An audio-visual system may include a housing comprising an open upper end and a storage space, an audio-visual device installed inside the housing and exposable through the open upper end, and a lifting device configured to expose or store the audio-visual device inside the housing through the open upper end. The audio-visual device may include a display, a speaker, and a processor configured to control the audio-visual system to operate in a first mode for outputting media art content while the display is stored in the housing according to a first event, operate in a second mode for outputting audio content through the speaker while part of the display is exposed through the open upper end according to a second event, and operate in a third mode for outputting a visual content while the entire display is exposed through the open upper end according to a third event.

An audio-visual system may include a housing comprising an open upper end and a storage space, an audio-visual device installed inside the housing and exposable through the open upper end, and a lifting device configured to expose or store the audio-visual device inside the housing through the open upper end. The audio-visual device may include a display, a speaker, and a processor configured to control the audio-visual system to operate in a first mode for outputting media art content while the display is stored in the housing according to a first event, operate in a second mode for outputting audio content through the speaker while part of the display is exposed through the open upper end according to a second event, and operate in a third mode for outputting a visual content while the entire display is exposed through the open upper end according to a third event.

A monitor support assembly includes a base designed to rest on an ambient floor surface. An upright frame structure is spaced forward to the rear of the base and extends vertically upward from the base. The frame structure includes first and second vertical members and a top frame member that extends horizontally between the vertical members, A shroud assembly is mounted to the upright frame structure and includes a first central wall member and first and second additional wall members extending from the first and second lateral edges in the same direction. The first central wall member and the additional wall members form a receiving space. A mounting plate mountable to the rear surface of a displays screen is releasably supported by the upright frame structure within the receiving space. A depth dimension of the receiving space is sufficient to accommodate a display screen mounted via the mounting plate.

A monitor support assembly includes a base designed to rest on an ambient floor surface. An upright frame structure is spaced forward to the rear of the base and extends vertically upward from the base. The frame structure includes first and second vertical members and a top frame member that extends horizontally between the vertical members, A shroud assembly is mounted to the upright frame structure and includes a first central wall member and first and second additional wall members extending from the first and second lateral edges in the same direction. The first central wall member and the additional wall members form a receiving space. A mounting plate mountable to the rear surface of a displays screen is releasably supported by the upright frame structure within the receiving space. A depth dimension of the receiving space is sufficient to accommodate a display screen mounted via the mounting plate.

A virtual 3D display for a motor vehicle includes a substrate and a flexible display positioned on the substrate. The flexible display is rollable and bendable within a cabin of the motor vehicle.

A combination mirror and media display device assembly includes a mirror platform. The mirror platform has a media display device viewing area and a reflective area. A reflectivity of the media display device viewing area is less than a reflectivity of the reflective area. The assembly includes a mounting bracket. The mounting bracket is coupled to the mirror platform. The mounting bracket is open on one side and the opening in the mounting bracket is configured to accept a media display device. A method to place a media display device within a mirror platform assembly includes inserting a media display device through an opening in a mounting bracket, wherein a mirror platform is attached to the mounting bracket and the mirror platform has a media display device viewing area. The method includes aligning the media display device with the media display device viewing area during the inserting and coupling the media display device to the mounting bracket, wherein the media display device is removably coupled to the mounting bracket.

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.

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.

An image display apparatus includes a display panel, a driver configured to drive the display panel, a flexible printed circuit board connecting the driver to the display panel; a buffer under the display panel and overlapping with the display panel and with a region of the flexible printed circuit board that is adjacent to a first side of the display panel in a first direction, and a first adhesive under the buffer and overlapping with a region of a first side of the buffer in the first direction.

An image display apparatus includes a display panel, a driver configured to drive the display panel, a flexible printed circuit board connecting the driver to the display panel; a buffer under the display panel and overlapping with the display panel and with a region of the flexible printed circuit board that is adjacent to a first side of the display panel in a first direction, and a first adhesive under the buffer and overlapping with a region of a first side of the buffer in the first direction.