A lens cover includes a housing defining an optical aperture. A pair of opposed lens cover blades are each pivotally mounted to the housing at a common pivot point. A biasing member biases the blades apart from one another about the pivot point to uncover the optical aperture in an open position. A pair of magnetic members is included, each magnetic member being mounted to a respective one of the blades to bias the blades together to cover the optical aperture in a closed position.

Embodiments of this application provide an electronic device and a picture processing method. The electronic device includes a rear cover, a front-facing camera, a rear-facing camera, and a light reflective apparatus. The light reflective apparatus may be switched between a usage state and an idle state. The picture processing method includes: controlling the light reflective apparatus to switch from the idle state to the usage state, when an operation that a user enables the front-facing camera is detected, where the usage state of the light reflective apparatus indicates that the light reflective apparatus is located on an object-facing side of the rear-facing camera and is configured to reflect a picture in a direction in which the front-facing camera is located, so that the rear-facing camera captures the picture reflected by the light reflective apparatus; separately obtaining a picture captured by the front-facing camera and a picture captured by the rear-facing camera; processing the picture captured by the rear-facing camera; and fusing the picture captured by the front-facing camera and a picture obtained by processing the picture captured by the rear-facing camera. In this application, a field of view of a picture taken by the front-facing camera can be increased with relatively low costs.

A blade open-close device mountable on a module board including a lens unit includes a base including peripheral walls adjacent to the lens unit, a cover plate covering at least part of the base, and a blade movable in a blade chamber between the cover plate and a surface of the peripheral walls. A partition and the cover plate each have an opening aligned with an optical axis of the lens unit. The blade open-close device includes an actuator that moves the blade between a closing position to cover the openings and an opening position to uncover the openings. A distance from the surface of the peripheral walls to a surface of the cover plate opposite to the base along the optical axis is one fifth or less of a total of a thickness of the module board and a height of the lens unit measured along the optical axis.

A shutter assembly includes a first shutter blade having a first toothed arm extending therefrom and a first light transmitting aperture therein, and a second shutter blade positioned adjacent and parallel to the first shutter blade. The second shutter blade has a second toothed arm extending therefrom and a second light transmitting aperture therein. The first and second shutter blades are supported to allow parallel linear motion. A motor gear is disposed between, and meshed with, the first and second toothed arms such that rotation of the gear causes the first and second shutter blades to move linearly in opposite directions between an open position in which the first and second light transmitting apertures are in an overlapping relationship with respect to one another, and a closed position in which the first and second light transmitting apertures are in a non-overlapping relationship with respect to one another.

This application describes techniques for controlling an apparatus that includes a camera both locally and remotely. The camera apparatuses described herein may include obfuscation components that function to selectively obfuscate a view of the camera at the request of a user. For instance, one particular camera apparatus may include a lens cap and an actuator to move the lens cap from a position in which the lens cap at least partially obfuscates the view of the camera to a position in which the lens cap does not (and vice versa). The camera apparatus may include a physical control to allow a user to locally request to open or close the lens cap, and may also include a network interface to communicate with a user device, thus allowing a user to remotely request to open or close the lens cap.

Examples disclosed herein provide a computing device. As an example, the computing device includes a camera comprising a lens, and a housing comprising an opening extending through the housing, wherein the opening is to accommodate the lens. The housing further includes a shutter to selectively obscure the opening, and a mechanical trigger, upon receiving an electrical signal, to move the shutter to obscure the opening. Upon the mechanical trigger engaging the shutter to obscure the opening, the housing further includes a mechanical feature to block the mechanical trigger from moving the shutter to expose the opening

A switch member is provided. The switch member includes a mounting board, a moveable plate, a first blade and a second blade. The mounting board includes a mounting board opening. The moveable plate is slidably connected to the mounting board, wherein the moveable plate includes a moveable plate opening, and the moveable plate further includes a first moveable plate abutting portion and a second moveable plate abutting portion. The first blade includes a first blade pivoting portion, a first blade abutting portion and a first blade covering portion, wherein the first blade pivoting portion is located between the first blade abutting portion and the first blade covering portion. The second blade includes a second blade pivoting portion, a second blade abutting portion and a second blade covering portion, wherein the second blade abutting portion is located between the second blade pivoting portion and the second blade covering portion.

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.

A housing system for an image capture device includes a housing and a removable lens assembly. The housing is formed of an elastomeric material and defines a cavity for receiving the image capture device therein. The removable lens assembly includes a protective lens and is removably coupleable to the housing to protect a lens of the image capture device.

An image capturing module includes a casing, a lens component arranged in the casing, and a lens shade disposed directly facing the lens component and having a thin plate shape. The lens shade includes a first bottom surface close to the lens, a second bottom surface disposed opposite to the first bottom surface and away from the lens, a snap portion configured to snap the lens shade with the casing, and a light incoming pathway running through the lens shade to allow external light to enter the lens. The light incoming pathway includes a first light inlet formed at the first bottom surface and a second light inlet formed at the second bottom surface. A size of the second light inlet is greater than a size of the first light inlet.