An organic light-emitting diode (OLED) display device is provided, which includes an OLED display module, the OLED display module includes a plurality of sub-display sections, adjacent sub-display sections are dynamically connected to each other, and the sub-display sections can be expanded and integrated into a large-area display region, or dynamically accommodated to form at least one display section. By dynamically connecting multiple sub-display sections, a large-sized flexible display screen can be folded.

An OLED display device includes a display panel, a metal sheet, and a middle frame. The display panel is closely attached to one side of the metal sheet, and is defined with a foldable area and a non-foldable area. The metal sheet is disposed between the middle frame and the display panel. The middle frame is disposed on one side of the metal sheet facing away from the display panel. The foldable area of the middle frame is disposed with a hub piece, and the foldable area of the metal sheet is disposed with a magnet sheet, and the magnet sheet is disposed opposite to the hub piece.

There is provided a display apparatus, including: a display module; a first side frame and a second side frame on two sides of the display module in a width direction of the display module; a fixing structure on a non-light-emitting side of the display module and detachably connected to the first side frame and the second side frame, the fixing structure being configured to fix the display module; and an adapter, including a first connection part and a second connection part which are fixedly connected. At least one of a first side surface of the first side frame facing the display module or a second side surface of the second side frame facing the display module is detachably connected to the first connection part, and the second connection part is detachably connected to the fixing structure.

In some aspects, mobile devices with foldable and rollable displays can use a sensor to detect vertical acceleration with respect to the ground to determine if the mobile device has been dropped. If the sensor detects that the mobile device has been dropped the foldable device can fold or retract at least partially to afford protection from the fragile display from striking the ground. Even folding the display to an angle less the 180 degrees can afford some protection because the mobile device can strike edges of the mobile device instead of the display itself. In various embodiments, a rollable device can retract the display if predetermined acceleration limits are exceeded.

The present disclosure provides an overlapping spliceable display apparatus including a fixing assembly on a back of a display module, for fixing the display module to a support, the fixing assembly includes: an angle adjusting structure, which is connected to the display module, for adjusting an angle of a display surface of the display module in a first plane perpendicular to the display surface; and a position adjusting structure, which is connected to the angle adjusting structure and the support, for adjusting positions of the display module in a first direction, a second direction and a third direction, wherein any two of the first direction, the second direction and the third direction are perpendicular to each other, the first direction and the second direction are each parallel to the first plane, and the third direction is perpendicular to the first plane.

Method, product and blocking element of short wavelengths in LED-type light sources consisting of a substrate with a pigment distributed on its surface and, in that said pigment has an optical density such that it allows the selective absorption of short wavelengths between 380 nm and 500 nm in a range between 1 and 99%.

A stretchable display module and a stretchable display device are provided. The stretchable display module includes a display area and a non-display area. The display area includes a main display area and an edge display area. The stretchable display module includes a plurality of pixel islands and a plurality of connecting bridges. Each of the connecting bridges is connected to two adjacent pixel islands in the main display area. A plurality of opening groups is disposed between adjacent pixel islands in the edge display area. The opening groups include a plurality of openings arranged from the edge display area to the non-display area, and an area of the openings gradually decreases from the edge display area to the non-display area.

A system and method for removable or semi-permanent installation of a transparent organic lighting diode (TOLED) display with transparency control are disclosed. In one embodiment, the system includes a TOLED display that includes a TOLED panel with a front side and a back side, a cover glass or a touch sensor coupled to the front side of the TOLED panel, and a transparency control medium coupled to the back side of the TOLED panel to provide transparency control of the TOLED panel, wherein the transparency control medium is an electrochromic (EC) glass, a Suspended Particle Device (SPD) film, or a Polymer Dispersed Liquid Crystal (PDLC) film. The system further includes a versatile hinge assembly coupled to the TOLED display to enable the TOLED display to be used in a table top or desktop configuration or to be mounted to a support structure.

A system and method for removable or semi-permanent installation of a transparent organic lighting diode (TOLED) display with transparency control are disclosed. In one embodiment, the system includes a TOLED display that includes a TOLED panel with a front side and a back side, a cover glass or a touch sensor coupled to the front side of the TOLED panel, and a transparency control medium coupled to the back side of the TOLED panel to provide transparency control of the TOLED panel, wherein the transparency control medium is an electrochromic (EC) glass, a Suspended Particle Device (SPD) film, or a Polymer Dispersed Liquid Crystal (PDLC) film. The system further includes a versatile hinge assembly coupled to the TOLED display to enable the TOLED display to be used in a table top or desktop configuration or to be mounted to a support structure.

The present disclosure is drawn to displays for electronic devices. In one example, the display includes a light emitting layer with an organic light emitting element. A porous substrate can be attached to the light emitting layer, wherein the porous substrate is flexible and spreads heat generated by the light emitting layer. A cover layer can be attached to a surface of the porous substrate opposite the light emitting layer.