Abstract:
The present disclosure provides a 3D display assembly and a 3D display apparatus including the 3D display assembly. The 3D display assembly comprises a display panel, a 3D device and a spacing layer between the display panel and the 3D device, the display panel, the 3D device and the spacing layer overlapping with each other, wherein a first protrusion which extends beyond edges of the display panel and the 3D device is formed on at least one side of the spacing layer other than its side facing towards the display panel and its side facing towards the 3D device. The protrusion is used to support the entire display assembly to avoid misalignment between the display panel and the 3D device due to undue weight of the spacing layer.
Abstract:
A liquid crystal lens is comprises: a plurality of lens units (1), and a driver circuit electrically-connected with the plurality of lens units respectively; each lens unit comprises: a common electrode (11), a signal electrode opposite to the common electrode, and a liquid crystal layer provided between the common electrode and the signal electrode; each signal electrode comprises: one or two conductive wires (25) with one end being electrically-connected to the driver circuit, and a resistive block (22) provided on a second substrate and opposite to the common electrode. The resistive block is electrically-connected with the conductive wire(s). Where the driver circuit applies a drive voltage through the conductive wire(s) to the resistive block, the liquid crystal layer provided between the resistive block and the common electrode has a lens function. A stereoscopic display device comprising a same liquid crystal lens is also disclosed.
Abstract:
The present disclosure provides a single substrate display panel and fabricating method thereof and relates to a field of display. The single substrate display panel comprises: a parallel electric field substrate; and a display medium layer above the parallel electric field substrate. The display medium layer comprises liquid crystal molecules and a matrix, the matrix encapsulates the liquid crystal molecules so that the liquid crystal molecules form liquid crystal groups. The present disclosure also provides a fabricating method of the single substrate display panel. The present disclosure can achieve single substrate display so as to reduce the weight and thickness of the liquid crystal display panel and improve display quality.
Abstract:
An apparatus is disclosed for aligning a to-be-aligned display panel by self-alignment exposure a first and second groups of pixels are distributed at intervals on the to-be-aligned display panel which includes a first and second substrates, a first polarizer is provided on the first substrate, and a light alignment layer is provided on the first polarizer, wherein the apparatus includes a base platform for placing the to-be-aligned display panel; a display panel driving system connected to the to-be-aligned display panel; light irradiating toward the first substrate from the second substrate is linearly polarized light; a first exposure light source located to be closer to the second substrate; a second exposure light source located to be closer to the first substrate, light emitted from the second exposure light source is linearly polarized light, the polarization direction of which is orthogonal to the transmission axis direction of the first polarizer.
Abstract:
Disclosed is a liquid crystal lens module, comprising a liquid crystal lens; a first polarizing sheet located at a lower surface of the liquid crystal lens; and a second polarizing sheet located at an upper surface of the liquid crystal lens, wherein the polarizing axis of the first polarizing sheet is parallel with that of the second polarizing sheet. Because of different orientations and horizontal twisting and the like of the liquid crystal molecules within the liquid crystal lens, polarizing direction of some of the polarized light transmitting through the first polarizing sheet, after being converged by the liquid crystal lens, may be changed, while the second polarizing sheet may filter out the polarized light whose polarizing direction has been changed, thus the crosstalk of the liquid crystal lens during a 3D display, caused by the polarized light whose polarizing direction has been changed, is reduced.
Abstract:
There are an array substrate (32), and a dual view field display device and a manufacturing method thereof. The array substrate (32) comprises: a plurality of pixel units (43) defined by gate lines (41) and data lines (42) which intersect each other, each of the pixel units (43) including a pixel electrode (431) and a TFT circuit (432); the pixel electrode (43) of each of the pixel units (43) comprises at least two first pixel electrodes (4311) and at least two second pixel electrodes (4322), which are spaced from each other; the TFT circuit (432) of each of the pixel units (43) comprises a first sub-TFT circuit (4321) connected to the first pixel electrodes (4311) and a second sub-TFT circuit (4322) connected to the second pixel electrodes (4312). According to the above array substrate (32), a dual view barrier (31) can be produced within the display device, and the production costs can be reduced.
Abstract:
A display switching device, switching method, wearable display device and displaying method are disclosed. The display switching device includes a collector configured to operate in an enable mode for enabling a wearable display device to acquire entity information or a disable mode for disabling the wearable display device to acquire entity information, and a first controller configured to determine display switch of the wearable display device based on an operation mode of the collector. The wearable display device displays an AR image based on the entity information when the collector operates in the enable mode, and the wearable display device displays a VR image when the collector operates in the disable mode. The wearable display device includes the display switching device.
Abstract:
A dual view-field display and a fabricating method and a driving method thereof are provided. The dual view-field display includes a color filter substrate and an array substrate which are oppositely disposed. A slit grating is disposed on a side of the color filter substrate or the array substrate, and the color filter substrate includes a plurality of pixel units and a first black matrix surrounding each pixel unit. The slit grating includes light-shielding regions and light-transmitting regions, which are arranged at intervals in a matrix. The dual view-field display further comprises a light blocking portion configured for preventing light rays from leaking out of an upper-edge region and/or a lower-edge region of the light-transmitting region, which solves a problem that a viewing angle of a user of the dual view-field display is limited.
Abstract:
The present disclosure provides a blue light filtering film. The blue light filtering film has a non-planar structure such that, for light that is emitted at any incident angle from at least one side of the blue light film, a transmission light of the blue light filtering film involves small chromatic polarization. The blue light filtering film of the present disclosure is configured such that light lengths of the incident light in layers of the film do not change to great extent along with the angle θ and thus chromatic polarization is greatly alleviated, thereby not only achieving the effect of preventing damage caused by blue light but also eliminating chromatic polarization influence due to change of the light length for oblique incident light.
Abstract:
A display control device and a display system are provided. The display control method includes: detecting if a glare is presented on the surface of the semi-translucent polarizing film layer on the emergent light side of the display device; generating a driving signal for driving the display device to display a non-black image in a glare compensation region if a glare is detected to be presented on the surface of the semi-translucent polarizing film layer; in which the glare compensation region corresponds to a glare region in the semi-translucent polarizing film layer and the glare region is an region in which a glare is presented. The display control method of the present disclosure may reduce glare intensity when a glare is created on a mirror surface such as a rearview mirror.