Patent application number | Description | Published |
20110013121 | Phase difference layer laminated body for three dimensional liquid crystal display device and manufacturing method thereof - A phase difference layer laminated body used in a three-dimensional liquid crystal display device, wherein unit cells are divided into groups for left and right eyes, which are given different degrees of polarization, thereby creating a three-dimensional image, further wherein the phase difference layer laminated body has a base material having orientability, and a phase difference layer made of a liquid crystal material that can form a nematic phase and formed in a pattern with two different portions, and the liquid crystal material in each of two different portions is oriented to have different refractive index anisotropy each other that conforms to the two different degrees of polarization and fixed as it is. | 01-20-2011 |
20130316274 | PHASE DIFFERENCE LAYER LAMINATED BODY FOR THREE DIMENSIONAL LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A phase difference layer laminated body used in a three-dimensional liquid crystal display device, wherein unit cells are divided into groups for left and right eyes, which are given different degrees of polarization, thereby creating a three-dimensional image, further wherein the phase difference layer laminated body has a base material having orientability, and a phase difference layer made of a liquid crystal material that can form a nematic phase and formed in a pattern with two different portions, and the liquid crystal material in each of two different portions is oriented to have different refractive index anisotropy each other that conforms to the two different degrees of polarization and fixed as it is. | 11-28-2013 |
20140034209 | PHASE DIFFERENCE LAYER LAMINATED BODY FOR THREE DIMENSIONAL LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A phase difference layer laminated body used in a three-dimensional liquid crystal display device, wherein unit cells are divided into groups for left and right eyes, which are given different degrees of polarization, thereby creating a three-dimensional image, further wherein the phase difference layer laminated body has a base material having orientability, and a phase difference layer made of a liquid crystal material that can form a nematic phase and formed in a pattern with two different portions, and the liquid crystal material in each of two different portions is oriented to have different refractive index anisotropy each other that conforms to the two different degrees of polarization and fixed as it is. | 02-06-2014 |
20140178597 | METHOD FOR PRODUCING PATTERN PHASE DIFFERENCE FILM - The present invention pertains to a pattern phase difference film, which is used to display 3D images using a passive system, and provides a method for producing a pattern phase difference film that can be manufactured with high precision, easily and in large quantities. In a mask provided for manufacturing an alignment film, slits, which are provided for exposure treatment, are made so as to gradually narrow toward the ends in the longitudinal direction. | 06-26-2014 |
20140199528 | METHOD FOR PRODUCING PATTERN PHASE DIFFERENCE FILM, PATTERN PHASE DIFFERENCE FILM, AND IMAGE DISPLAY DEVICE - A pattern phase difference film, which is used to display 3D images using a passive system, and provides a method for producing a pattern phase difference film that can be manufactured with high precision, easily and in large quantities. A mask, which has slits that are made narrow compared to the width of a region that is to undergo exposure treatment and are provided for exposure treatment, is manufactured. | 07-17-2014 |
20140253833 | PHASE DIFFERENCE LAYER LAMINATED BODY FOR THREE DIMENSIONAL LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A phase difference layer laminated body used in a three-dimensional liquid crystal display device, wherein unit cells are divided into groups for left and right eyes, which are given different degrees of polarization, thereby creating a three-dimensional image, further wherein the phase difference layer laminated body has a base material having orientability, and a phase difference layer made of a liquid crystal material that can form a nematic phase and formed in a pattern with two different portions, and the liquid crystal material in each of two different portions is oriented to have different refractive index anisotropy each other that conforms to the two different degrees of polarization and fixed as it is. | 09-11-2014 |
20140268002 | PATTERNED PHASE DIFFERENCE FILM AND METHOD FOR MANUFACTURING SAME - A pattern phase difference film is manufactured by a process including a laminate body formation step of applying a pattern alignment layer composition on a substrate to form a laminate body, a heat-drying layer formation step of heat-drying the composition to form a heat-dried layer, a pattern alignment layer formation step of irradiating a polarization pattern onto the heat-dried layer to form a pattern alignment layer, and a phase difference layer formation step of forming a phase difference layer including a rod-shaped compound on the pattern alignment layer. During the steps between the heat-drying layer formation step and the phase difference layer formation step, the heat-dried layer and the pattern alignment layer are exposed to the air for four hours or less. | 09-18-2014 |
Patent application number | Description | Published |
20100149638 | OPTICAL FUNCTIONAL FILM, RETARDATION FILM, COMPOSITION FOR FORMING OPTICAL FUNCTIONAL LAYER AND PRODUCING METHOD OF OPTICAL FUNCTIONAL FILM - An optical functional film which exhibits excellent optical characteristics without using an alignment film, and having the excellent adhesion property between layers. The optical functional film includes: a substrate having a property as an optically negative C-plate, and an optical functional layer formed on the substrate and having a rodlike compound. The optical functional layer is formed directly on the substrate, and the rodlike compound forms a random homogeneous alignment in the optical functional layer. | 06-17-2010 |
20100159158 | OPTICAL FUNCTIONAL FILM AND PRODUCTION METHOD THEREOF - An optical functional film exhibiting optical biaxiality which has a high degree of freedom in optical characteristics design. The optical functional film which exhibits optical biaxiality and includes: a substrate; and an optical functional layer formed on the substrate and having a rodlike compound. The rodlike compound forms irregular-random homogeneous alignment in the optical functional layer. | 06-24-2010 |
20100165258 | OPTICAL ROTATION PLATE AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - A main object of the present invention is to provide a rotating plate hardly generating variation in the rotation angle of the liner polarization so as to easily realize a desired rotation angle, and a liquid crystal display device enabling observation of a bright image by use thereof even in a state with a polarizing glasses put on. To attain the object, the present invention provides an optical rotation plate comprising a transparent substrate, and an optical rotation layer formed on the transparent substrate and containing a rod-shaped compound for forming a cholesteric structure and having a function of rotating transmitted liner polarization, wherein the cholesteric structure has a 90 degrees or larger twist angle and a pitch in a range of 450 nm to 4,000 nm. | 07-01-2010 |
20100182545 | RETARDATION LAYER AND LIQUID CRYSTAL DISPLAY APPARATUS USING THE SAME - The present invention provides a retardation layer capable of effectively restraining the display quality deterioration without generating a bright and dark pattern in the display image even when a retardation layer is disposed in between a liquid crystal cell and a polarizing plate. | 07-22-2010 |
20100220266 | Polarizing plate protection film, polarizing plate, and liquid crystal display device - A polarizing plate protection film and a polarizing plate which can restrain generation of rainbow-like irregularities and enables to produce an excellent quality liquid crystal display device when a commercially-available film is used as it is under commercially-available conditions or when a film produced by a common film forming method is used. The polarizing plate protection film includes: a transparent substrate; and a refractive index difference-mitigating part formed on the transparent substrate and provided with a low refractive index layer at its most outer layer, in which the low refractive index layer has a refractive index to the light transmitted through the transparent substrate smaller than that of the transparent substrate and bigger than that of the air. An in-plane distribution of the in-plane retardation (Re) of the transparent substrate is 5 nm or more. | 09-02-2010 |
20100328583 | LIQUID CRYSTAL DISPLAY POLARIZING PLATE, METHOD FOR PRODUCING LIQUID CRYSTAL DISPLAY POLARIZING PLATE, AND LIQUID CRYSTAL DISPLAY - A liquid crystal display polarizing plate that can reliably exhibit optical properties and be bonded to a liquid crystal cell without causing degradation of the optical properties. The liquid crystal display polarizing plate includes: a retardation film which has a substrate including a cellulose derivative and a retardation layer formed directly on the substrate and containing the cellulose derivative and a rod-like compound having refractive index anisotropy; a polarizer bonded to the retardation layer of the retardation film and including polyvinyl alcohol; and a polarizing plate protection film bonded to the polarizer. | 12-30-2010 |
20110253932 | OPTICAL FUNCTIONAL FILM, RETARDATION FILM, COMPOSITION FOR FORMING OPTICAL FUNCTIONAL LAYER AND PRODUCING METHOD OF OPTICAL FUNCTIONAL FILM - An optical functional film which exhibits excellent optical characteristics without using an alignment film, and having the excellent adhesion property between layers. The optical functional film includes: a substrate having a property as an optically negative C-plate, and an optical functional layer formed on the substrate and having a rodlike compound. The optical functional layer is formed directly on the substrate, and the rodlike compound forms a random homogeneous alignment in the optical functional layer. | 10-20-2011 |
20120177838 | ELECTROMAGNETIC WAVE REFLECTIVE MEMBER PRODUCTION METHOD - An electromagnetic wave reflective member production method including a right-circularly-polarized-light selective reflective layer forming step, and a left-circularly-polarized-light selective reflective layer forming step, characterized in that a right-handed twisted coating film is formed in the right-circularly-polarized-light selective reflective layer forming step by applying a right-handed twisting coating liquid on a transparent substrate and forming a substantially fully cured right-circularly-polarized-light selective reflective layer by means of energy irradiation of the right-handed twisted coating film; and a left-handed twisted coating film is formed in the left-circularly-polarized-light selective reflective layer forming step by applying a left-handed twisting coating liquid on the right-circularly-polarized-light selective reflective layer and forming a left-circularly-polarized-light selective reflective layer by means of energy irradiation of the left-handed twisted coating film. | 07-12-2012 |
20120218626 | INFRARED-RAY REFLECTIVE MEMBER - Disclosed is an infrared-ray reflective member which efficiently reflects infrared rays (heat rays) contained in sunlight while transmitting visible light rays. The infrared-ray reflective member has an infrared-ray reflective layer having a selective reflection layer for reflecting infrared rays of a right-circularly polarized light component or a left-circularly polarized light component, and the infrared-ray reflective layer has a first reflection band corresponding to a first radiant energy band containing a peak located closest to the short-wavelength side of the infrared range of the spectrum of sunlight on earth, and when the maximum reflectance in the first reflection band is determined at R | 08-30-2012 |
20130107193 | ELECTROMAGNETIC WAVE REFLECTIVE FILM AND METHOD FOR PRODUCING SAME | 05-02-2013 |
20140313581 | LONG PATTERNED ALIGNMENT FILM, AND LONG PATTERNED RETARDATION FILM USING SAME - A long patterned alignment film is provided, from which a large number of patterned retardation films can easily be produced, having an alignment layer which is in a long form and comprises an optical alignment material, wherein the alignment layer includes a first alignment region for causing a rodlike compound having a refractive index anisotropy to be arranged in a certain direction, and a second alignment region for causing the rodlike compound to be arranged in a direction different from the certain direction of the first alignment region. | 10-23-2014 |