Patent application number | Description | Published |
20140152937 | LIQUID-CRYSTAL DISPLAY (LCD) PANEL CAPABLE OF ACHIEVING LOW-TEMPERATURE DISPLAY - A liquid-crystal display (LCD) panel capable of achieving low-temperature display comprises an opposing substrate. a thin-film transistor (TFT) substrate and a liquid crystal layer disposed between the opposing substrate and the TFT substrate, a TFT pattern including gate lines and data lines is disposed on the front side of the TFT substrate, and an electrical heating pattern corresponding to the TFT pattern is disposed on the back side of the TFT substrate. | 06-05-2014 |
20140168585 | COLOR FILTER SUBSTRATE, MANFACTURING METHOD FOR THE SAME, AND DISPLAY DEVICE - An embodiment of the present invention relates to a color filter substrate, comprising: a transparent substrate, a black matrix unit being arranged on the transparent substrate, and color resin coatings. The black matrix unit may comprises first sub black matrices, being configured to be a forming foundation of the color resin coatings; and second sub black matrices, being configured to be on the first sub black matrices, and be filled between the color resin coatings after the color resin coatings have been formed. At least a portion of the first sub black matrices are covered by the color resin coatings formed after the first sub black matrices are formed. And a sum of a thickness of the first sub black matrix and a thickness of the second sub black matrix is not less than a minimum thickness value satisfying a shading requirement. | 06-19-2014 |
20150160563 | EXPOSURE METHOD AND EXPOSURE DEVICE - Embodiments of the disclosure provide an exposure method and an exposure device. The exposure method comprises: placing at least two transparent substrates coated with photoresist under one mask, wherein all of the at least two substrates are in parallel with the mask; irradiating the mask vertically with parallel exposure light to respectively expose the photoresist on the at least two substrates along a propagation direction of the exposure light. | 06-11-2015 |
20150234326 | DEVELOPING DEVICE AND DEVELOPING METHOD - The present disclosure provides a developing device and method. The developing device includes the nozzle for spraying the developing liquid, the machine table for bearing the glass substrate, and the inclination controller for controlling the nozzle and the machine table to be inclined towards a predetermined direction of the machine table at a predetermined angle and keeping the inclined angle within a preset period. The method includes controlling, by the inclination controller, the machine table and the nozzle to be inclined towards a first direction of the machine table at a predetermined angle during the inclination cycle period and keeping the inclined angle within the preset period, and controlling, by the inclination controller, the machine table and the nozzle to be sequentially inclined towards other directions of the machine table at a predetermined angle according to the preset inclination direction sequence and keeping the inclined angle within the preset period | 08-20-2015 |
20150268420 | LIGHT TRANSMITTING SUBSTRATE, ARRAY SUBSTRATE, COLOR FILTER SUBSTRATE AND DISPLAY DEVICE - Disclosed are a light transmitting substrate, an array substrate, a color filter substrate and a display device. The light transmitting substrate includes a substrate body ( | 09-24-2015 |
20150309221 | COLOR FILTER SUBSTRATE, MANUFACTURING METHOD THEREOF AND DISPLAY DEVICE - A color filter substrate, a manufacturing method thereof and a display device are provided. The color filter substrate includes a substrate; a black matrix dividing the substrate into a plurality of sub-pixel areas arranged in matrix; a color filter layer including color photoresist patterns with N different colors, N≧3, arranged cyclically in discontinuous sub-pixel areas in adjacent N rows/columns, the color photoresist patterns in M adjacent sub-pixel areas of a single color in at least one line/column in the color filter layer extending to regions over the black matrix corresponding to regions between adjacent sub-pixel areas, to form continuous strip-like color photoresist patterns, wherein M≧2; and spacers including main spacers disposed over regions between adjacent discontinuous color photoresist patterns corresponding to the black matrix and secondary spacers disposed over regions of the continuous strip-like color photoresist patterns corresponding to the black matrix. | 10-29-2015 |