Abstract:
A plasma display device has a reduced number of components, thereby lowering manufacturing costs, improving productivity of assembly, and reducing a weight thereof. The display device includes a PDP module; a front frame positioned in front of the PDP module and having an opening; a rear cover covering a rear side of the PDP module to shield electromagnetic waves; a front filter positioned to face the opening of the front frame to shield the electromagnetic waves; and a shielding member positioned along a periphery of the PDP module to shield the electromagnetic waves. The front filter has a rear side supported by the PDP module.
Abstract:
Disclosed is a plasma display panel including: a panel; a film type front surface filter disposed at a front surface of the panel; a back cover disposed at a rear surface of the panel; a filter support having a portion thereof formed to be overlapped with the film type front surface filter, for connecting the film type front surface filter with the back cover; a first metallic layer formed on a surface overlapped with the filter support of the film type front surface filter; and a second metallic layer disposed between the first metallic layer and the filter support, for electrically connecting the first metallic layer with the filter support.
Abstract:
The invention presented is a method for applying heat spreaders to a plurality of plasma display panels, including (a) providing a plurality of heat spreader composites, each of which comprises a heat spreader material having an adhesive thereon and a release material positioned such that the adhesive is sandwiched between the heat spreader material and the release material; (b) removing the release material from a plurality of the composites; and (c) applying at least one of the composites to each of the plurality of plasma display panels each such that the adhesive adheres the heat spreader material to the plasma display panel.
Abstract:
A display apparatus includes a display and a display filter, wherein the display filter includes a base film and a plurality of beads, wherein each bead includes a light absorbing element and a transparent layer.
Abstract:
A plasma display panel and a manufacturing method thereof are disclosed. The plasma display panel includes discharge cells which are partitioned by an upper panel, a lower panel, and barrier ribs, and at least one groove which is formed on the upper panel correspondingly to the discharge cells.
Abstract:
A plasma display apparatus and a method of manufacturing the same are disclosed. The plasma display apparatus includes a plasma display panel, an electromagnetic interference (EMI) shielding layer positioned on the plasma display panel, and a filter positioned on the EMI shielding layer. The filter includes an adhesive layer positioned on the EMI shielding layer and a base film layer positioned on the adhesive layer.
Abstract:
The present invention provides a display device allowing the quality and reliability to be improved by preventing the occurrence of vacuum leak attributable to dislocation which may be caused by preliminary baking and panel sealing.A display device in which the end surfaces of a support body 13 are hermetically bonded to a front substrate 2 and a rear substrate 1 by sealing members 4. In the display device, the support body 13 is formed by bonding together a plurality of support body members 13X1, 13X2, 13Y1 and 13Y2, and adjacent support body members are bonded by using a first bonding member 141 for bonding a central area of each bonding surface and a second bonding member 142 for bonding a marginal area around the central area. The softening temperature of the first bonding member is set higher than the softening temperature of the second bonding member.
Abstract translation:本发明提供一种显示装置,通过防止可能由初步烘烤和面板密封引起的位错引起的真空泄漏的发生,从而提高质量和可靠性。 支撑体13的端面通过密封构件4气密地接合到前基板2和后基板1的显示装置。在显示装置中,支撑体13通过将多个支撑体 通过使用用于接合每个接合表面的中心区域的第一接合构件141和用于接合边缘的第二接合构件142来接合构件13 X 1,13 X 2,13 Y 1和13 Y 2,并且相邻的支撑体构件 中心区周边地区。 第一接合部件的软化温度被设定为高于第二接合部件的软化温度。
Abstract:
Contrast enhancement films for a direct-view display include a substrate having first and second opposing sides, an array of optical microstructures on the first side, and an optically blocking film including an array of apertures on the second side. The contrast enhancement film is configured to mount between a direct-view display panel and an outer panel of the direct-view display.
Abstract:
Provided is a method of manufacturing a barrier rib structure for a high-definition flat display panel by using a metal. The method includes preparing a base substrate, forming a photoresist layer on the base substrate, exposing a portion of the base substrate adhered to the photoresist layer, plating an upper surface of the exposed portion with a metal for the barrier rib structure, and removing the photoresist layer to form the barrier rib structure.
Abstract:
A plasma display device including a protective layer disposed adjacent to a front surface of a plasma display panel, a chassis base, wherein a front surface of the chassis base is disposed adjacent to a rear surface of the plasma display panel, circuit units disposed on a rear surface of the chassis base and a conductive member that electrically connects the protective layer to the chassis base, wherein the protective layer serves to filter electromagnetic radiation emitted from the plasma display panel.