Abstract:
Provided is a support device. The support device is disposed on a back side of a bendable structure, the bendable structure including a bending portion, and a first non-bending portion and a second non-bending portion disposed on two sides of the bending portion, respectively; the support device including: a first support, configured to be connected to the first non-bending portion; a second support, configured to be connected to the second non-bending portion; a rotating shaft support, configured to be rotatably connected to the first support and the second support; and at least one support component, wherein each support component is connected to the rotating shaft support and configured to be connected to the bending portion.
Abstract:
The embodiments of the present invention disclose a display device comprising: a display panel for displaying images; and a support member for supporting the display panel, wherein the display panel and the support member are connected by a first connecting member therebetween. The embodiments of the present invention do not use an upper housing specifically for covering the top edges of a display device but use a support member to cover the lower end or side parts of the display device. Therefore the overall thickness of the display device is reduced, and the border width of the display device is also reduced, which makes the foreside of the display device appears as an integral structure, resulting in an esthetic appearance.
Abstract:
A foldable display apparatus includes a first shell (10), a second shell (20), a rotating shaft assembly, and a rotating shaft protection member (30); the rotating shaft assembly is located between the first shell (10) and the second shell (20) and connected to each of the first shell (10) and the second shell (20); the rotating shaft protection member (30) covers the rotating shaft assembly; the rotating shaft protection member (30) is made of a shape-memory alloy.
Abstract:
Provided are a display panel, a display device, and an electronic device. The display panel comprises a panel main body. The panel main body comprises a first portion, a second portion and a bendable third portion, and the third portion is located between the first portion and the second portion. A reinforcement layer is provided on a first face of the first portion to make a stiffness of the first portion higher than a stiffness of the third portion.
Abstract:
Embodiments of this disclosure provide a transparent display panel and a manufacturing method thereof, and a display device. The transparent display panel comprises a plurality of light-emitting regions and a plurality of transparent regions. The transparent display panel further comprises at least one light-guiding component disposed on a light-emitting side of the transparent display panel, wherein the at least one light-guiding component is configured to transmit a part of light emitted from the light-emitting regions to the transparent regions. In the transparent display panel, a light-guiding component is used to transmit the light emitted by the light-emitting subpixels in the light-emitting regions to the transparent regions, and a plurality of light-redirecting members formed on a surface of the light-guiding component are used to change the direction of light transmitted to the transparent regions and to emit the light from the light-emitting side of the transparent regions. As a result, display uniformity of the whole transparent display panel is improved, and a better display performance can be achieved.
Abstract:
A method for manufacturing the display device (70, 80) comprises: providing a first flexible substrate (101) comprising a first and second surfaces and a second flexible substrate (102) comprising a third and fourth surfaces; joining the second surface of the first flexible substrate with the third surface of the second flexible substrate by a connecting element (11) to form a laminated structure, wherein the first surface of the first flexible substrate (101) is a first outer surface of the laminated structure, and the fourth surface of the second flexible substrate (102) is a second outer surface of the laminated structure; forming a first flexible display element layer (10a) and a second flexible display element layer (10b) respectively on the first and second outer surfaces of the laminated structure; separating the first flexible substrate (101) from the second flexible substrate (102) of the laminated structure. The manufacturing method can achieve simultaneous processing of two substrates during part of the manufacturing technology, thus improving the production efficiency and reducing the production costs.
Abstract:
A flexible display device and an application method thereof are provided. The flexible display device includes a main body, a flexible display screen and a power device, the flexible display screen is configured to have a first end coupled to the main body, and a second end of the flexible display screen opposite to the first end is movable relative to the main body.
Abstract:
Embodiments of this disclosure provide a transparent display panel and a manufacturing method thereof, and a display device. The transparent display panel comprises a plurality of light-emitting regions and a plurality of transparent regions. The transparent display panel further comprises at least one light-guiding component disposed on a light-emitting side of the transparent display panel, wherein the at least one light-guiding component is configured to transmit a part of light emitted from the light-emitting regions to the transparent regions. In the transparent display panel, a light-guiding component is used to transmit the light emitted by the light-emitting subpixels in the light-emitting regions to the transparent regions, and a plurality of light-redirecting members formed on a surface of the light-guiding component are used to change the direction of light transmitted to the transparent regions and to emit the light from the light-emitting side of the transparent regions. As a result, display uniformity of the whole transparent display panel is improved, and a better display performance can be achieved.
Abstract:
A display module includes a flexible display panel including a display portion, a binding portion, and a bending portion; a first back film, a second back film fitted to the display portion and the binding portion, respectively, an auxiliary support layer located between the first and second back films, bonded with the back films through first and second adhesive layers, respectively, and provided with an elastic modulus greater than the first and second back films; orthographic projections of the back films are located in or overlaps with those of the display portion and the bind portion, respectively. Side edges of the first and second back films and the auxiliary support layer close to the bending portion are first, second and third side edges, respectively; a spacing between the third and first side edges and a spacing between the third and second side edges are 0-0.35 mm.
Abstract:
The present disclosure relates to the field of display technology, and proposes an adjustable frame and a foldable display device. The adjustable frame includes a central shaft part, a rotatable frame part, a movable frame part, and an adjustment mechanism. The rotatable frame part is rotatably connected to the central shaft part. The movable frame part is arranged on a side of the rotatable frame part away from the central shaft part. An end of the adjustment mechanism is connected to the central shaft part, and an opposite end of the adjustment mechanism is connected to the movable frame part. The adjusting mechanism is configured to adjust the spacing between the movable frame part and the rotatable frame part with rotation of the rotatable frame part and the movable frame part.