Patent application number | Description | Published |
20100037983 | NECK RING SEAL - A filling valve device having a gripper and a container mouth seal, in which vertical movement of the gripper holding an empty beverage container relative to a filling valve causes a filling valve container mouth seal to be brought into contact with a neck ring to form a gas seal and fill a beverage containing carbon dioxide. The cross-sectional shape of the container mouth seal approximates an inwardly facing lip shape. Flexibility is imparted in the vertical direction of the filling valve. The inside of the container mouth seal is brought into contact with the neck ring during beverage filling, and a sealing force is applied to the beverage container and the container mouth seal by the gas pressure applied during filling. | 02-18-2010 |
20100037984 | ASEPTIC FILLING DEVICE FOR CARBONATED BEVERAGES - An aseptic filling device for filling carbonate beverages capable of decreasing the size of the clean booth, facilitating maintenance around the filling valve, and reliably sterilizing the interior of gas piping is provided. The aseptic filling device includes a plurality of filling valves, a fluid rotary joint, a filling fluid tank, a fluid surface level sensor, a fluid flow adjustment valve, a container gripper, a plurality of exhaust conduits, an exhaust conduit on/off valve, a plurality of counter gas conduits, a counter gas conduit on/off valve, a rotary joint, an ascetic gas conduit, a flow meter, and a sterilizing filter, wherein rotary conveyed containers contact at least one of the filling valves and are sealed by a sealing member. Filling is performed under a gas pressure, for example, carbon dioxide gas pressure, and a sterilizing filter for sterilizing the gas is mounted on a gas pipe connecting the rotary joint and the filling fluid tank. | 02-18-2010 |
Patent application number | Description | Published |
20080284958 | LIQUID-CRYSTAL DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 11-20-2008 |
20090168167 | DISPLAY DEVICE AND TERMINAL UNIT USING THE SAME - A display device reduces the image quality degradations by suppressing the effect of the defective alignment regions caused by the spacers while minimizing the aperture ratio lowering, and prevents the image quality change dependent on the observation positions. The display device has a display panel and a lenticular lens. Each unit pixel of the display panel includes the sub-pixel for the left eye and the sub-pixel for the right eye. To keep the pair of substrates at a predetermined gap, spacers are arranged at predetermined positions in the gap. The spacers are stripe-shaped and extended along a direction perpendicular to the image separation axis of the lenticular lens. The spacers are equally overlapped with the sub-pixels for the left eye and those for the right eye. The spacers may be isolated for the respective unit pixels, or the first or second sub-pixels. | 07-02-2009 |
20090231715 | OPTICAL ELEMENT ARRAY SHEET, DISPLAY DEVICE, AND FABRICATION METHOD FOR SAME - An optical element array sheet is provided with: a first area in which an optical element array is arranged that is composed of a plurality of optical elements arranged at a prescribed period, a second area formed at the end of the first area with a surface shape that differs from the first area, and a trough formed at the border of the first area and the second area. The side-wall on the second-area side of the trough is formed inclined with respect to a reference line that extends in the thickness direction of the optical element array with the bottom of the trough as the point of origin. | 09-17-2009 |
20120003434 | OPTICAL SHEET LAMINATING METHOD, OPTICAL SHEET LAMINATING DEVICE AND PROGRAM USED THEREWITH, AND DISPLAY DEVICE - To provide a laminating method which achieve high accuracy and high quality in a laminating step of an optical sheet and a display panel. Contact areas between the optical sheet and the sheet holding head are read. At this time, an optical element face of the optical sheet is brought into contact with the sheet holding head, light is irradiated to the contact areas therebetween from a no-optical-element face, and positional information of the optical sheet is read based on the distribution of the reflected light thereof. | 01-05-2012 |
20120038857 | LIQUID-CRYSTAL DISPLAY DEVICE - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 02-16-2012 |
20130057810 | LIQUID-CRYSTAL DISPLAY DEVICE - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 03-07-2013 |
20130278850 | LIQUID-CRYSTAL DISPLAY DEVICE - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 10-24-2013 |