A display apparatus can include a plurality of first display panels arranged in a grid, the plurality of first display panels including display areas having a plurality of first sub-pixels and bezel areas free of sub-pixels; and a second display panel stacked on the plurality of first display panels, and including emission areas and transparent transmission areas, in which the emission areas of the second display panel include a plurality of second sub-pixels arranged in a grid overlapping with the bezel areas of the first display panels, and the transparent transmission areas of the second display panel overlap with the plurality of first sub-pixels in the plurality of first display panels.

The present invention provides a backlight module and a display device, wherein the backlight module includes an in-plane hole, and further includes a first light source and a second light source each independently driven and controlled; the light guide is disposed at a wall of the in-plane hole corresponding to the first light source, and is configured to provide light emitted by the first light source to an area of the in-plane hole under a predetermined condition. Compared with the prior art, the embodiments of the present invention solve the problem in the prior art that in-plane holes in a backlight module of a liquid crystal display device have no light source to provide brightness, thereby realizing the in-plane hole of the backlight module with brightness under a predetermined condition, and providing more scene applications of the area of the in-plane hole.

The present invention relates to a light exiting member, a method of manufacturing the same, and more particularly, to a backlight unit of a liquid crystal display, a front light unit of a reflective display, applicable to interior lighting, living lighting or advertisement lighting, and a light member capable of implementing a delicate and various specific image by selectively burying or modifying the same. The light exiting member according to an embodiment of the present invention has a plurality of fine pattern portions formed on one surface, the fine pattern portions have a cavity, the cavity is defined by a lower surface located at a predetermined depth from the opening and a plurality of inner surfaces connected to the lower surface, and at least one of the inner surfaces is convex.

The present invention provides a backlight module and a display device, wherein the backlight module includes an in-plane hole, and further includes a first light source and a second light source each independently driven and controlled; the light guide is disposed at a wall of the in-plane hole corresponding to the first light source, and is configured to provide light emitted by the first light source to an area of the in-plane hole under a predetermined condition. Compared with the prior art, the embodiments of the present invention solve the problem in the prior art that in-plane holes in a backlight module of a liquid crystal display device have no light source to provide brightness, thereby realizing the in-plane hole of the backlight module with brightness under a predetermined condition, and providing more scene applications of the area of the in-plane hole.

The embodiments of the invention provide a backlight module, a display panel and a display device. The backlight module includes two sets of lamp bars arranged side by side, a first backlight driving module, a second backlight driving module, a plurality of first transfer circuit boards, a plurality of second transfer circuit boards, a plurality of first connection lines and a plurality of second connection lines. A plurality of first lamp bar units in the first set of lamp bars are coupled to the first transfer circuit board, and in turn coupled to the first backlight driving module through first connection lines. A plurality of second lamp bar units in the second set of lamp bars are coupled to the second transfer circuit board, and coupled to the second backlight driving module through second connection lines. Each first connection line is the same as the corresponding second connection line.

The present invention relates to a light exiting member, a method of manufacturing the same, and more particularly, to a backlight unit of a liquid crystal display, a front light unit of a reflective display, applicable to interior lighting, living lighting or advertisement lighting, and a light member capable of implementing a delicate and various specific image by selectively burying or modifying the same. The light exiting member according to an embodiment of the present invention has a plurality of fine pattern portions formed on one surface, the fine pattern portions have a cavity, the cavity is defined by a lower surface located at a predetermined depth from the opening and a plurality of inner surfaces connected to the lower surface, and at least one of the inner surfaces is convex.

Disclosed are an array substrate, a display panel, a display device and a method for manufacturing an array substrate. The array substrate includes a substrate and a film layer structure provided on the substrate. The film layer structure includes a first film layer segment and a second film layer segment provided at a periphery of the first film layer segment, a hollow portion for accommodating liquid crystal is formed on a side of the first film layer segment away from the substrate, and a distance between the hollow portion and the substrate is smaller than a distance between a side of the second film layer segment away from the substrate and the substrate.

One embodiment is a remote display system. Embodiments include a liquid-crystal display (“LCD”), an outer surface that forms a gap between the outer surface and the LCD, a light sensor disposed within the gap and covering a portion of the LCD, and a flexible printed circuit board (“PCB”) that couples the light sensor to a server.

The present application relates to a lightness adjusting method for a display system. The method includes the steps of writing a first driving signal into a display panel; controlling a first lens and a backlight module to be turned on simultaneously, where a plurality of light-emitting elements of the backlight module are turned on simultaneously, and the first lens and the plurality of light-emitting elements of the backlight module are turned on simultaneously; adjusting a first turn-on time of each light-emitting element; controlling a second lens and the backlight module to be turned on simultaneously, where the plurality of light-emitting elements of the backlight module are turned on simultaneously, and the second lens and the plurality of light-emitting elements of the backlight module are turned on simultaneously; and adjusting a second turn-on time of each light-emitting element.

The present disclosure provides a flexible backlight, a method for manufacturing the same, and a display device. The flexible backlight includes: a first flexible substrate and a second flexible substrate arranged opposite to each other; a plurality of spacers arranged between the first flexible substrate and the second flexible substrate, for supporting a spacing between the first flexible substrate and the second flexible substrate, and for forming an accommodating chamber between the first flexible substrate and the second flexible substrate; a first electrode and a second electrode for forming an electric field; a gas contained in the accommodating chamber, in which the gas is capable of emitting a non-visible light by the action of the electric field; and a photoexcitation layer arranged on the second flexible substrate, in which the photoexcitation layer can emit a visible light under illumination of the non-visible light and is in contact with the spacer.