Patent application number | Description | Published |
20090115919 | Flat Panel Display - Space is decreased in the direction of thickness on a side of a substrates mounted on a back of a flat panel display to adapt requirement for increasing and thinning its size, and most flat panel displays forcibly radiate heat with a fan provided thereon. The present invention provides a flat panel display having fewer heat radiating fans to secure a channel for causing a heat radiating air to flow. Portions where electronic circuit device on a back of a display panel are mounted are divided into three: left; center; and right portions; with a main frame as a border, the electronic circuit device are constructed of four module substrates, the substrate which is the greatest in heating value in the four module substrates (hereinafter referred to as a substrate) is arranged in the center portion and the substrates which are the smallest and the second smallest in heating value therein are arranged in the same portion. | 05-07-2009 |
20090147463 | RECEIVER APPARATUS - There is provided a digital broadcasting receiver apparatus in which a temperature in the area surrounding a removable HDD does not become a high temperature during an operation regardless of whether it is disposed horizontally or vertically. A component with a large heat generating quantity and a component with a small heat generating quantity are installed in respective spaces inside a case. An adapter of the removable HDD is mounted to dispose the removable HDD in a space in which a component with a small heat generating quantity is mounted, thereby preventing the temperature in the area surrounding the removable HDD from becoming a high temperature. | 06-11-2009 |
20100053049 | LIQUID CRYSTAL DISPLAY - A liquid crystal display has a liquid crystal panel, a gate chip on film (COF) disposed at a side of a side surface of the liquid crystal panel, side-edge-type backlights having a light emitting diode disposed on left and right side surfaces of the liquid crystal panel, and a cover and a frame that hold the liquid crystal panel and the backlights, the frame has an opening disposed at a position corresponding to the position of the gate COF into which the gate COF is inserted, and a lid for covering the gate COF inserted in the opening is connected to the frame in such a manner that the lid is capable of being opened and closed. | 03-04-2010 |
20100066937 | LIQUID CRYSTAL DISPLAY UNIT - There is provided a slim liquid crystal display unit having a large screen by providing a slim structure capable of sufficiently radiating the heat from a light source. The liquid crystal display unit according to the present invention includes: a liquid crystal panel; an optical guiding board installed on a rear face thereof; a pair of light source-mounted substrate disposed, opposing right and left side faces thereof; a light source mounted on the light source-mounted substrate; a metal frame connected on the opposite side to the optical guiding board of the light source-mounted substrate; a chassis member for supporting the optical guiding board and a reflection sheet group; and a thermal diffusion member fixed onto the metal frame along with the chassis member. The chassis member has a stepped portion in the vicinity of the light source. Between the stepped portion and the reflection sheet group, a thermal insulation member is attached. | 03-18-2010 |
20100066939 | LIQUID CRYSTAL DISPLAY APPRATUS - Provided is a liquid crystal display apparatus capable of avoiding heat radiation hindrance caused from blocking of a heat radiation path by electric wiring and from interference of the electric wiring with a radiating portion for heat generated from circuit boards, in which a heat diffusion member and the circuit boards including an LED driver substrate are arranged in a plane at the rear of a frame in a housing while being isolated from one another, and LED light sources mounted on metal blocks are connected to the LED substrate through a flexible cable which is led from the outsides of the metal blocks and the heat diffusion member and is then led between the heat diffusion member and a rear case. | 03-18-2010 |
20100079942 | VIDEO DISPLAY APPARATUS - The present invention provides a simply usable shield cover capable of enhancing the mechanical strength of a set even if a display device is decreased in thickness. In a video display apparatus including a base chassis on a front surface of which a displaying member is arranged and on a back surface of which a unit for driving and controlling the display device is arranged, and a plurality of frames arranged on the back surface of the base chassis in parallel with each other, a shield cover is attached to the plurality of frames to extend over those to form a crosslink structure. | 04-01-2010 |
20100182541 | Backlight Unit and a Liquid Crystal Display Apparatus Applying the Same Therein - A backlight unit, being thin-sized, but having high definition and high uniformity of luminance, and a video display apparatus applying the same therein, has a plural number of sets of at least one or more of light source(s) ( | 07-22-2010 |
20100245711 | LIQUID CRYSTAL DISPLAY DEVICE - In a liquid crystal display device having a direct-lighting backlight using LEDs as a light source, the number of LEDs is reduced without causing unevenness in brightness. An LED is disposed under a cylindrical lens to be closer to one end of the lens than a middle part of the lens. Light emitted from the LED is outputted, as diffused light, upward from an end diffusion surface of the lens. A portion of the top surface of the lens makes up a total reflection surface to reflect light emitted from the LED and thereby cause the reflected light to head for the other end of the lens. Diffusion surfaces formed on the top surface and the bottom surface of the lens radiate diffused light upward of the lens, causing uniform light to be radiated from the whole top surface of the lens. | 09-30-2010 |
20110051036 | Liquid Crystal Display Device - The invention makes patterns which may show, according to the positioning of light guide plates, along the vertical direction of a display screen of a side-edge type liquid crystal display device inconspicuous. This is achieved by disposing light guide plates so as to guide the illumination light from light sources, for example, LEDs along the vertical direction of the display screen. The vertically guided illumination light is reflected, with reflection sheets also facilitating the reflection, at rear sides of the light guide plates and is, after traveling through a diffusion sheet to be made more uniform, further guided to liquid crystals. Even though boundaries between light guide plates are generally more conspicuous along the vertical direction of a display screen than along the horizontal direction, first guiding the illumination light into a vertical direction removes the problem of such boundaries conspicuously showing along the vertical direction. | 03-03-2011 |
20110051042 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device is provided in which, even when divided light guide plate blocks are thermally expanded or contracted as a result of a temperature change, the generation of clearances and mechanical deformations between such divided light guide plate blocks is prevented, making it possible to reduce the brightness unevenness of the liquid crystal display device. To realize the above feature, light guide plate blocks are arranged such that one or two of them are arranged in each horizontal row with only an upper side of each light guide plate block fixed to a chassis and, furthermore, such that the upper side fixed to the chassis of each light guide plate block is based on a center in the horizontal direction of the liquid crystal display panel so as to reduce the effects of thermal expansion and contraction of each light guide plate block. | 03-03-2011 |
20110063543 | LIQUID CRYSTAL DISPLAY DEVICE - Each of plural light source units is formed by combining a light source formed of plural light emitting elements mounted on a wiring substrate with a light guide plate having a side surface serving as a light incident surface. The wiring substrate is attached to the chassis such that the light output surface of the light emitting element is perpendicular to the light emitting element mount surface of the wiring substrate. The wiring patterns each with the larger width than that of the electrode are formed on both upper and back surfaces of the substrate at the portion to which the power feeding electrode of the light emitting element is soldered. They are connected via the through holes which are arranged in plural rows around the electrode. | 03-17-2011 |
20120113359 | Backlight Unit and a Liquid Crystal Display Apparatus Applying the Same Therein - A backlight unit and a video display apparatus having a plural number of sets of one or more of light sources. A light guidance plate for guiding lights from the light sources to a side of a liquid crystal panel, to be emitted. The light sources are disposed on one end side of the light guidance plate. Assuming that width of the gap or groove is “d”, distance between a light incident surface of the liquid crystal panel and a light emission surface of the light guidance plate, or distance between a light incident surface of an optical member disposed between the liquid crystal panel and the light guidance plate and a light emission surface of the light guidance plate is “h”, and further 2.0 mm>d≧0.1 mm and 10.0 mm>h≧0.4 mm, then the following condition is satisfied: 4≦h/d≦100. | 05-10-2012 |
20120194499 | FLAT PANEL DISPLAY - A flat panel display apparatus includes a plasma display panel, a power supply substrate, a signal processing substrate, a Y sustaining substrate, and an X sustaining substrate. The power supply substrate, the signal processing substrate, the Y sustaining substrate and the X sustaining substrate are arranged at a back of the plasma display panel. When viewing the plasma display panel from the back, the power supply substrate is arranged at a center portion of the plasma display panel, the Y sustaining substrate is arranged at one of a left and right side of the plasma display panel, the X sustaining substrate is arranged at the other of the left and right side, and the signal processing substrate is arranged under the X sustaining substrate. A circuit substrate other than the power supply substrate, the Y sustaining substrate, and the X sustaining substrate is arranged under the power supply substrate. | 08-02-2012 |