A modular distributed control LED display system, comprising several LED display module units (100) which are spliced together to form an integrated LED display screen, each of the LED display module units (100) comprises a lamp board (110) and an independent controller (120), wherein the lamp board (110) is provided with a number of LED light sources, and the independent controller (120) is provided on the back of the lamp board (110), the independent controller (120) is used to control the working state and display mode of the LED light sources.

The present invention relates to a modularized spliced LED display screen including a plurality of unit screens. When assembling, a certain number of the unit screens are assembled in a splicing frame to form a module screen. A number of the said module screens are assembled horizontally to form a large display screen. The present invention forms a module screen by a plurality of unit screens of the same structure, and then assembles a plurality of module screens horizontally to form a large display screen, and the overall assembly method is simple, and is easy to assemble and disassemble.

An integrated control LED display system, comprising a number of module screens (100) which are assembled together to form a large display screen, each of the module screens (100) comprises several unit screens (200), a splicing frame (300) and a control box (400), several unit screens (200) are assembled in the splicing frame (300) to form a said module screen (100), the control box (400) is arranged on the back of the module screen (100), and the control box (400) can simultaneously control the work mode of the unit screens (200).

Examples of a display element corresponding to a pixel of a display, are described. In one example, the display element may include a rotatable component. The rotatable component may be provided with a first sub-element and a second sub-element. The first sub-element and the second sub-element are such that they, respectively, have different type of display properties.

A split-screen display method and a display apparatus are disclosed. The method is applicable to a display apparatus including a curved display screen, and includes: obtaining position information of a preset fold line on a curved display screen in response to detecting that an user bends and splits the curved display screen according to the preset fold line and a display screen corresponding to the preset fold line is recessed relative to a rear side of the curved display screen, wherein the preset fold line is a dividing line between adjacent curved display screens formed by the bending and splitting; dividing a display interface of the curved display screen into a plurality of sub-interfaces according to the position information, and a splitting line between the two adjacent sub-interfaces coincides with the preset fold line; obtaining display content selected by the user in the sub-interfaces; and displaying the display content via the sub-interfaces.

A frame assembly presents one or more electronic displays. The frame assembly includes a first panel having a first front surface and a first rear surface. The first panel is oriented such that the first front surface faces a first direction and the first rear surface faces a second direction opposite the first direction. A plurality of inner members are coupled to the first front surface and extend from the first front surface towards the first direction. A plurality of outer members are coupled to the first front surface and extend from the first front surface towards the first direction. The outer members are spaced from the inner members to define a plurality of channels therebetween. A second panel is hingedly coupled to the first panel such that the first panel and/or the second panel are rotatable about an axis of rotation.

Embodiments of the disclosure provide a multi-screen display method and a display device including a curved surface display screen. The method is applied to the display device and includes the following steps. Position information of preset folding lines in the curved surface display screen is obtained when screen is bent according to the preset folding lines, wherein the preset folding lines are boundaries between the two adjacent sub-curved surface display screens formed thereby. A display interface of the screen is divided into a plurality of display sub-interfaces according to the position information, wherein screen splitting lines between two adjacent display sub-interfaces coincide with the preset folding lines. The display contents selected by the user in the plurality of display sub-interfaces are obtained; and the selected display contents are displayed in the display sub-interfaces.

A multi-frame display method applied to a display device. The method includes: when performing a bending split screen on a curved surface display screen according to a predetermined fold line, acquiring a first position information of the predetermined fold line on the screen, wherein at least two curved surface display screens face different orientations; dividing a display interface of the screen into a plurality of first display sub-interfaces according to the first position information; when drawing a track on the first display sub-interface, acquiring a second position information of the track in the first display sub-interface; dividing a display interface of the first display sub-interface into two second display sub-interfaces according to the second position information; acquiring display contents in the first or second display sub-interfaces selected by the user; and displaying the display content selected in the first or second display sub-interface through the first or second display sub-interface.

The present invention discloses a display structure comprising at least one display module, wherein the display structure comprises at least one substrate layer comprising polymer, glass, ceramic or composite materials and integrated electrically conductive circuitry with electronics, where applicable, and light emitting devices; at least one electrically conductive layer, enabling intelligent control of the light emitting devices; wherein a display module comprises at least one coating or molded layer protecting the display structure from moist and other environmental effects; the display structure further comprises, when applicable, a number of structured, through-holes reaching through the whole display structure; the display structure is configured to be constructed from smaller, manufacturable sized display modules by interconnecting suitable amount of display modules into rows and columns; and the display structure is applicable to harsh environments comprising ice and outdoor conditions. Various coating layers and materials can be selected for the ice application use and for the outdoor use. The corresponding manufacturing method is also part of the inventive concept.

A touch display device includes a printed circuit board and a cover. The printed circuit board has a top surface, a bottom surface and soldering points. The printed circuit board includes a first printed circuit, a light element and a second printed circuit. A part of the first printed circuit is on the top surface or the bottom surface and connected with the corresponding soldering point. The light emitting element is on the top surface and electrically connected to the first printed circuit. On the top surface, the second printed circuit does not overlap with the first printed circuit. The cover covers the printed circuit board. The cover has light transmission areas which are aligned with the light elements. The second printed circuit is configured to provide a capacitance value coupled to a capacitive sensing element coupled between the second printed circuit and the cover.