING PHOTORESIST PATTERN - A photoresist composition which comprises
| 02-14-2013 |
20130040239 | SALT, PHOTORESIST COMPOSITION AND METHOD FOR PRODUCING PHOTORESIST PATTERN - A salt represented by formula (I): | 02-14-2013 |
Patent application number | Description | Published |
20080280171 | Hydrogen Generation Device, Operation Method Thereof, and Fuel Cell System - A hydrogen generation device of the present includes: a reforming unit for steam-reforming raw material containing at least carbon atoms and hydrogen atoms to generate a hydrogen-containing gas; a raw material supply unit for supplying a raw material to the reforming unit; a steam generation unit for supplying steam to the reforming unit, a steam generation unit temperature detection unit for detecting the temperature of the steam generation unit; a heating unit for supplying a combustion gas for successively heating the reforming unit and the steam generation unit by heat transfer, and a control unit. The control unit controls a raw material supply amount from the raw material supply unit and a water supply amount from a water supply unit and controls one of the amount of the air to the heating unit, the amount of a fuel to the heating unit, and the amount of the raw material to the reforming unit so that no water remains in the steam generation unit according to the detected temperature from the steam generation unit temperature detection unit. Thus, it is possible to operate the hydrogen generation device without leaving water in the steam generating unit and to provide a hydrogen generation device operation method having a high reliability and economy and a hydrogen generation device using the same as well as a fuel cell generation system using the hydrogen generation device. | 11-13-2008 |
20090258263 | HYDROGEN GENERATOR AND FUEL CELL SYSTEM - Provided is a hydrogen generator capable of suppressing degradation in capability of a hydrogen generator which is caused by crush of particulate reforming catalyst and of suppressing decrease in reforming efficiency due to decrease in heat transfer efficiency of a catalyzing portion which is caused by the crush of the particulate reforming catalyst. A hydrogen generator comprises a catalyzing portion | 10-15-2009 |
20090317671 | HYDROGEN GENERATOR AND FUEL CELL SYSTEM INCLUDING THE SAME - A hydrogen generator ( | 12-24-2009 |
20100015480 | HYDROGEN GENERATOR AND FUEL CELL SYSTEM - A hydrogen generator according to the invention comprises: a combustion gas passage ( | 01-21-2010 |
20110039172 | HYDROGEN GENERATOR, FUEL CELL SYSTEM INCLUDING HYDROGEN GENERATOR, AND METHOD FOR OPERATING HYDROGEN GENERATOR - A hydrogen generator of the present invention includes: a raw material supplying device ( | 02-17-2011 |
20110123880 | HYDROGEN GENERATOR AND FUEL CELL SYSTEM INCLUDING THE SAME - A hydrogen generator includes: a first tube ( | 05-26-2011 |
20110206562 | HYDROGEN GENERATOR AND STARTUP METHOD THEREOF - A hydrogen generator is described, which comprises: a material supply device ( | 08-25-2011 |
20120321971 | HYDROGEN GENERATOR AND FUEL CELL POWER GENERATION SYSTEM - A hydrogen generation apparatus | 12-20-2012 |
20150044102 | HYDROGEN GENERATION APPARATUS - A hydrogen generation apparatus is configured to be supplied with a raw material containing a hydrocarbon component and generate a hydrogen-containing fuel gas. The hydrogen generation apparatus includes: a reformer configured to cause a reforming reaction of a mixed gas of the raw material and steam; a combustor configured to combust a combustible gas to heat the reformer; a hydrodesulfurizer configured to be supplied with heat from the reformer, and cause a reaction between sulfur in the raw material that is to be supplied to the reformer and hydrogen to remove the sulfur from the raw material; a first heat insulating material disposed between the hydrodesulfurizer and the reformer; and a heat equalizing plate disposed between the hydrodesulfurizer and the first heat insulating material. | 02-12-2015 |