An electronic device allows the user to notice that no image capturing is being performed and increases the user comfort as well as includes a small open-close device incorporated in a limited space. A camera module is covered by a blade. This allows the user to notice that no image capturing is being performed and increases the user comfort. A base is attached to a first surface of a module board, and a cover has a first end in the longitudinal direction attached to the base and a second end in the longitudinal direction supported by the first surface of the module board. The base may not extend to the second end of the cover in the longitudinal direction and can have a shorter length (miniaturized), further miniaturizing a blade open-close device.

A webcam, a privacy shutter mechanism, and method of electrically activating the privacy mechanism are described. The privacy shutter is part of a webcam and includes privacy shutter mechanism chassis; an electrically activated coil mechanism mounted on privacy shutter mechanism chassis; a locking mechanism mounted on the electrically activated coil mechanism; a shutter plane with a shutter that locks with the locking mechanism, wherein the electrically activated coil mechanism moves the shutter plane in place to open or close the shutter; a fixture having a shutter opening attached to the privacy shutter mechanism chassis; and a shutter locking mechanism that is electrically activated to lock or unlock when the shutter is close or open.

An aperture unit (20) comprises an aperture cover (22), an aperture base (27), and a light shielding portion (24). The aperture cover (22) has an opening (22a) through which light passes. The aperture base (27) is disposed on the downstream side of the aperture cover (22) in the light incidence direction, and has an opening (27a) through which light passes. The light shielding portion (24) is disposed between the aperture cover (22) and the aperture base (27), and has an opening (24d) through which the light that passed through the opening (22a) passes, and a plurality of opaque aperture stop blades (24a, 24b, 24c) that are formed from a polyimide resin and vary the size of the opening (24d).

An image capturing device including a casing, an image capturing module disposed in the casing, a positioning member slidably disposed in the casing, a memory alloy spring disposed in the casing, a restoring spring disposed in the casing, a shielding member corresponding to the image capturing module and slidably disposed in the casing, and a switch slidably disposed on the casing and connected to the shielding member is provided. Two ends of the memory alloy spring are respectively connected to the positioning member and the casing. Two ends of the restoring spring are respectively connected to the positioning member and the casing, and the memory alloy spring and the restoring spring are respectively located at two opposite sides of the positioning member. The shielding member is connected to the positioning member and is configured to block or unblock a light path of the image capturing device.

The present disclosure refers to a base assembly of an exterior rear view device. The base assembly is configured to be mounted to a vehicle in a way that moveably supports a head assembly of the exterior rearview device. The base assembly comprises: a camera with a lens, a cleaning system with a nozzle for dispensing cleaning fluid onto the lens, a base frame, a base cover that comprises a plurality of cover pieces, and a camera cradle. The cover pieces provide a first opening for the lens and a second opening for the nozzle. The camera cradle is mounted to the base frame for holding both the camera and the nozzle.

An optical element having stray light suppression structure includes: a ring body including a stray light suppression structure disposed on the inner peripheral surface thereof; the stray light suppression structure includes a plurality of stray light suppression protrusions and a plurality of stray light suppression grooves, each of the stray light suppression protrusions is a continuous structure that presents an S-shaped curve, the stray light suppression protrusions protrude from the inner peripheral surface at a same height, each of the stray light suppression protrusions includes a first stray light suppression end, a second stray light suppression end, and a connecting line passing through the first stray light suppression end and the second stray light suppression end. The connecting line does not coincide or intersect with the axis of the ring body.

An optical element having stray light suppression structure includes: a ring body including a stray light suppression structure disposed on the inner peripheral surface thereof; the stray light suppression structure includes a plurality of stray light suppression protrusions and a plurality of stray light suppression grooves, each of the stray light suppression protrusions is a continuous structure that presents an S-shaped curve, the stray light suppression protrusions protrude from the inner peripheral surface at a same height, each of the stray light suppression protrusions includes a first stray light suppression end, a second stray light suppression end, and a connecting line passing through the first stray light suppression end and the second stray light suppression end. The connecting line does not coincide or intersect with the axis of the ring body.

A slide mechanism includes: a slider that is movable between a first position and a second position along an edge wall; a shield cover on the slider, the shield cover being located to cover the front of the camera when the slider is in the first position and located to be away from the front of the camera when the slider is in the second position; a movable magnet at the slider; and a fixed magnet at the chassis. The movable magnet and the fixed magnet are disposed to face each other so that when the slider is in the first position and the second position, the movable magnet and the fixed magnet attract to each other, and when the slider is located between the first position and the second position, the movable magnet and the fixed magnet repel each other.

A camera is configured for use with a removable camera lens cover, which can be secured to or removed from the camera by a user without the use of a tool set. The mechanism which allows the lens cover to be secured to and removed from the camera includes a set of wires embedded into the lens cover and a set of wedges protruding from the lens wall of the camera. To secure the lens cover to the camera, the lens cover is placed onto the front of the camera and rotated until the wires align with corresponding wedges, securing the wires underneath the tapered surface of the wedges. To remove the lens cover from the camera, a force is applied outward and normal to the lens cover, causing the wires to flex outward and enabling the rotation and removal of the lens cover from the camera.

The various implementations described herein include a camera device that includes: (1) a housing; (2) an image sensor positioned within the housing and having a field of view corresponding to a scene in the smart home environment; (3) at least one infrared (IR) illuminator positioned with the housing, the IR illuminator configured to selectively illuminate the scene; and (4) a front face that is at least partially concave-shaped and coupled to the housing, the front face positioned in front of the image sensor such that light from the scene passes through the front face prior to entering the image sensor, and the front face positioned in front of the IR illuminator such that IR light from the IR illuminator is directed through the front face.