Patent application number | Description | Published |
20090047559 | FUEL CELL ELECTRODE CATALYST WITH IMPROVED NOBLE METAL UTILIZATION EFFICIENCY, METHOD FOR MANUFACTURING THE SAME, AND SOLID POLYMER FUEL CELL COMPRISING THE SAME - An object of the present invention is to further increase the rate of Pt particles (Pt utilization rate) for three-phase interfaces in order to reduce the amount of catalytic metal such as Pt used for fuel cells. The present invention provides a fuel cell electrode catalyst comprising a conductive carrier and catalytic metal particles, wherein an average particle size of the carried catalytic metal particles is larger than an average pore size of micropores in the conductive carrier. | 02-19-2009 |
20090047568 | Electrode catalyst for fuel and fuel cell - A flooding phenomenon in a high current density loading region of fuel cells is suppressed so as to improve cell performance. An electrode catalyst for fuel cells comprises conductive carriers having ternary catalyst particles, which contain platinum, a base metal element, and iridium, supported thereon. A fuel cell uses the electrode catalyst for fuel cells. | 02-19-2009 |
20090117448 | Fuel Cell Electrode Catalyst with Reduced Noble Metal Amount and Solid Polymer Fuel Cell Comprising the Same - An object of the present invention is to reduce the amount of catalytic metal such as Pt in a fuel cell. The present invention provides a fuel cell electrode catalyst comprising a conductive carrier and catalytic metal particles, wherein the CO adsorption amount of the electrode catalyst is at least 30 mL/g·Pt. | 05-07-2009 |
20100227249 | PRODUCTION METHOD OF AN ELECTRODE CATALYST FOR A FUEL CELL, ELECTRODE CATALYST FOR A FUEL CELL, AND SOLID POLYMER FUEL CELL COMPRISING THE SAME - A method for producing an electrode catalyst for a fuel cell, including: an immersion step (step A) for immersing one or more selected from a catalyst component, a carrier of conductive particles, and a polymer electrolyte in a solvent; a catalyst loading step (step B) for loading the catalyst component on the carrier; and a reaction site forming step (step C) for depositing the polymer electrolyte onto the catalyst-loaded carrier, characterized by irradiating ultrasonic waves in at least one of steps A, B, and C. In the present invention, by suppressing a catalyst from being loaded inside the pores of a carrier, a method for producing an electrode catalyst for a fuel cell which increases the utilization rate of a noble metal catalyst and which improves power generation performance, an electrode catalyst for a fuel cell, and a solid polymer fuel cell provided therewith which can obtain high cell output can be obtained. | 09-09-2010 |
20100234210 | Fuel Cell Electrode Catalyst Comprising Binary Platinum Alloy and Fuel Cell Using the Same - An object of the present invention is to provide a fuel cell electrode catalyst which offers an improved durability while inhibiting the degradation of an initial catalytic activity to exhibit a stably high catalytic activity over a long period. The present invention provides a fuel cell electrode catalyst having an alloy carried by carbon, the alloy consisting of platinum and a platinum-family metal other tha platinum, characterized in that a composition ratio of platinum to platinum-family metal other than platinum to carbon is 1:(0.03 to 1.5):(0.46 to 2.2) (wt ratio). | 09-16-2010 |
20100330451 | ELECTRODE CATALYST SUBSTRATE AND METHOD FOR PRODUCING THE SAME, AND POLYMER ELECTROLYTE FUEL CELL - A method for producing an electrode catalyst substrate is provided herein, which comprises a carbon film forming step of forming a porous carbon film on a base, a hydrophilization step of hydrophilizing the porous carbon film, an immersion step of immersing the base in a solution prepared by dissolving catalytic metal ions in a polar solvent, and a reduction step of adding a reducing agent to the solution and thus reducing the catalytic metal ions. An electrode catalyst substrate obtained by the method and a polymer electrolyte fuel cell in which the electrode catalyst obtained by the method is used for anodes and/or cathodes are also provided herein. In the electrode catalyst of the present invention, fine catalyst particles are loaded in a uniform and highly dispersed manner. | 12-30-2010 |
20110130270 | METHOD FOR PREPARING FUEL CELL ELECTRODE CATALYST AND SOLID POLYMER FUEL CELL - According to the present invention, the catalyst performance of a chelate catalyst comprising a complex of a macrocyclic compound such as a porphyrin derivative is improved. Also, the following method is provided: a method for preparing a fuel cell electrode catalyst comprising a nitrogen-containing metal complex in which a metallic element is coordinated with a macrocyclic organic compound, such method comprising the steps of: adding tin oxalate to the nitrogen-containing metal complex; and baking a mixture of the nitrogen-containing metal complex and tin oxalate in an inert gas atmosphere, wherein elution of metal tin is carried out via acid treatment. | 06-02-2011 |
Patent application number | Description | Published |
20090092888 | Electrode catalyst for fuel cell and production process of the same - To enhance the activation of a catalyst comprising an alloy of platinum and cobalt, thereby providing an electrode catalyst for fuel cell whose battery output and fuel efficiency are high, and thereby providing a production process of the same. | 04-09-2009 |
20090099009 | PRODUCTION PROCESS OF ELECTRODE CATALYST FOR FUEL CELL - To provide a production process of an electrode catalyst for fuel cell whose initial voltage is high and whose endurance characteristics, especially, whose voltage drop being caused by high-potential application is less. | 04-16-2009 |
20090169974 | Conductive Carbon Carrier for Fuel Cell, Electrode Catalyst for Fuel Cell and Solid Polymer Fuel Cell Comprising Same - A conductive carbon carrier for a fuel cell having at least a surface layer graphitized, characterized in that the dimension (La) in a six-membered ring face (carbon plane) direction of a crystallite measured by X-ray diffraction is 4.5 nm or more. This carbon carrier improves the durability in a fuel cell and enables operation for a long period of time. | 07-02-2009 |
20090233135 | Fuel Cell Catalyst, Fuel Cell Electrode, and Polymer Electrolyte Fuel Cell Provided With Such Fuel Cell Electrode - A fuel cell catalyst in which catalyst particles are supported on a carrier is provided, wherein the value of the average catalyst carrier pore diameter/the catalyst metal (PGM) particle diameter is 0.5 to 1.8. Such fuel cell catalyst is less likely to cause voltage drops even after being used for a long period of time. | 09-17-2009 |
20100196802 | Fuel Cell and Supported Catalyst Used Therefor - A fuel cell having an excellent life property is achieved. A supported catalyst for a fuel cell includes a catalytic particle made of an alloy of platinum and gold, and a conductive carrier supporting the catalytic particle. 50% or more of gold forms a solid solution with platinum. | 08-05-2010 |
20100203428 | Supported Catalyst for Fuel Cell and Fuel Cell - A supported catalyst for fuel cell includes a conductive carrier and platinum supported on the conductive carrier. A 90% particle diameter D | 08-12-2010 |
20120040270 | FUEL CELL ELECTRODE CATALYST WITH REDUCED NOBLE METAL AMOUNT AND SOLID POLYMER FUEL CELL COMPRISING THE SAME - An object of the present invention is to reduce the amount of catalytic metal such as Pt in a fuel cell. The present invention provides a fuel cell electrode catalyst comprising a conductive carrier and catalytic metal particles, wherein the CO adsorption amount of the electrode catalyst is at least 30 mL/g·Pt. | 02-16-2012 |
20120149545 | ELECTRODE CATALYST FOR FUEL CELL - An object of the present invention is to provide a platinum catalyst for a fuel cell, the platinum catalyst having platinum particles with a fine particle size which are supported on carbon carriers in a highly dispersed manner. To achieve the above object, the present invention provides a method for producing an electrode catalyst for a fuel cell, the method comprising: an ammonia treatment step of heat-treating carbon carriers in an ammonia gas atmosphere; a platinum salt contact step of mixing the carbon carriers treated with ammonia with a solution prepared by dissolving a platinum salt in a solvent and bringing the platinum salt coming into contact with the carbon carriers in the mixture that has been formed; a recovery step of recovering the carbon carriers by removing the solvent from the mixture; and a heat treatment step of heat-treating the recovered carbon carriers in an inert gas atmosphere. | 06-14-2012 |
20120196738 | METHOD FOR PRODUCING ELECTRODE CATALYST FOR FUEL CELL - The present invention provides a method for producing an electrode catalyst for a fuel cell, comprising the steps of: mixing conductive particles loaded with catalyst metal fine particles with an organic compound; and heat treating the mixture formed in the mixing step under an inert gas atmosphere, so as to carbonize the organic compound. According to the present invention, the size increase of catalyst metal fine particles, which lowers catalytic activity, can be suppressed. | 08-02-2012 |
Patent application number | Description | Published |
20100183942 | ELECTRODE CATALYST FOR FUEL CELL, METHOD FOR PRODUCING THE SAME, AND FUEL CELL USING THE ELECTRODE CATALYST - This invention relates to an electrode catalyst for a fuel cell comprising catalyst metal particles of noble metal-base metal-Ce (cerium) ternary alloy carried on carbon materials, wherein the noble metal is at least one member selected from among Pt, Ru, Rh, Pd, Ag and Au, the base metal is at least one member selected from among Ir, Co, Fe, Ni and Mn, and the relative proportion (i.e., the molar proportion) of noble metal:base metal:Ce (cerium) is 20 to 95:5 to 60:0.1 to 3. The electrode catalyst for a fuel cell inhibits deterioration of an electrolyte membrane or an electrolyte in an electrode catalyst layer, improves durability, and, in particular, improves the capacity for power generation in the high current density region. | 07-22-2010 |
20130206276 | JOINING LOOP STRUCTURE OF INDUSTRIAL MULTILAYER FABRIC - A multilayer fabric is joined by engaging joining loops formed at both ends of a disjoined industrial multilayer fabric having wefts and warps in layers. The joining loops are formed by folding back some or all the end portions of warps. The both ends of the fabric are joined by engaging the loops to form a common hole and inserting a core wire into the common hole. At least one upper side weft remains while a lower side weft below the remaining upper side weft is removed at the both ends of the fabric. The common hole and the core wire inserted therein are located below the remaining upper side weft. The folded portions of the warps are interwoven with wefts of a normal portion of the fabric. | 08-15-2013 |
Patent application number | Description | Published |
20080236639 | SUBSTRATE TREATING APPARATUS - A substrate treating apparatus for treating substrates with a treating liquid includes a treating tank having an inner tank for storing the treating liquid, and an outer tank for collecting the treating liquid overflowing the inner tank. A supply pipe interconnects the inner tank and the outer tank for circulating the treating liquid. A first branch pipe is shunted from the supply pipe, and a separator is mounted on the first branch pipe for separating deionized water and a solvent in the treating liquid, and discharging the deionized water. A second branch pipe interconnects positions upstream and downstream of the separator, and a deionized water remover is mounted on the second branch pipe for adsorbing and removing deionized water from the treating liquid. An injection pipe is connected to the supply pipe for injecting deionized water in a position downstream of the separator. A solvent injector injects the solvent into the injection pipe. A controller carries out a deionized water cleaning process for supplying deionized water from the injection pipe and cleaning the substrates inside the cleaning tank with deionized water, then a replacing process for injecting the solvent from the solvent injector and replacing the deionized water with the solvent, a separating and removing process for switching to the first branch pipe and causing the separator to remove the deionized water from the treating liquid, and an adsorbing and removing process for switching to the second branch pipe and causing the deionized water remover to adsorb and remove the deionized water from the treating liquid. | 10-02-2008 |
20090179008 | SUBSTRATE TREATING APPARATUS AND METHOD - A substrate treating apparatus for treating substrates with a treating solution having a mixture of a chemical and a diluent. The apparatus includes a treating tank for storing the treating solution, a heating device for heating the treating solution, a supply pipe for supplying a gas at a fixed flow rate, the supply pipe having a detecting end at a predetermined depth in the treating tank, a pressure detecting device for detecting a pressure in the supply pipe, a converting device for converting the pressure detected by the pressure detecting device into a voltage, a storage device for storing, as a reference voltage, a voltage received from the converting device when a reference liquid at a reference temperature is stored in the treating tank, and a computing device for deriving an actual specific gravity of the treating solution from the reference voltage stored in the storage device, and a treatment voltage received from the converting device when the treating solution stored in the treating tank has been heated to a treating temperature by the heating device. | 07-16-2009 |
20100051055 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD - The substrate processing apparatus according to the present invention includes: a substrate rotating mechanism holding a substrate in a horizontal attitude and rotating the substrate around an axis passing through the center of the substrate; a processing liquid supply mechanism supplying a processing liquid to a central portion of the upper surface of the substrate rotated by the substrate rotating mechanism; a counter member arranged to be opposed to the upper surface of the substrate rotated by the substrate rotating mechanism; and a liquid film extending mechanism moving the counter member from a position opposed to the central portion of the substrate to a position opposed to a peripheral edge portion of the substrate in parallel with the supply of the processing liquid by the processing liquid supply mechanism and extending a liquid film of the processing liquid covering the central portion of the substrate toward the peripheral edge of the substrate due to the movement. | 03-04-2010 |
20100175714 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD - A substrate processing apparatus and a substrate processing method, with which a resist can be removed satisfactorily from the substrate and a processing solution used for removing the resist can be recycled, are provided. The substrate processing apparatus includes: a substrate holding means holding a substrate; a peroxosulfuric acid generating means generating a peroxosulfuric acid using sulfuric acid; a mixing means mixing the peroxosulfuric acid generated by the peroxosulfuric acid generating means and sulfuric acid of higher temperature and higher concentration than the sulfuric acid used in the peroxosulfuric acid generating means; and a discharging means discharging, toward the substrate held by the substrate holding means, the mixed solution of the peroxosulfuric acid and the sulfuric acid mixed by the mixing means as a processing solution for removing a resist from the substrate. | 07-15-2010 |
20110303242 | SUBSTRATE TREATING METHOD - A substrate treating method for treating substrates with a treating liquid includes a deionized water cleaning step for supplying deionized water from an injection pipe and cleaning the substrates inside a cleaning tank with deionized water, then a replacing step for injecting a solvent from a solvent injector and replacing the deionized water with the solvent, a separating and removing step for switching a channel to a branch pipe and causing a separator to remove the deionized water from the treating liquid, and an adsorbing and removing step for switching the channel to another branch pipe and causing a deionized water remover to adsorb and remove the deionized water from the treating liquid. | 12-15-2011 |
20120090649 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD - A substrate processing apparatus includes a substrate holding unit that horizontally holds a substrate in non-contact with a major surface of the substrate, a processing liquid supply unit that supplies a processing liquid to the major surface of the substrate held by the substrate holding unit, and a hydrophilic surface placing unit that places an annular hydrophilic surface along a peripheral portion of the major surface of the substrate held by the substrate holding unit such that the hydrophilic surface comes into contact with a liquid film of the processing liquid held on the major surface of the substrate. | 04-19-2012 |
20130255718 | SUBSTRATE PROCESSING METHOD AND SUBSTRATE PROCESSING APPARATUS - A substrate processing method includes a rinsing step of supplying water of a first temperature to a surface of a silicon substrate to apply a rinsing process using the water to the silicon substrate surface, a second temperature water supplying (coating) step of supplying water of a second temperature lower than the first temperature to the silicon substrate surface after the rinsing step, and a drying step of rotating the silicon substrate after the second temperature water supplying step to spin off the water on the silicon substrate surface to a periphery of the silicon substrate and thereby dry the silicon substrate. | 10-03-2013 |
Patent application number | Description | Published |
20080198886 | NITRIDE SEMICONDUCTOR LASER ELEMENT - The present invention provides a nitride semiconductor laser element, comprising: a nitride semiconductor structure having a first nitride semiconductor layer, a second nitride semiconductor layer, and an active layer provided between the first and second nitride semiconductor layers; a cavity end face provided to the nitride semiconductor structure; and a protective film having a hexagonal crystal structure, and having a first region provided on a first crystal surface of the nitride semiconductor structure in the cavity end face and a second region provided on a second crystal surface in the surface of at least one of the first and second nitride semiconductor layer, the first and second regions of the protective film are oriented in the same axial direction as that of the respective first and second crystal surfaces. | 08-21-2008 |
20080205464 | NITRIDE SEMICONDUCTOR LASER ELEMENT - A nitride semiconductor laser element has a first nitride semiconductor layer, an active layer, a second nitride semiconductor layer, and a first protective film in contact with a cavity end face of the nitride semiconductor layer, wherein the first protective film in contact with at least the active layer of the cavity end face has a region thinner than the maximum thickness of the first protective film. | 08-28-2008 |
20090010294 | NITRIDE SEMICONDUCTOR LASER ELEMENT - A nitride semiconductor laser element, comprises; nitride semiconductor layers in which a nitride semiconductor layer of a first conduction type, an active layer, and a nitride semiconductor layer of a second conduction type that is different from the first conduction type are laminated in that order; a cavity end face formed by the nitride semiconductor layers; and a protective film formed on the cavity end face, the protective film has a region in which an axial orientation of crystals is different in the direction of lamination of the nitride semiconductor layers. | 01-08-2009 |
20100158066 | NITRIDE SEMICONDUCTOR LASER ELEMENT - A nitride semiconductor laser element includes a nitride semiconductor layer of a first conduction type, an active layer, and a nitride semiconductor layer of a second conduction type that is different from the first conduction type are laminated in that order, a cavity end face formed by the nitride semiconductor layers, and a protective film formed on the cavity end face. The nitride semiconductor layers of the first and second conduction types have layers containing Al, and the active layer has layer containing In. The protective film has a region in which an axial orientation of crystals is the same as that of the cavity end face on the nitride semiconductor layers of the first and second conduction types, and has another region in which an axial orientation of crystals is different from that of the cavity end face on the active layer. | 06-24-2010 |
Patent application number | Description | Published |
20090015976 | POWER FEED SYSTEM FOR VEHICLE - A power feed system for a vehicle provided with a plurality of nodes ( | 01-15-2009 |
20110243271 | TRANSMITTING APPARATUS, RECEIVING APPARATUS, AND COMMUNICATION SYSTEM FOR FORMATTING DATA - A transmitting apparatus, a receiving apparatus, and a communication system are provided that allow a reduction in a frame loss due to interference caused by use of the same channel. A transmitting apparatus disposed in a base station includes a GPS receiver for receiving a GPS signal, a timing generator for controlling respective function blocks in accordance with the GPS signal and an inter-base-station control signal so as to precisely synchronize the timing of frame transmission among base stations, the front-end transmission processing unit including for converting transmission information into transmission time slots, a frame generator for generating a frame including a plurality of time slots and one frame guard, and a back-end transmission processing unit for transmitting the generated frame as a radio signal. | 10-06-2011 |
20110310302 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes a superimposition processing unit that performs a blending process for a plurality of continuously captured images, wherein the superimposition processing unit is configured to selectively input luminance signal information of a RAW image or a full color image as a processing target image and perform a superimposition process, and performs a process for sequentially updating data that is stored in a memory for storing two image frames so as to enable superimposition of any desired number of images. | 12-22-2011 |
20120224766 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes a superimposition processing unit which performs a blend process on a plurality of images which are continuously photographed. The superimposition processing unit includes a moving subject detection unit, a blend processing unit, and a noise reduction processing unit. The moving subject detection unit detects the moving subject region of an image, and generates moving subject information in units of an image region. The blend processing unit generates a superimposition image by performing a blend process on the plurality of images using a high blend ratio in a stationary subject region and using a low blend ratio in the moving subject region based on the moving subject information. The noise reduction processing unit performs a stronger pixel value smoothing process on the moving subject region of the superimposition image based on the moving subject information. | 09-06-2012 |
20120269455 | IMAGE PROCESSING APPARATUS AND METHOD, AND PROGRAM - A normal-phase candidate position selection unit designates a pixel on a horizontal or vertical line in a position separated by two lines from a target position of an input image as a normal-phase candidate pixel, which is a candidate for a pixel at which jaggies are in the same phase as a pixel of the target position. A reverse-phase candidate position selection unit designates a pixel between the target position in the input image and the normal-phase candidate pixel as a reverse-phase candidate pixel. The weight value calculation unit calculates a weight value based on a degree of similarity between an image adjacent to the target position and an image adjacent to the normal-phase candidate pixel. The weighted expected value calculation unit performs weighted addition of reverse-phase candidate pixels using the weight value and generates a reverse-phase image by reversing only the phase of the jaggies in the input image. | 10-25-2012 |
20120274798 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - The present invention relates to an image processing apparatus, an image processing method, and a program that are capable of removing an influence due to illumination components from a plurality of images in which illumination environments are different and generating an image having high color reproducibility. | 11-01-2012 |
20140071962 | TRANSMITTING APPARATUS, RECEIVING APPARATUS, AND COMMUNICATION SYSTEM FOR FORMATTING DATA - A transmitting apparatus, a receiving apparatus, and a communication system are provided that allow a reduction in a frame loss due to interference caused by use of the same channel. A transmitting apparatus disposed in a base station includes a GPS receiver for receiving a GPS signal, a timing generator for controlling respective function blocks in accordance with the GPS signal and an inter-base-station control signal so as to precisely synchronize the timing of frame transmission among base stations, the front-end transmission processing unit including for converting transmission information into transmission time slots, a frame generator for generating a frame including a plurality of time slots and one frame guard, and a back-end transmission processing unit for transmitting the generated frame as a radio signal. | 03-13-2014 |
20140086357 | TRANSMITTING APPARATUS, RECEIVING APPARATUS, AND COMMUNICATION SYSTEM FOR FORMATTING DATA - A transmitting apparatus, a receiving apparatus, and a communication system are provided that allow a reduction in a frame loss due to interference caused by use of the same channel. A transmitting apparatus disposed in a base station includes a GPS receiver for receiving a GPS signal, a timing generator for controlling respective function blocks in accordance with the GPS signal and an inter-base-station control signal so as to precisely synchronize the timing of frame transmission among base stations, the front-end transmission processing unit including for converting transmission information into transmission time slots, a frame generator for generating a frame including a plurality of time slots and one frame guard, and a back-end transmission processing unit for transmitting the generated frame as a radio signal. | 03-27-2014 |
20140375843 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes a superimposition processing unit that performs a blending process for a plurality of continuously captured images, wherein the superimposition processing unit is configured to selectively input luminance signal information of a RAW image or a full color image as a processing target image and perform a superimposition process, and performs a process for sequentially updating data that is stored in a memory for storing two image frames so as to enable superimposition of any desired number of images. | 12-25-2014 |
Patent application number | Description | Published |
20120190621 | CORNEAL ENDOTHELIAL CELL PROLIFERATION PROMOTER - The present invention aims to provide a corneal endothelium cell proliferation accelerator and a therapeutic agent for a disease relating to corneal endothelium damage, which are administered into the anterior chamber. bFGF is released in a sustained manner by forming bFGF sustained-release gelatin hydrogel particles wherein bFGF is carried on gelatin hydrogel. Therefore, the proliferation of corneal endothelium cells can be accelerated persistently by administration of a preparation containing the bFGF sustained-release gelatin hydrogel particles into the anterior chamber, and diseases relating to corneal endothelium damage can be treated. | 07-26-2012 |
20120288482 | THERAPEUTIC AGENT (Y-39983) FOR CORNEAL ENDOTHELIAL DYSFUNCTION - The present invention aims to provide a means for effectively and conveniently treating diseases wherein corneal endothelial cells poor in proliferative capacity in vivo are damaged. The present invention provides a therapeutic agent for corneal endothelial dysfunction containing (R)-(+)-N-(1H-pyrrolo [2,3-b]pyridin-4-yl)-4-(1-aminoethyl)benzamide or a pharmacologically acceptable salt thereof (compound (Ia)) as active ingredient, an agent for promoting adhesion of corneal endothelial cells, containing compound (Ia), a culture medium for corneal endothelial cells, containing the agent for promoting adhesion, an implant for corneal endothelial keratoplasty, containing corneal endothelial cells, scaffold and compound (Ia), and a production method of a corneal endothelial preparation, including a step of cultivating corneal endothelial cells using the culture medium. | 11-15-2012 |
Patent application number | Description | Published |
20120268907 | PLATE MEMBER, BUS BAR AND ELECTRIC JUNCTION BOX HAVING THE BUS BAR - The present invention is to provide a plate member which can improve material yield. The plate member forms a bus bar attached to a box main body of an electric junction box and includes a first terminal portion, a second terminal portion, and a connection coupling the first terminal portion to the second terminal portion. The plate member includes a first terminal portion equivalent corresponding to the first terminal portion, a second terminal portion equivalent corresponding to the second terminal portion, and arranged with a space against the first terminal portion equivalent along a longitudinal direction of a first terminal equivalent, and a connection equivalent corresponding to the connection. The connection equivalent couples the first terminal equivalent to the second terminal equivalent so that longitudinal directions of the first and second terminal equivalents are arranged parallel to each other. | 10-25-2012 |
20120285728 | CORRUGATED TUBE PROTECTOR - A box-shape corrugated tube protector includes a side wall including an opening with a guide part at each both sides of the opening; a bottom wall including an insertion depression adapted to receive and support a corrugated tube, in communication with the opening; and a cover adapted to close the opening including a slide part slidably engaging with the guide part, and also including a projecting ridge and a rib inside, wherein the projecting ridge has an end face along a circumference of the corrugated tube, the rib has a projecting end face formed curved or sloped, continuous from the projecting ridge in a sliding direction of the cover, and the end face of the projecting ridge and the projecting end face of the rib smoothly intersects to each other. | 11-15-2012 |
20130000971 | PLATE METAL MEMBER, BUS BAR, AND ELECTRICAL JUNCTION BOX HAVING THE BUS BAR - A bus bar attached to a box main body of an electrical junction box includes: a first terminal portion | 01-03-2013 |
20130082048 | ATTACHMENT STRUCTURE FOR ATTACHMENT OF COMPONENT TO ARTICLE AND ELECTRIC JUNCTION BOX HAVING THEREOF - The attachment structure for attachment of a component to an article in two postures includes a case as the article and the component. The case includes a pair of guide portions, first locking arms and a second locking arm. The component includes a slide portion between the guide portions, a stopper arranged in an end of the slide portion and formed in a size which is not able to insert stopper between the guide portions. The first locking arm is engaged where the slide portion is inserted in a space between the guide portions from one end and slides toward an other end. The second locking arm is engaged where the slide portion is inserted in the space between the guide portions from the other end in a posture opposite to that in which the slide portion is inserted between the pair of the guide portions from the one end. | 04-04-2013 |
Patent application number | Description | Published |
20130207931 | ELECTROSTATIC CAPACITIVE INPUT DEVICE - An electrostatic capacitive input device includes: an operation member having an operation surface on which an operator can perform an input operation; a sensor member which has a detection surface detecting a capacitance value corresponding to the input operation on the operation surface and is capable of outputting a detection signal corresponding to the detected capacitance value; and a control unit controlling an electronic apparatus based on the detection signal. The operation member and the sensor member are arranged such that a surface reverse to a surface including the operation surface faces the detection surface. The operation member is mounted on a cover member such that the operation surface is exposed from an outer surface of the cover member, and is separable from the sensor member together with the cover member. The sensor member is arranged in a housing in a state of being separated from the operation member. | 08-15-2013 |
20140362038 | TOUCH PAD WITH ANTENNA - A touch pad with an antenna includes an electrode, control means for detecting proximity and a proximate position of an object on the basis of a change in capacitance which is associated with the proximity of the object to the electrode, an antenna, and antenna driving means for supplying power to the antenna. When the proximity of the object is not detected, the control means controls driving of the antenna driving means to set an output of the antenna to an output during ordinary driving. When the proximity of the object is detected, the control means controls driving of the antenna driving means to attenuate the output of the antenna with respect to the output during ordinary driving or to set the output of the antenna to zero. | 12-11-2014 |
20150193080 | TOUCH PAD WITH ANTENNA - A touch pad with an antenna includes a substrate on an upper side of which an operation surface having a predetermined operation region is set, an electrode group for detecting capacitance configured to be arranged in a region of the substrate corresponding to the operation region, and an antenna for wireless communication configured to be arranged in a region located on a lower side of the substrate, the region overlapping with an electrode forming region in which the electrode group for detecting capacitance is formed, as viewed from above. The electrode group for detecting capacitance includes a first electrode group extended in a predetermined first direction and a second electrode group extended in a second direction perpendicular to the first direction, and the antenna is extended in a direction intersecting with the first direction and the second direction. | 07-09-2015 |