Patent application number | Description | Published |
20090040443 | METHOD OF PRODUCING A LIQUID CRYSTAL PANEL, LIQUID CRYSTAL PANEL, AND IMAGE DISPLAY APPARATUS - To provide a method of producing a liquid crystal panel capable of easily realizing stable high contrast of the liquid crystal panel to be obtained at low cost, a liquid crystal panel, and an image display apparatus. There is provided a method of producing a liquid crystal panel including a first optical compensation layer having refractive index profile of nx>ny=nz and a polarizer on each side of a liquid crystal cell in the order given, in which an angle formed between an absorption axis of the polarizer (A) and a slow axis of the first optical compensation layer (B) on one side of the liquid crystal cell is +α°, an angle formed between an absorption axis of the polarizer (A′) and a slow axis of the first compensation layer (B′) on another side of the liquid crystal cell is −α°, and 0<α<90, the method comprises a step of subjecting substrate formed of single original sheet to alignment treatment at +α° and alignment treatment at −α° with respect to a longitudinal direction of the substrate; and a step of forming the first optical compensation layer (B) on the surface subjected to the +α° alignment treatment and forming the first optical compensation layer (B′) on the surface subjected to the −α° alignment treatment. | 02-12-2009 |
20090153783 | VIEWING ANGLE CONTROLLING SYSTEM, AND IMAGE DISPLAY DEVICE USING THE SAME - There are provided a viewing angle controlling system which can be used in a display device for which peep-prevention and viewing-angle-control are required, and makes it possible to control the viewing angle of a display, and an image display device using the same. | 06-18-2009 |
20090167994 | METHOD OF MANUFACTURING POLARIZER, POLARIZER, POLARIZING PLATE, AND IMAGE DISPLAY - A method of manufacturing a polarizer is provided that makes it possible to manufacture a polarizer prevented from curling even when a liquid is brought into contact with a hydrophilic polymer film by being sprayed. A method of manufacturing a polarizer includes a swelling step A for swelling a hydrophilic polymer film | 07-02-2009 |
20100118399 | METHOD FOR PRODUCING POLARIZING PLATE, POLARIZING PLATE, OPTICAL FILM, AND IMAGE DISPLAY - A method of the present invention for producing a polarizing plate including a polarizer and a transparent protective film provided on one side of the polarizer with an adhesive layer interposed therebetween, include the steps of: (A) irradiating at least one side of a polarizer with vacuum ultraviolet rays to treat a surface of the polarizer; (B) bonding a first transparent protective film to the side of the polarizer, which has been subjected to the surface treatment step (A), with a first adhesive layer interposed therebetween to produce a temporary polarizing plate; and (C) peeling off the first transparent protective film and a surface layer of the polarizer, which has been subjected to the surface treatment, from the temporary polarizing plate. A thin polarizing plate in which shrinkage-induced bending is reduced may be obtained by the method. | 05-13-2010 |
20100225854 | LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL DISPLAY APPARATUS USING THE PANEL - Provided are a liquid crystal panel which contributes to reduction in thickness and is excellent in optical properties and a liquid crystal display apparatus. The liquid crystal panel of the present invention includes a liquid crystal cell, a first polarizer disposed on one side of the liquid crystal cell, a second polarizer disposed on another side of the liquid crystal cell, a first optical compensation layer and a first negative C plate disposed between the first polarizer and the liquid crystal cell, and a second negative C plate and a second optical compensation layer disposed between the liquid crystal cell and the second polarizer, in which the first optical compensation layer is disposed between the first polarizer and the first negative C plate, the second optical compensation layer is disposed between the second negative C plate and the second polarizer, the first and second optical compensation layers each include a coating layer functioning as a λ/4 plate, and each have a thickness of 0.3 to 3 μm, and the first and second negative C plates each include a coating layer, and each have a thickness of 0.5 to 10 μm. | 09-09-2010 |
20100321613 | METHOD OF MANUFACTURING POLARIZER, POLARIZER, POLARIZING PLATE, OPTICAL FILM, METHOD OF MANUFACTURING COMPOSITE POLARIZING PLATE, COMPOSITE POLARIZING PLATE AND IMAGE DISPLAY - A method of manufacturing a polarizer is provided that makes it possible to virtually simultaneously perform a contact of a hydrophilic polymer film with liquid and stretch of the hydrophilic polymer film in a width direction by a tenter method, or the like, using a small and simple manufacturing equipment. A method of manufacturing a polarizer includes a width direction stretching process for stretching a hydrophilic polymer film | 12-23-2010 |
20120291945 | METHOD AND SYSTEM FOR MANUFACTURING LIQUID CRYSTAL DISPLAY DEVICE - The method for manufacturing a liquid crystal display device includes carrier film feeding steps including feeding long carrier films from continuous rolls, respectively; peeling steps including folding back each of the carrier films at a front end part placed on a carrier film feed path so that the optical films are peeled off from the carrier films, respectively; and bonding steps including bonding the optical films to the viewer side and back side of a liquid crystal panel, wherein in the bonding steps, the optical films are bonded to the liquid crystal panel in such a manner that the number of times the optical film is bonded to the back side of the liquid crystal panel is greater than the number of times the optical film is bonded to the viewer side of the liquid crystal panel. | 11-22-2012 |
20130037205 | METHOD AND SYSTEM FOR MANUFACTURING LIQUID CRYSTAL DISPLAY DEVICE - A method for manufacturing a liquid crystal display device by feeding carrier films from continuous rolls, respectively, and by bonding optical films, which are being peeled off or have been peeled off from the carrier films, respectively, to first and second panel surfaces of a liquid crystal panel, respectively, with a pressure-sensitive adhesive interposed therebetween so that the liquid crystal display device is obtained. The method includes: a first bonding step including bonding a first optical film to the first panel surface; a rotation step including rotating the liquid crystal panel; a second bonding step including bonding a second optical film to the first optical film; and a third bonding step including bonding a third optical film to the second panel surface of the liquid crystal panel. | 02-14-2013 |
20130135728 | CONTINUOUS ROLL OF OPTICAL FUNCTION FILM, METHOD OF MANUFACTURE OF LIQUID CRYSTAL DISPLAY ELEMENT EMPLOYING SAME, AND OPTICAL FUNCTION FILM LAMINATING DEVICE - An objective of the present invention is to alleviate streaky display unevenness that occurs in liquid crystal display elements when feeding optical function film from a continuous roll having score lines in the width direction thereof and bonding the optical function film on a liquid crystal panel. A continuous roll comprises an optical film laminate ( | 05-30-2013 |
20130135729 | CONTINUOUS ROLL OF OPTICAL FUNCTION FILM, METHOD OF MANUFACTURE OF LIQUID CRYSTAL DISPLAY ELEMENT EMPLOYING SAME, AND OPTICAL FUNCTION FILM LAMINATING DEVICE - An objective of the present invention is to alleviate streaky display unevenness that occurs in liquid crystal display elements when feeding optical function film from a continuous roll having score lines in the width direction thereof and bonding the optical function film on a liquid crystal panel. A continuous roll comprises an optical film laminate ( | 05-30-2013 |
20140041798 | METHOD AND SYSTEM FOR MANUFACTURING OPTICAL DISPLAY PANEL - Manufacturing method is for manufacturing an optical display panel including an optical cell and a pressure-sensitive adhesive layer-carrying optical film provided thereon with the pressure-sensitive adhesive layer interposed therebetween, which includes the steps of unwinding a multilayer optical film from a roll, feeding the multilayer optical film, feeding an optical cell, peeling off the optical film from a carrier film, and bonding the optical film to one side of the optical cell with a pressure-sensitive adhesive interposed therebetween, wherein the longitudinal length (L) of the carrier film between a position at which the multilayer optical film begins to be unwound in the film feeding step and a position at which peeling is started in the peeling step is 15 times or more the width (W) of the carrier film. | 02-13-2014 |
20140287255 | CUTTING INFORMATION DETERMINATION METHOD, AND STRIP-SHAPED POLARIZING SHEET MANUFACTURING METHOD THEREWITH, OPTICAL DISPLAY UNIT MANUFACTURING METHOD THEREWITH, STRIP-SHAPED POLARIZING SHEET, AND POLARIZING SHEET MATERIAL - Provided are a cutting information determination method that can use a simpler process to improve yield, and a strip-shaped polarizing sheet manufacturing method using such a method, an optical display unit manufacturing method using such a method, a strip-shaped polarizing sheet, and a polarizing sheet material. A cutting position in the width direction A2, in which a polarizing sheet material MP is to be cut along its longitudinal direction A1, is determined based on the numbers of defects counted with respect to plural points in the width direction A2 of the polarizing sheet material MP. This makes it possible to determine the cutting position in such a way that a region with many defects does not fall within the cut width, so that a higher-yield cutting position can be determined. The cutting position can also be determined using a simple process in which defects are counted with respect to plural points in the width direction A2. | 09-25-2014 |
20150020960 | OPTICAL DISPLAY PANEL PRODUCTION METHOD AND OPTICAL DISPLAY PANEL PRODUCTION SYSTEM - An object of the invention is to provide a method for manufacturing an optical display panel. The method includes a feeding step including feeding an optical cell with a thickness of 0.2 mm to 1.0 mm by means of a feed roller unit arranged perpendicular to a direction in which the optical cell is fed; a bonding step including feeding a long carrier film from a continuous roll and bonding a sheet piece of the optical film to a lower surface of the optical cell with the pressure-sensitive adhesive interposed therebetween, wherein the lower surface is on a side in contact with the feed roller unit; and a rotation step including rotating the optical cell by 90° with respect to the direction in which the optical cell is fed which is bonded in the bonding step. | 01-22-2015 |
Patent application number | Description | Published |
20100062259 | METHOD FOR MANUFACTURING LAMINATE AND LAMINATE - The present invention provides a method for manufacturing a laminate having a hydrophobic resin substrate and an orientation layer containing an organic dye, wherein the method comprises a step (1) of carrying out a plasma treatment on a surface of the hydrophobic resin substrate under an atmosphere having a nitrogen concentration of 80% or higher and a step (2) of forming the orientation layer containing the organic dye on the hydrophobic resin substrate by applying a solution containing the organic dye exhibiting lyotropic liquid crystallinity and a hydrophilic solvent on the surface of the hydrophobic resin substrate on which the plasma treatment is carried out and drying the solution. | 03-11-2010 |
20100128216 | LIQUID-CRYSTALLINE COATING FLUID AND POLARIZING FILM - A liquid-crystalline coating fluid comprises: a lyotropic liquid crystal compound; a vinyl alcohol-based polymer; and a solvent, wherein 0.05 to 1.5 weight parts of vinyl alcohol-based polymer is contained with respect to 100 weight parts of the lyotropic liquid-crystal compound. | 05-27-2010 |
20120314179 | METHOD OF PRODUCING LIQUID CRYSTALLINE COATING LIQUID, AND OPTICALLY ANISOTROPIC FILM - The present invention provides a method of producing a liquid crystalline coating liquid that substantially does not contain a fine crystal. The method of producing a liquid crystalline coating liquid of the present invention contains a heating step of heating a treatment liquid containing a lyotropic liquid crystalline compound containing an impurity, and a solvent, a depositing step of depositing a deposit by cooling the treatment liquid after the heating step to a temperature lower than 40° C., and a removing step of removing the deposit from the treatment liquid. | 12-13-2012 |
20130149557 | METHOD FOR MANUFACTURING WATER RESISTANT OPTICALLY ANISOTROPIC FILM, AND WATER RESISTANT OPTICALLY ANISOTROPIC FILM - A method for manufacturing a water resistant optically anisotropic film capable of suppressing the generation of a defect such as a crack or separation is provided. The method for manufacturing the water resistant optically anisotropic of the present invention includes a water resistant treatment step of bringing an optically anisotropic film containing an organic dye having an anionic group into contact with a water resistant treatment liquid containing a multivalent cationic compound and a monovalent cationic compound, and the mass ratio of the multivalent cationic compound and the monovalent cationic compound contained in the water resistant treatment liquid, monovalent cationic compound/multivalent cationic compound, is 0.01 to 2. | 06-13-2013 |
20130209691 | METHOD FOR PRODUCING WATERPROOF ORGANIC THIN FILM - The present invention provides a method for producing a waterproof organic thin film being capable of restraining the generation of defects such as a crack. The method for producing a waterproof organic thin film includes a waterproofing step of preparing a long laminate having an organic thin film and bringing at least the organic thin film into contact with a waterproofing-treatment liquid, a washing step of washing at least the organic thin film surface of the long laminate, and a conveying step to be performed between the waterproofing step and the washing step, the conveying step being a step of conveying the long laminate from the waterproofing step to the washing step, wherein in the conveying step, the long laminate is conveyed while the waterproofing-treatment liquid remaining on the organic thin film surface is caused to flow relatively to the organic thin film surface. | 08-15-2013 |
20140048200 | METHOD FOR PRODUCING OPTICAL LAMINATE - A method for producing an optical laminate including a film substrate and a polarizing layer which comprises the steps of: (A) laminating a re-releasable film on one main surface of the film substrate to obtain a laminate film substrate; B) performing a rubbing treatment on the other main surface of the film substrate of the laminate film substrate; C) coating the rubbing-treated surface of the film substrate with a solution containing a lyotropic liquid crystal compound and a solvent; and D) detaching the re-releasable film from the laminate film substrate. | 02-20-2014 |
20140065304 | METHOD FOR MANUFACTURING LONG LAMINATE FILM - Provided is a method for manufacturing a long laminate film having a uniform coating layer while suppressing wrinkling of the coating receiving surface of a long film used as a base film, | 03-06-2014 |
20140345917 | DOUBLE-SIDED TRANSPARENT CONDUCTIVE FILM AND TOUCH PANEL - Provided are a double-sided transparent conductive film which is good in appearance even when its transparent conductive layers are patterned, and has anti-blocking property, thereby being producible at low costs; a wound body thereof; and a touch panel. The double-sided transparent conductive film includes a base material film, and a base material film, and an optical adjusting layer and a transparent conductive layer which are formed in this order on each of both sides of the base material film, wherein an anti-blocking layer containing particles is formed at least one of: a location between the base material film and one optical adjusting layer; and a location between the base material film and the other optical adjusting layer, the anti-blocking layer has a flat portion and protrusion portions caused by the particles, and a value obtained by subtracting a thickness of the flat portion of the anti-blocking layer from a mode diameter of the particles is larger than a thickness of the optical adjusting layer. | 11-27-2014 |
20150022222 | TOUCHSCREEN SENSOR - A touchscreen sensor includes a transparent base material, a first transparent electrode pattern, a first index-matching layer and a first adhesive layer disposed in this order at one side of the transparent base material, and a second transparent electrode pattern, a second index-matching layer and a second adhesive layer disposed in this order at another side of the transparent base material. The first index-matching layer has a refractive index greater than a refractive index of the first adhesive layer. The second index-matching layer has a refractive index greater than a refractive index of the second adhesive layer. Each of the first index-matching layer and the second index-matching layer has a thickness of 85 nm to 120 nm. | 01-22-2015 |
20150022743 | TOUCHSCREEN SENSOR - A touchscreen sensor includes a transparent base material, a first index-matching layer, a first transparent electrode pattern, a second index-matching layer and a first adhesive layer disposed in this order at one side of the transparent base material, and a third index-matching layer, a second transparent electrode pattern, a fourth index-matching layer and a second adhesive layer disposed in this order at another side of the transparent base material. Each of the first, second, third and fourth index-matching layers has a refractive index of 1.6 to 1.8 and a thickness of 50 nm to 150 nm. | 01-22-2015 |