A shutter installation for an optical beam path includes: a shutter element for shutting the optical beam path; a drive for moving the shutter element in a controlled manner along a displacement path between two terminal positions; and at least one detent block having in each case a detent face against which the shutter element in one of the terminal positions is in each case moved, or able to be moved, respectively. Each detent block is configured so as to be displaceable such that the respective detent block, by the shutter element, is able to be displaced from the terminal position of the detent block by a distance along a displacement path.

A shutter installation for an optical beam path includes: a shutter element for shutting the optical beam path; a drive for moving the shutter element in a controlled manner along a displacement path between two terminal positions; and at least one detent block having in each case a detent face against which the shutter element in one of the terminal positions is in each case moved, or able to be moved, respectively. Each detent block is configured so as to be displaceable such that the respective detent block, by the shutter element, is able to be displaced from the terminal position of the detent block by a distance along a displacement path.

A shielding structure may be applied on an electronic device. The electronic device includes a camera and a TOF sensor having a transmitter and a receiver. The shielding structure includes a base, a shutter movably connected with the base, and a barrier movably connected with the base. At least a part of the barrier is disposed between the transmitter and the receiver, and the barrier may block a signal transmitted by the transmitter. An elastic member is fixed on the base. When the shutter is moved to abut the barrier, the barrier is pushed to press the elastic member, wherein the elastic member is deformed allowing at least a portion of the shutter disposing and abutting on the barrier, and the camera and the TOF sensor may be covered by the shutter at the same time.

A shielding structure may be applied on an electronic device. The electronic device includes a camera and a TOF sensor having a transmitter and a receiver. The shielding structure includes a base, a shutter movably connected with the base, and a barrier movably connected with the base. At least a part of the barrier is disposed between the transmitter and the receiver, and the barrier may block a signal transmitted by the transmitter. An elastic member is fixed on the base. When the shutter is moved to abut the barrier, the barrier is pushed to press the elastic member, wherein the elastic member is deformed allowing at least a portion of the shutter disposing and abutting on the barrier, and the camera and the TOF sensor may be covered by the shutter at the same time.

A shutter installation for an optical beam path includes: a shutter element for shutting the optical beam path; a drive for moving the shutter element in a controlled manner along a displacement path between two terminal positions; and at least one detent block having in each case a detent face against which the shutter element in one of the terminal positions is in each case moved, or able to be moved, respectively. Each detent block is configured so as to be displaceable such that the respective detent block, by the shutter element, is able to be displaced from the terminal position of the detent block by a distance along a displacement path.

A shutter installation for an optical beam path includes: a shutter element for shutting the optical beam path; a drive for moving the shutter element in a controlled manner along a displacement path between two terminal positions; and at least one detent block having in each case a detent face against which the shutter element in one of the terminal positions is in each case moved, or able to be moved, respectively. Each detent block is configured so as to be displaceable such that the respective detent block, by the shutter element, is able to be displaced from the terminal position of the detent block by a distance along a displacement path.

An information handling system has a camera disposed in a display device, and a privacy shutter configured to selectively rotate a polarizer to a first orientation or a second orientation. One of the first orientation or the second orientation is used to filter reflected polarized light.

An information handling system has a camera disposed in a display device, and a privacy shutter configured to selectively rotate a polarizer to a first orientation or a second orientation. One of the first orientation or the second orientation is used to filter reflected polarized light.

An information handling system has a camera disposed in a display device, and a privacy shutter configured to selectively rotate a polarizer to a first orientation or a second orientation. One of the first orientation or the second orientation is used to filter reflected polarized light.

An information handling system has a camera disposed in a display device, and a privacy shutter configured to selectively rotate a polarizer to a first orientation or a second orientation. One of the first orientation or the second orientation is used to filter reflected polarized light.