A display device includes a front frame, a display module installed in the front frame, and a rear cover connected with the front frame. The front frame includes a plurality of securing rods connected one by one. Each securing rod defines a receiving groove and a plurality of grabs. The display module includes a plurality of limiting plates. The rear cover includes a plurality of latch blocks. The limiting plate is received in the receiving groove. The latch block is inserted into the grab.

The disclosure provides a wall mounting apparatus comprising: a base provided with a plurality of positioning holes; one or more wall mounting pieces, each of said wall mounting pieces being detachably connected to one of said plurality of positioning holes; one or more wall racks, each of said wall racks comprising at least two through holes, said one or more wall racks being configured to be hanged on the base by means of a corresponding connection of said through hole with said wall mounting piece, each of the wall racks further comprising means for securing the display. The disclosure further provides a display device comprising such wall mounting apparatus.

The disclosure provides a wall mounting apparatus comprising: a base provided with a plurality of positioning holes; one or more wall mounting pieces, each of said wall mounting pieces being detachably connected to one of said plurality of positioning holes; one or more wall racks, each of said wall racks comprising at least two through holes, said one or more wall racks being configured to be hanged on the base by means of a corresponding connection of said through hole with said wall mounting piece, each of the wall racks further comprising means for securing the display. The disclosure further provides a display device comprising such wall mounting apparatus.

Disclosed is a display device. The display device of the present disclosure includes a flexible display panel, a source printed circuit board (S-PCB) located adjacent to a lower side of the flexible display panel and electrically coupled to the flexible display panel, a roller comprising a seating portion accommodating the S-PCB, wherein the seating portion is formed by removing a part of an outer circumferential surface of the roller, wherein the flexible display panel is wound around or unwound from the roller, and a cover extending in a longitudinal direction of the roller to cover the S-PCB.

A robotic mount is configured to move an entertainment element such as a video display, a video projector, a video projector screen or a camera. The robotic mount is moveable in multiple degrees of freedom, whereby the associated entertainment element is moveable in three-dimensional space. In one embodiment, a system of entertainment elements are made to move and operate in synchronicity with each other, such as to move a single camera via multiple robotic mounts to one or more positions or along one or more paths.

A component rack for a display that includes: a frame, that includes: a base, a first wall, and a second wall arranged to form a U-shaped cavity; and a plurality of component modules located within the cavity and adapted to be coupled to the frame, wherein the frame and an inboard side of each of the plurality of component modules define an electronics chamber region, wherein the frame is adapted to carry modular electronic devices.

A component rack for a display that includes: a frame, that includes: a base, a first wall, and a second wall arranged to form a U-shaped cavity; and a plurality of component modules located within the cavity and adapted to be coupled to the frame, wherein the frame and an inboard side of each of the plurality of component modules define an electronics chamber region, wherein the frame is adapted to carry modular electronic devices.

A wall mount includes a wall attachment assembly with spaced apart top and bottom rails. A pair of display mount assemblies hang from the wall attachment assembly and attach to a television or other electronic display such as a computer monitor. The display mount brackets include an engaging assembly, a display mount member, a scissors assembly, and a carrier assembly. The engaging assembly has hooks and a swivel guide engaged with the top rail of the wall attachment assembly, and a latch assembly engaged with the bottom rail of the wall attachment assembly. The swivel guide and a contact portion of the latch assembly enable the display mount assemblies to swivel or pivot about a vertical axis relative to the wall attachment assembly. This enables an attached television or monitor to be laterally swiveled relative to the wall.

Described herein are manufacturing methods and camera system designs that provide precise alignment between multiple camera modules mounted on a common chassis. The chassis includes a plurality of mounting regions, with each mounting region including one or more mounting posts. Each camera module includes one or more guiding holes into which the mounting posts are inserted. By precisely positioning the guiding holes and the mounting posts, the alignment of the camera modules with the chassis and the other camera modules may be controlled with high precision.

The servomechanism comprises a gear motor, a one-way bearing dynamically connected to the gear motor, an electromagnetic clutch, a speed reducer, and a plane four-bar linkage mechanism which drives the LCD on the shafts to rotate. The electromagnetic clutch is also connected to a spring motor which dynamically connects to the speed reducer. In the deploying and retracing direction of the LCD, a stowed position transducer and a retracted position transducer are disposed to monitor the LCD position changes and an angle sensor to monitor the LCD deploying speed changes. The stowed position transducer, retracted position transducer, and angle sensor are electrically connected to a controller. The controller collects and processes signals generated by the stowed position transducer, retracted position transducer, and angle sensor and controls LCD retracting in the event of power outage or unexpected exceptions.