A lens module including a base, a lens, a front cover, at least a shielding plate and a gasket is provided. The lens is disposed on the base. The front cover is disposed above the base and the lens, and the base and the front cover may rotate relatively. The shielding plate is pivoted on the base and has a first guide portion. The gasket is fixed on the front cover, the shielding plate is located between the gasket and the base. The gasket has a through hole corresponding to the lens and a second guide portion coupled to the first guide portion. When the base and the front cover rotate relatively, the first guide portion is guided by the second guide portion, the shielding plate can limitedly swing to move to the through hole to cover the lens or move away from the through hole to expose the lens.

A technique prevents leakage of private images and/or images unintended by a user from an imaging device connected to a network, without a troublesome manual operation of opening and closing a cover. A blade operating device includes a blade that opens and closes an optical path of an imaging device connectable to a network, a blade driver that opens and closes the blade, and a controller that controls the blade driver. The controller controls the blade driver to close the blade when the imaging device is turned off.

A technique prevents leakage of private images and/or images unintended by a user from an imaging device connected to a network, without a troublesome manual operation of opening and closing a cover. A blade operating device includes a blade that opens and closes an optical path of an imaging device connectable to a network, a blade driver that opens and closes the blade, and a controller that controls the blade driver. The controller controls the blade driver to close the blade when the imaging device is turned off.

This patent document provides optical shutter devices based on electromagnetically activated shutters using a printed circuit board (“PCB”) structure to provide a coil that generates a magnetic field to move a permanent magnet in and out of an optical aperture integrated as part of the PCB structure to open and close the passage of light through the optical aperture.

An image pickup apparatus configured to capture an image in accordance with a capturing instruction from a user includes a cam member having a first phase configured to hold the second drive member while the second biasing member is charged, and a second phase configured to enable the second drive member to be driven, a driver configured to drive the cam member, and a controller configured to drive the driver in a first direction after first imaging, until the cam member passes through the first phase and reaches the second phase, and to drive the driver in a second direction opposite to the first direction when an imaging instruction is released from the first imaging to second imaging next to the first imaging, until the cam member reaches the first phase from the second phase.

An image pickup apparatus configured to capture an image in accordance with a capturing instruction from a user includes a cam member having a first phase configured to hold the second drive member while the second biasing member is charged, and a second phase configured to enable the second drive member to be driven, a driver configured to drive the cam member, and a controller configured to drive the driver in a first direction after first imaging, until the cam member passes through the first phase and reaches the second phase, and to drive the driver in a second direction opposite to the first direction when an imaging instruction is released from the first imaging to second imaging next to the first imaging, until the cam member reaches the first phase from the second phase.

An image pickup apparatus configured to capture an image in accordance with a capturing instruction from a user includes a cam member having a first phase configured to hold the second drive member while the second biasing member is charged, and a second phase configured to enable the second drive member to be driven, a driver configured to drive the cam member, and a controller configured to drive the driver in a first direction after first imaging, until the cam member passes through the first phase and reaches the second phase, and to drive the driver in a second direction opposite to the first direction when an imaging instruction is released from the first imaging to second imaging next to the first imaging, until the cam member reaches the first phase from the second phase.

An image pickup apparatus configured to capture an image in accordance with a capturing instruction from a user includes a cam member having a first phase configured to hold the second drive member while the second biasing member is charged, and a second phase configured to enable the second drive member to be driven, a driver configured to drive the cam member, and a controller configured to drive the driver in a first direction after first imaging, until the cam member passes through the first phase and reaches the second phase, and to drive the driver in a second direction opposite to the first direction when an imaging instruction is released from the first imaging to second imaging next to the first imaging, until the cam member reaches the first phase from the second phase.

An imaging blade driving device includes a lens frame holding lenses, and a blade driver mounted on the lens frame including a front frame holding a front lens, a rear frame holding a rear lens and including a step with a larger diameter than the front frame, a pair of slits in a side surface of the front frame along the step, and a connector connecting the front and rear frames outside the slits. The blade driver includes a frame body, and an insert protruding from the frame body and placeable into the slits. The insert has an aperture aligned with an optical axis of the lenses and accommodating a blade. The frame body has a contact surface in contact with a surface of the rear frame perpendicular to an optical axis direction.

A technique prevents leakage of private images and/or images unintended by a user from an imaging device connected to a network, without a troublesome manual operation of opening and closing a cover. A blade operating device includes a blade that opens and closes an optical path of an imaging device connectable to a network, a blade driver that opens and closes the blade, and a controller that controls the blade driver. The controller controls the blade driver to close the blade when the imaging device is turned off.