An electronic apparatus includes: a body; a rotational movement member that is rotationally movable with respect to the body in a first rotational movement direction about a first rotational axis and a second rotational movement direction about a second rotational axis; a magnetic field generator; a first magnetic field detection element that detects a magnetic field generated from the magnetic field generator; a second magnetic field detection element that detects the magnetic field generated from the magnetic field generator; and a processor that determines which one of first, second and third states a rotational movement state of the rotational movement member is based on detection states of the magnetic field detected by the first magnetic field detection element and the second magnetic field detection element, and a detection surface of the second magnetic field detection element is parallel to the imaginary plane in the state defined herein.

The imaging apparatus comprises a retractable structure with active and inactive positions. An outermost lens group and a lens group actuator are movable along an optical axis. In the inactive position the lens group and the lens group actuator reside close to an image sensor. The lens group actuator is positioned to the same level as the image sensor. In the active position the outermost lens group and the lens group actuator are further from the image sensor along the optical axis. The retractable structure may protrude from the device, covering the imaging apparatus. In one example the structure is reversed, the image sensor protrudes from the device while the outermost lens group is fixed to the device body.

The imaging apparatus comprises a retractable structure with active and inactive positions. An outermost lens group and a lens group actuator are movable along an optical axis. In the inactive position the lens group and the lens group actuator reside close to an image sensor. The lens group actuator is positioned to the same level as the image sensor. In the active position the outermost lens group and the lens group actuator are further from the image sensor along the optical axis. The retractable structure may protrude from the device, covering the imaging apparatus. In one example the structure is reversed, the image sensor protrudes from the device while the outermost lens group is fixed to the device body.

In a camera apparatus, when an installation body is stored and a restriction mechanism of a retractor restricts the rotation of the installation body, the installation body is pressed, a knob of a return mechanism is pressed, and the rotation restriction of an operating body by the restriction mechanism is released by the return mechanism. Therefore, the installation body can be deployed.

The present invention relates to a container, which provides various functions, comprising: a body having an article accommodation portion; a cover for opening and closing the article accommodation portion; and a camera mounting part disposed on the body or the cover, wherein a recessed portion for exposing a camera disposed on the camera mounting part can be formed on the cover.

A device described here includes a housing and a multi-aperture imaging device. The multi-aperture imaging device includes an array of optical channels arranged next to one another and a beam-deflector for deflecting an optical path of the optical channels. In a first operating state of the device, the housing encloses a housing volume. In the first operating state of the device, the beam-deflector includes a first position within the housing volume. In a second operating state of the device, the beam-deflector includes a second position where the beam-deflector is arranged at least partly outside the housing volume.

A device described here includes a housing and a multi-aperture imaging device. The multi-aperture imaging device includes an array of optical channels arranged next to one another and a beam-deflector for deflecting an optical path of the optical channels. In a first operating state of the device, the housing encloses a housing volume. In the first operating state of the device, the beam-deflector includes a first position within the housing volume. In a second operating state of the device, the beam-deflector includes a second position where the beam-deflector is arranged at least partly outside the housing volume.

A camera is less likely to have lower light-shielding performance. The camera includes a frame accommodated in a housing having a front surface with an opening, a lens barrel accommodating a lens, a rear light shield that blocks light outside the lens barrel, and a pressure plate pressing the rear light shield against the frame and securing the rear light shield to the frame. A base in a stationary cylinder has an inner surface being rectangular, an arc surface extending outward in an arc along a cylindrical wall, and a contact surface in contact with a front surface of the pressure plate. The pressure plate includes a pressing portion being a rectangular frame extending along the inner surface of the base in the stationary cylinder and in contact with a rear connector in the rear light shield, and an extension extending outward from the pressing portion and facing the arc surface of the base in the stationary cylinder.

A camera is less likely to have lower light-shielding performance. The camera includes a frame accommodated in a housing having a front surface with an opening, a lens barrel accommodating a lens, a rear light shield that blocks light outside the lens barrel, and a pressure plate pressing the rear light shield against the frame and securing the rear light shield to the frame. A base in a stationary cylinder has an inner surface being rectangular, an arc surface extending outward in an arc along a cylindrical wall, and a contact surface in contact with a front surface of the pressure plate. The pressure plate includes a pressing portion being a rectangular frame extending along the inner surface of the base in the stationary cylinder and in contact with a rear connector in the rear light shield, and an extension extending outward from the pressing portion and facing the arc surface of the base in the stationary cylinder.

A camera has a more integrated appearance and higher dustproof and light-shielding performance. A camera includes a frame accommodated in a housing having a front surface with an opening, and a lens barrel accommodating at least one lens. The lens barrel includes a stationary cylinder including a cylindrical wall extending in X-direction from a base, and a drive cylinder that causes an extendable unit located radially inward from the cylindrical wall of the stationary cylinder and extendable in X-direction through the opening to extend and retract. The drive cylinder includes a cylindrical portion rotatable between the cylindrical wall of the stationary cylinder and an inner circumferential edge of the opening in a front cover. The lens barrel further includes a cover cylinder covering the inner circumferential edge of the opening in the front cover and the cylindrical portion of the drive cylinder and rotatable relative to the stationary cylinder together with the drive cylinder.