Patent application number | Description | Published |
20100327275 | ORGANIC EL PANEL AND ITS MANUFACTURING METHOD - An organic EL panel includes a light-emitting part including one or a plurality of organic EL elements on a substrate and having a sealing structure sealing the light-emitting part. The organic EL element includes a light-emitting layer, an organic layer formed on a first electrode formed directly, or via another layer, on the substrate, and a second electrode formed on the organic layer. The organic EL panel includes a coating film formed on the substrate, directly at least on the second electrode, so as to coat the light-emitting part. The coating film is made of an amorphous organic material and has a thickness absorbing a surface irregularity of the contact object contacted by the surface of the coating film. | 12-30-2010 |
20110080088 | ORGANIC EL PANEL AND PANEL - COMBINED LIGHT- EMITTING DEVICE - An organic EL panel (light transmissive luminescent panel) is configured to have a display screen formed of a plurality of pixels with improved display performance by restricting stray light at the panel edge surface and enabling a high-grade color display by restricting the reduction of the mixing ratio of colors. The organic EL panel is of a light-transmissive type with organic EL elements formed on the panel substrate, The display screen is configured by a plurality of pixels which are organic EL elements, The right and left edge faces of the panel substrate or the sealing substrate are made to be light-absorbent or light non-transmissive, The light-emitting surface of the organic EL element is made in a horizontally elongated shape with a longitudinal direction orthogonal to a direction along the right and left edge faces, | 04-07-2011 |
20110080089 | ORGANIC EL PANEL, PANEL-COMBINED LIGHT EMITTING DEVICE, AND METHOD OF MANUFACTURING ORGANIC EL PANEL - For organic EL panels with a hollow-sealed structure to meet the demand of flat or large displays, the inconvenience of contact of drying anent etc touching the organic EL elements in the sealed space is avoided. An organic EL panel includes a panel substrate, a light-emitting part with a plurality of organic EL elements having an anode, an organic layer and a cathode laminated on the panel substrate, and a sealing substrate configured to be bonded onto the panel substrate through an adhesive layer to seal the light-emitting part. The sealing substrate includes a supporting projection projecting toward the panel substrate. A supporting margin facing to the bottom face of the supporting projection is provided where the organic EL elements is not formed within a region of the light-emitting part on the panel substrate. | 04-07-2011 |
20120178334 | METHOD OF MANUFACTURING ORGANIC EL PANEL - A method of manufacturing an organic EL panel includes forming a light-emitting part having at least one organic EL element on a panel substrate, forming a concave portion for housing the light-emitting part on a sealing substrate, and sealing the light-emitting part by bonding the panel substrate and the sealing substrate together through an adhesive layer. A supporting projection projecting toward the panel substrate is formed while the concave portion is being formed, and a supporting margin facing the bottom face of the supporting projection is provided where the organic EL elements are not formed within a region of the light-emitting part on the panel substrate. | 07-12-2012 |
20130105783 | ORGANIC EL PANEL AND METHOD FOR MANUFACTURING THE SAME | 05-02-2013 |
20140252334 | ORGANIC EL PANEL COMPRISING A LIGHT-EMITTING PART AND A SEAL STRUCTURE SEALING THE LIGHT-EMITTING PART AND METHOD FOR MANUFACTURING THE SAME - An organic EL panel including at least a light-emitting part and a sealing structure. The light-emitting part further includes at least an organic EL element formed on a substrate. The sealing structure further includes a sealing adhesive layer that contacts a coating film. The organic EL panel emits light from the light-emitting part through the substrate. The organic EL element includes at least the organic layer formed on a first electrode. The organic EL element further includes a second electrode formed on the at least one organic layer. The organic EL panel further includes the coating film coating the light-emitting part. A surface of the sealing adhesive forms a convex part formed by an inorganic material. A surface of the coating film forms a concave part that contacts the convex part. | 09-11-2014 |
Patent application number | Description | Published |
20100326708 | IMAGE DISPLAY ELEMENT AND MANUFACTURING METHOD THEREOF - An image display element includes: a front panel; a back panel opposite thereto; a plurality of pixels arranged in a matrix between both the panels; and plural electrodes for controlling the pixels. Both the panels are bonded together with the pixels and the electrodes interposed therebetween, and the electrodes are connected to a driving circuit via metal film wires. Division is performed so as to expose electrode terminals, and a groove part V-shaped in cross section is formed at the divided portion. The metal film wires are formed on the surface of the top of the back panel, and the electrode terminals and the metal film wires are connected by a conductive paste coated along the tilt surfaces forming the groove part. | 12-30-2010 |
20100328192 | IMAGE DISPLAY ELEMENT AND MANUFACTURING METHOD THEREOF - An image display element includes: a front panel; a back panel opposite to the front panel; a plurality of pixels arranged in a matrix between both the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels. Both the panels are bonded together with the pixels and the electrodes interposed therebetween, and the electrodes are connected to a driving control circuit via metal wires. The back panel is divided such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, and a groove part having a shape wider at the top on the back side of the opposing surface from the front panel than at the bottom is formed at the divided portion. The metal wires are connected to the exposed electrode terminals of the groove part. | 12-30-2010 |
20100328921 | IMAGE DISPLAY ELEMENT AND MANUFACTURING METHOD THEREOF - An image display element includes: a front panel; a back panel opposite thereto; plural pixels arranged in a matrix between the panels; and plural electrodes for controlling the pixels. The panels are bonded with the pixels and the electrodes interposed therebetween. The electrodes are connected to a driving circuit via metal film wires. The back panel is divided so as to expose electrode terminals, and a groove part V-shaped in cross section is formed at the divided portion. The metal film wires are formed on the top surface of the back panel, and the electrode terminals and the metal film wires are connected by a conductive paste coated along the tilt surfaces forming the groove part. A contact resistance reducing means is disposed at the connection part interface between the electrode terminal and the conductive paste. | 12-30-2010 |
20100330862 | METHOD FOR MANUFACTURING IMAGE DISPLAY ELEMENT - A method for manufacturing an image display element including: a front panel; a back panel facing the front panel; plural pixels arranged in a matrix between the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels, the panels being bonded with the pixels and the electrodes interposed therebetween, and the electrodes being connected to a driving control circuit via metal wires, includes a first step of performing dicing from the back side of the opposing surface from the front panel, and forming a groove part such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, with the back panel bonded thereto, and a second step of forming the metal wires so as to be connected to the electrode terminals exposed at the groove part. | 12-30-2010 |
20120309253 | METHOD FOR MANUFACTURING IMAGE DISPLAY ELEMENT - A method for manufacturing an image display element including: a front panel; a back panel facing the front panel; plural pixels arranged in a matrix between the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels, the panels being bonded with the pixels and the electrodes interposed therebetween, and the electrodes being connected to a driving control circuit via metal wires, includes a first step of performing dicing from the back side of the opposing surface from the front panel, and forming a groove part such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, with the back panel bonded thereto, and a second step of forming the metal wires so as to be connected to the electrode terminals exposed at the groove part. | 12-06-2012 |
Patent application number | Description | Published |
20090315419 | Conductor Wire Connecting Method, and Connecting Terminal, Stator, and Rotary Electric Machine - After melted enamel coating is discharged from the crimping connectors, electrical wire-to-wire connection, that is, the fusion process, is carried out inside the crimping connector. In this conductor connection method based on the fusion process, plural the above enamel-coated conductor wires are inserted in the above crimping connector prior to the start of the fusion process. Further, the temporary crimping process which provides the crimping connector a temporary crimping by mechanical pressurizing means is also a part of entire process. Addition of force at both the end parts or either one of them of the cross-section orthogonal to the axis of the above crimping connector may cause expansion, which needs to be suppressed with external fore. At the same time, the areas of cross-section corresponding to both the end parts or either of them mentioned above should preferably be held as small as possible. The above temporary crimping is applied to the above crimping connector for this purpose. | 12-24-2009 |
20120159783 | Conductor Wire Connecting Method, and Connecting Terminal, Stator, and Rotary Electric Machine - After melted enamel coating is discharged, a fusion process of electrical wire-to-wire connection is carried out inside a crimping connector. In the conductor connection method based on the fusion process, a plurality of enamel-coated conductor wires are inserted in the crimping connector prior to the start of the fusion process. Further, a temporary crimping process that provides the crimping connector a temporary crimping by mechanical pressurizing means is also performed. Addition of force at both end parts or either end part of the cross-section orthogonal to the axis of the above crimping connector may cause expansion, which needs to be suppressed with external force. At the same time, the cross-sectional areas corresponding to both end parts or either end part should preferably be as small as possible. The temporary crimping is applied to the crimping connector for this purpose. | 06-28-2012 |
Patent application number | Description | Published |
20080274282 | Fabrication method of size-controlled, spatially distributed nanostructures by atomic layer deposition - A method of growing spatially-separated and size-controlled particles on substrate surfaces is provided. The method utilizes chemical modification of the substrate surface, an atomic layer deposition (ALD) system, providing a modified layer to the substrate surface and providing an ALD material for nanoparticle deposition. The method induces a Volmer-Weber growth method, where islands of the nanoparticles are formed on the surface. The modified layer controls a number of nucleation sites on the surface, where controlling the number of ALD cycles limits an amount of deposited the material for discrete the nanoparticles. The modified layer can include self-assembled monolayers, modified hydrophobicity of the surface, H-terminated surfaces, and varying functional groups within the modified layer, where thermally attached alkenes, photochemically attached alkenes, thermally attached alkynes or photochemically attached alkynes are attached to the H-terminated surfaces, and the density of the nucleation sites of the nanoparticles are thereby managed. | 11-06-2008 |
20090031558 | MOUNTING APPARATUS MOUNTING SURFACE-MOUNTED DEVICE ON RECEIVING DEVICE USING ULTRASONIC VIBRATION - A mounting apparatus applies ultrasonic vibration exactly to a junction between a SMD and a SMD receiving device and maintains the junction at the suitable temperature, in simple construction in ultrasonic bonding of the SMD and the SMD receiving device held by holding unit. This includes SMD holding unit, SMD receiving device holding unit, moving unit moving at least one of the SMD holding unit and SMD receiving device holding units to contact each other, vibration generating unit applying ultrasonic vibration to the a contact portion between the SMD and the SMD receiving device, pressing unit applying an bias force between the SMD and SMD receiving device, heating unit arranged movably so as to surround in a noncontact manner a portion of the SMD holding unit near the SMD and heating the SMD holding unit, and interlocking unit interlocking the heating unit with the SMD holding unit. | 02-05-2009 |
20090139039 | BOARDING BRIDGE, BOARDING BRIDGE SYSTEM, AND METHOD FOR MOUNTING THE BOARDING BRIDGE - A boarding bridge includes a rotunda connected to a terminal building and rotatable around a vertical axis thereof; an extendable tunnel section connected to the rotunda at one end thereof; and a cab connected to the other end of the tunnel section and rotatable around a vertical axis thereof. The tunnel section is structured to extend generally parallel to a fuselage of an aircraft when the cab is attached to the aircraft. The cab includes a floor extending in a direction generally perpendicular to the tunnel section, and a gangplank which is arranged to be projectable forward from a portion of the floor, and by projecting forward, defines a path connecting the floor and a hatch of the aircraft. | 06-04-2009 |
20090142642 | Cathode structures for solid oxide fuel cells - Cathode structures for low temperature solid oxide fuel cells are provided. The cathode structures include thin dense mixed ionic electronic conducting (MIEC) films. MIEC materials include materials with perovskite structures, such as LSCF. The thickness of the MIEC film is determined by minimizing the sum of the electronic and ionic resistances. Specific functions for the electronic and ionic resistances in terms of device and physical parameters are also provided. Pulsed laser deposition is used for the fabrication of the MIEC film and the electrolyte layer. | 06-04-2009 |
20090255979 | ULTRASONIC MOUNTING APPARATUS - In an ultrasonic mounting apparatus, a pressing shaft coupled with a voice coil motor to apply a load on a part to be mounted is placed independently from components including a bonding tool, ultrasonic horn, transducer, and horn support member. The components can move coaxially with the pressing shaft which is an application axis of a driving force. Abutting position of the bonding tool and pressing shaft is brought into coincidence with a node of a standing wave generated in the bonding tool. | 10-15-2009 |
20110303392 | FLAT HEAT PIPE - A thin flat heat pipe capable of transporting heat even if it is bent is provided. The flat heat pipe comprises: a working fluid to be evaporated when heated and to be condensed when the heat dissipates; and a wick, which is formed by bundling a plurality of thin wires while twisting along a center axis thereof, and which is adapted to create a capillary pressure for returning the liquid phase working fluid to a portion where evaporation takes place. The wick is arranged over the entire length of the flat container while being in contact with both upper and lower inner faces of the container or with an inner side face of the container in a manner such that an inner space of the container for letting through an evaporated working fluid is not closed, and a contact portion between the wick and the container is fixed by sintering over the entire length of the wick. | 12-15-2011 |
20150159356 | TOILET FLUSH TANK - A toilet flush tank is provided that is capable of preventing an increase in the external dimensions of a toilet main body even when the toilet flush tank is placed below the upper surface of a toilet main body and is also capable of performing toilet cleaning in a stable manner. A toilet flush tank stores cleaning water to be provided to a toilet main body having a toilet bowl and a toilet drainage channel that communicates with the downstream side of the toilet bowl. This toilet flush tank is placed inside a space below the toilet bowl and provided with a recessed portion that conforms to the shape of the toilet drainage channel at the upper surface of the toilet flush tank. | 06-11-2015 |
20150198375 | VAPOR CHAMBER - A vapor chamber having improved heat transfer capacity by efficiently returning the working fluid to the evaporating portion is provided. A hollow flat container | 07-16-2015 |
20150204617 | HEAT PIPE - A heat pipe having a wick structure for efficiently returning working fluid to an evaporating portion is provided. The heat pipe comprises a container | 07-23-2015 |
20160091258 | HEAT PIPE - A heat pipe for improving heat transport performance by reducing heat resistance in an evaporating section is provided. The heat pipe comprises a groove wick extending in the longitudinal direction from the evaporating section to the condensing section through the insulated section in the container. A metal powder layer formed of metal powder adhering to the inner wall of the groove wick is arranged in the evaporating section. The metal powder layer is formed into the groove wick having a predetermined thickness. | 03-31-2016 |
Patent application number | Description | Published |
20120122160 | THERMAL CYCLER AND THERMAL CYCLING METHOD - A thermal cycler includes a holder to which a biotip having a longitudinal direction is attached in such a manner that one end portion of the biotip is at a higher level than the other end portion, and that the distance between one end portion of the biotip and the rotational axis is shorter than the distance between the other end portion of the biotip and the rotational axis, a heating unit heats a first end portion of the biotip, a rotating unit rotates the holder, and a controller that controls the rotation speed of the rotating unit. The controller has a first mode a rotation speed at which the magnitude of the centrifugal force acting on the reaction mixture becomes smaller than the gravity, and a second mode a rotation speed at which the magnitude of the centrifugal force acting on the reaction mixture becomes greater than the gravity. | 05-17-2012 |
20140045255 | THERMAL CYCLER AND THERMAL CYCLING METHOD - A thermal cycler includes a holder to which a biotip having a longitudinal direction is attached in such a manner that one end portion of the biotip is at a higher level than the other end portion, and that the distance between one end portion of the biotip and the rotational axis is shorter than the distance between the other end portion of the biotip and the rotational axis, a heating unit heats a first end portion of the biotip, a rotating unit rotates the holder, and a controller that controls the rotation speed of the rotating unit. The controller has a first mode a rotation speed at which the magnitude of the centrifugal force acting on the reaction mixture becomes smaller than the gravity, and a second mode a rotation speed at which the magnitude of the centrifugal force acting on the reaction mixture becomes greater than the gravity. | 02-13-2014 |
20150037879 | THERMAL CYCLER AND THERMAL CYCLING METHOD - A thermal cycler includes a holder to which a biotip having a longitudinal direction is attached in such a manner that one end portion of the biotip is at a higher level than the other end portion, and that the distance between one end portion of the biotip and the rotational axis is shorter than the distance between the other end portion of the biotip and the rotational axis, a heating unit heats a first end portion of the biotip, a rotating unit rotates the holder, and a controller that controls the rotation speed of the rotating unit. The controller has a first mode a rotation speed at which the magnitude of the centrifugal force acting on the reaction mixture becomes smaller than the gravity, and a second mode a rotation speed at which the magnitude of the centrifugal force acting on the reaction mixture becomes greater than the gravity. | 02-05-2015 |
Patent application number | Description | Published |
20120328487 | DISPENSING METHOD - A dispensing method which dispenses a first liquid contained in a first vessel which stores the first liquid and a second liquid to introduce the first liquid into a second vessel by using a tube. | 12-27-2012 |
20140120585 | NUCLEIC ACID EXTRACTION DEVICE, AND NUCLEIC ACID EXTRACTION METHOD, NUCLEIC ACID EXTRACTION KIT, AND NUCLEIC ACID EXTRACTION APPARATUS, EACH USING THE SAME - A nucleic acid extraction device includes a tube that is internally provided with, in the following order, a first plug composed of a first oil, a second plug composed of a first washing liquid, which is phase-separated from an oil and is used for washing a nucleic acid-binding solid-phase carrier having nucleic acids bound thereto, a third plug composed of a second oil, a fourth plug composed of a reverse transcription reaction solution, which is phase-separated from an oil and is used for performing a reverse transcription reaction, a fifth plug composed of a third oil, a sixth plug composed of an eluent, which is phase-separated from an oil and is used for eluting the nucleic acids from the nucleic acid-binding solid-phase carrier having nucleic acids bound thereto, and a seventh plug composed of a fourth oil. | 05-01-2014 |
20140273100 | cDNA SYNTHESIS METHOD - A cDNA synthesis method includes: mixing a lysis solution containing a chaotropic substance and a nucleic acid-binding solid-phase carrier in a sample containing a ribonucleic acid (RNA), thereby adsorbing the RNA on the carrier; reverse-transcribing the RNA adsorbed on the carrier while keeping the RNA adsorbed on the carrier in a reverse transcription reaction mixture, thereby synthesizing cDNA; and eluting the synthesized cDNA with an eluent. | 09-18-2014 |
20140273198 | CARTRIDGE FOR NUCLEIC ACID AMPLIFICATION REACION - A cartridge for nucleic acid amplification reaction includes a tube that has a first plug, a second plug formed of a second washing solution washes nucleic acid-binding solid-phase carriers having bound to a nucleic acid, a third plug, a fourth plug formed of a reverse transcription reaction solution which undergoes phase separation when being mixed with oil and in which a reverse transcription reaction occurs, a fifth plug formed of a third oil, a sixth plug formed of an eluate which causes the nucleic acid to be eluted from the nucleic acid-binding solid-phase carriers having bound to the nucleic acid, and a seventh plug in this order in the inside of the tube; a container for nucleic acid amplification reaction that is in communication with the tube and contains oil; and a plunger that pushes liquid to the container for nucleic acid amplification reaction out of the tube. | 09-18-2014 |
20140273201 | CARTRIDGE FOR NUCLEIC ACID AMPLIFICATION REACION - A cartridge for nucleic acid amplification reaction includes a tube that has a first plug formed of a oil, a second plug formed of a first washing solution which washes nucleic acid-binding solid-phase carriers having bound to a nucleic acid, a third plug formed of a oil, a fourth plug formed of an eluate which causes the nucleic acid to be eluted from the nucleic acid-binding solid-phase carriers, a fifth plug formed of a oil, a sixth plug formed of a nucleic acid amplification reaction solution which causes a nucleic acid amplification reaction, and a seventh plug formed of a oil in this order in the inside of the tube; a container for nucleic acid amplification reaction that contains oil; and a plunger that pushes liquid to the container for nucleic acid amplification reaction out of the side of the seventh plug of the tube. | 09-18-2014 |
20140273202 | CARTRIDGE FOR NUCLEIC ACID AMPLIFICATION REACTION - A cartridge for nucleic acid amplification reaction includes a tube that has a first plug, a second plug formed of a first washing solution which washes nucleic acid-binding solid-phase carriers having bound to a nucleic acid, a third plug, a fourth plug formed of an eluate which causes the nucleic acid to be eluted from the nucleic acid-binding solid-phase carriers having bound to the nucleic acid, and a fifth plug in this order in the inside of the tube; a container for nucleic acid amplification reaction that is in communication with the side of the fifth plug of the tube and contains oil; and a plunger that pushes liquid to the container for nucleic acid amplification reaction out of the side of the fifth plug of the tube. | 09-18-2014 |
20140322101 | DISPENSING METHOD - A dispensing method which dispenses a first liquid contained in a first vessel which stores the first liquid and a second liquid to introduce the first liquid into a second vessel by using a tube. | 10-30-2014 |
20150072409 | CARTRIDGE FOR NUCLEIC ACID AMPLIFICATION REACTION - A cartridge for nucleic acid amplification reaction includes a tube including, on the inside, in order, a first plug formed by first oil, a second plug formed by a cleaning solution, which causes phase separation when mixed with oil, a third plug formed by second oil, a fourth plug formed by an eluate, which causes phase separation when mixed with oil, and a fifth plug formed by the third oil, a container for nucleic acid amplification reaction communicating with the fifth plug side of the tube and including fourth oil, and a plunger attached to an opening section on the first plug side of the tube and configured to push out liquid from the fifth plug side of the tube to the container for nucleic acid amplification reaction. All of the first to third oils have specific gravities different from the specific gravity of the fourth oil. | 03-12-2015 |
20150099279 | NUCLEIC ACID AMPLIFICATION METHOD, NUCLEIC ACID EXTRACTION DEVICE, NUCLEIC ACID AMPLIFICATION REACTION CARTRIDGE, AND NUCLEIC ACID AMPLIFICATION REACTION KIT - A nucleic acid amplification method includes: adsorbing a nucleic acid onto fine particles by mixing a chaotropic substance-containing adsorbent liquid and the fine particles with a nucleic acid-containing sample; washing the fine particles adsorbing the nucleic acid with a first washing liquid; eluting the nucleic acid adsorbed to the fine particles in an eluate; and performing a nucleic acid amplification reaction on the nucleic acid in the eluate. The adsorbent liquid contains an alcohol, and the first washing liquid is acidic. This method can be carried out by a nucleic acid extraction device, a nucleic acid amplification reaction cartridge, and a nucleic acid amplification reaction kit. | 04-09-2015 |
20150140649 | NUCLEIC ACID EXTRACTION DEVICE - A nucleic acid extraction device includes: a tube section in which are disposed in this order a first plug formed of oil, a second plug formed of a washing liquid immiscible with oil and for washing a substance adsorbing a nucleic acid, a third plug formed of oil, a fourth plug formed of an elution liquid immiscible with oil and for eluting the nucleic acid from the substance, and a fifth plug formed of oil; and a cover section disposed around the tube section. | 05-21-2015 |
20150267188 | TARGET SUBSTANCE PURIFICATION DEVICE, NUCLEIC ACID PURIFICATION DEVICE, TARGET SUBSTANCE GENERATING METHOD, AND NUCLEIC ACID AMPLIFICATION METHOD - A target substance purification device includes: a capillary that is elongated in a longitudinal direction and includes a first plug of oil, a plug of an elution liquid that undergoes phase separation from oil and elutes the target substance from a magnetic body detachably retaining the target substance, and a second plug of oil inside the capillary; a magnetic force applicator that applies a magnetic force to the capillary to retain and control the movement of the magnetic body along the longitudinal direction of the capillary; and a liquid sending mechanism that moves the elution liquid in the longitudinal direction of the capillary while the magnetic force applicator restricts movement of the magnetic body along the longitudinal direction of the capillary. | 09-24-2015 |
20150275162 | CARTRIDGE FOR NUCLEIC ACID AMPLIFICATION REACTION AND NUCLEIC ACID AMPLIFICATION DEVICE - A cartridge for a nucleic acid amplification reaction includes a tube which has a longitudinal direction and has, in the inside thereof, an elution solution plug formed of an elution solution, which undergoes phase separation from oil and causes nucleic acid to be eluted from particulates bound to the nucleic acid, and a plug of a first liquid formed of oil and a first additive, and a nucleic acid amplification reaction container which communicates with the tube, and the nucleic acid amplification reaction container contains a second liquid formed of oil and a second additive. The concentration of the first additive contained in the first liquid is higher than the concentration of the second additive contained in the second liquid. | 10-01-2015 |