An information device has a camera cover unit that is fixed to an upper edge in the outside of a display device in a back cover. The camera cover unit includes a cover case that is fixed to the upper edge and a cover body that is housed in the cover case and is slidable between a first position and a second position. The cover body includes an end that is placed in the first position to cover the front of the camera and placed in the second position to avoid the front of the camera, and a leaf spring that is elastically deformable inward and outward of the frame of the upper edge.

The present disclosure provides an optical element driving mechanism, which includes a movable part, a fixed assembly, and a driving assembly. The movable part is configured to be connected to an optical element. The fixed assembly has a first opening, and the movable part is movable relative to the fixed assembly along a first axis. The driving assembly is configured to drive the movable part to move between a first position and a second position relative to the fixed assembly, so that the optical element selectively overlaps the first opening.

The present disclosure provides a camera assembly. The camera assembly includes a camera subassembly, a flash subassembly, a composite plate, and an annular light shielding member. The camera subassembly includes a camera. The flash subassembly includes a flash. The composite plate covers the camera subassembly and the flash subassembly. The composite plate is provided with a first hole enabling ambient lights to pass through the first hole and reach the camera subassembly. The composite plate is provided with a second hole enabling lights emitted from the flash to pass through the second hole and reach outside. The annular light shielding member is disposed on an internal wall of the first hole. The annular light shielding member is configured to prevent the lights emitted from the flash from reaching the camera.

A camera structure includes a support frame, a camera, a camera switch and a latch mechanism. The camera is supported by the support frame. The camera switch is spatially separated from the camera. The camera switch is configured to enable and disable the camera. The latch mechanism includes a slidable latch body and a cover and a connecting rod linking the latch body. The latch body is configured to move between a first position and a second position. When the latch body is at the first position, the camera is exposed from a first opening of the cover and the connecting rod interferes with the camera switch to enable the camera. When the latch body is at the second position, the cover shields the camera and the connecting rod moves away from the camera switch to enable the camera.

A camera module is provided. The camera module includes: a housing; a lens barrel disposed in the housing; a cover screen disposed over the lens barrel; a blade pivotably coupled to the cover screen and configured to have at least a portion in contact with a surface of the cover screen; and a rotation member disposed on the blade and configured to pivot the blade with respect to the cover screen.

The present disclosure provides an optical system, including a first optical mechanism. The first optical mechanism includes a first movable part, a fixed assembly, a first driving assembly and a guiding assembly. The first movable part includes an optical element. The first movable part is movable relative to the fixed assembly. The first driving assembly is configured to drive the first movable part to move relative to the fixed assembly. The landing assembly is configured to guide the first movable part to move relative to the fixed assembly. A friction force is generated between the first movable part and the guiding assembly, and the first movable part is temporarily positioned on the fixed assembly through the friction force.

The present disclosure provides an optical element driving mechanism, which includes a first movable part, a fixed assembly, a first driving assembly, a second movable part, a second driving assembly and a locking assembly. The first movable part is configured to connect an optical element. The first movable part is movable relative to the fixed assembly. The first driving assembly is configured to drive the first movable part to move relative to the fixed assembly, and the second driving assembly is configured to drive the second movable part to move relative to the first movable part and the fixed assembly. The locking assembly is configured to fix the first movable part at a first position relative to the fixed assembly.

A driving mechanism for an optical element is provided, including a fixed portion, a movable portion, a first driving assembly, and a positioning assembly. The movable portion is movably disposed on the fixed portion, and includes an optical element. The first driving assembly is at least partially disposed on the fixed portion, and drives the optical element to move in a first direction. The positioning assembly is disposed on the fixed portion or the movable portion, wherein the positioning assembly limits the movable part to a first terminal position or a second terminal position relative to the fixed portion.

An electronic device includes a first housing, a second housing, an accommodating space and a lens module. The second housing is connected to the first housing and includes an arc edge. The accommodating space is formed between the first housing and the second housing and includes an arc area having a position corresponding to the arc edge. The lens module is located in the accommodating space, matches the shape of the accommodating space, and includes a bottom case, a side case, a top case, an internal space and a photography unit. The side case is connected to the bottom case and includes an inclined surface area which is provided in the arc area. The top case is connected to the side case and includes a top opening.

In example implementations, an apparatus is provided. The apparatus includes a light source, a light guide coupled to the light source, and a camera having a privacy lens coupled to the light guide. The light source is to emit light. The privacy lens receives light from the light source via the light guide to activate the privacy lens. A housing of an electronic device is to enclose the light source, the light guide, and the camera having the privacy lens.