An imaging module includes a display element, a prism and an image displacement device. The display element includes an active display surface. The prism includes an optical surface. The image displacement device is disposed between the display element and the prism. The image displacement device includes an optical element, a carrier, a base and at least one actuator. The optical element is disposed on the carrier. The at least one actuator drives the optical element on the carrier to swing relative to the base.

An imaging module includes a display element, a prism and an image displacement device. The display element includes an active display surface. The prism includes an optical surface. The image displacement device is disposed between the display element and the prism. The image displacement device includes an optical element, a carrier, a base and at least one actuator. The optical element is disposed on the carrier. The at least one actuator drives the optical element on the carrier to swing relative to the base.

An illustrative example camera device includes a substrate and a sensor supported on the substrate. The sensor is configured to gather image information. A lens is situated near the sensor and an electroactive polymer selectively causes relative movement between the sensor and the lens.

The present disclosure provides an anti-shake mechanism of a curved camera device. The camera device is an optical system including a reflecting member having a reflecting surface that bends an optical axis and is configured to perform a hand-shake correction by rotating the reflecting member. The reflecting member is disposed between a camera lens group and a camera element in such a manner that the reflecting member rotates about rotation axes, one of the rotation axes being perpendicular to a plane defined by an optical axis of the camera lens group and an optical axis reflected by the reflecting member, and the other one of the rotation axes being parallel with the reflected optical axis or parallel with the optical axis of the camera lens group.

In order to provide a tilt control device capable of performing tilt control optimal at a high speed by controlling both a focus position and a tilt angle even when a scene changes such as in a case in which a subject changes, there is provided an imaging apparatus including a tilt control unit that performs tilt control by driving at least one of an imaging device and an imaging optical system, a focus lens driving unit that drives a focus lens, and a control unit that has a plurality of control modes for performing focus correction using at least one of the tilt control unit and the focus lens driving unit and selects one of the plurality of control modes in accordance with the number of subject areas displayed on an image screen.

An imaging-element inclination adjustment mechanism including at least one adjustment member attached to an imaging-element unit in a manner that a position of the adjustment member is adjustable relative to the imaging-element unit, the imaging-element unit holding an imaging element; at least one support member secured to a housing; and at least one securing member engaged with the adjustment member and attached to the support member. The position of the adjustment member is adjusted relative to the imaging-element unit to adjust a position of the imaging-element unit relative to the support member. The support member supports the imaging-element unit via the adjustment member at each of at least three positions.

Provided are an imaging device, a finder device, a method of controlling an imaging device, a method of controlling a finder device, a control program for an imaging device, and a control program for a finder device capable of preventing burn-in of a display device that displays display information on an optical image of a subject observed through an optical finder in a superimposed manner, and preventing a relative positional relationship between a position of the display information displayed on the display device and a range, in which imaging is actually performed, from being changed.

Display information, such as a visual-field frame, displayed at a prescribed position of an OLED display (218) is moved on the OLED display (218), and burn-in of the OLED display (218) is prevented. An imaging range of an image sensor (201) is moved corresponding to movement of the display information, and a relative positional relationship between a position of the display information displayed on the optical image of the subject observed through the optical finder in a superimposed manner and a range to be actually imaged is prevented from being changed.

An adapter (10) for pivoting a lens relative to an image sensor in a camera has lens-side and housing-side supporting rings (20, 30) that slide relative to one another by cylindrically curved sliding surfaces (22, 32) facing one another. A virtual cylinder axis (Z) of the sliding surfaces (22, 32) lies in a plane of the image sensor. A transmission lever (50) with first and second lever arms (51,52) is mounted on the lens-side supporting ring (20) and pivots about an axis (H) parallel to the virtual cylinder axis (Z). The first lever arm (51) extends in a circumferential direction on the lens side of the lever axis (H) and is coupled to an adjusting ring (42) mounted rotatably on the lens-side supporting ring (20). The second lever arm (52) extends axially of the housing side and is supported on an anchor (70) fixed to the housing-side supporting ring (30).

An adapter (10) for pivoting a lens relative to an image sensor in a camera has lens-side and housing-side supporting rings (20, 30) that slide relative to one another by cylindrically curved sliding surfaces (22, 32) facing one another. A virtual cylinder axis (Z) of the sliding surfaces (22, 32) lies in a plane of the image sensor. A transmission lever (50) with first and second lever arms (51,52) is mounted on the lens-side supporting ring (20) and pivots about an axis (H) parallel to the virtual cylinder axis (Z). The first lever arm (51) extends in a circumferential direction on the lens side of the lever axis (H) and is coupled to an adjusting ring (42) mounted rotatably on the lens-side supporting ring (20). The second lever arm (52) extends axially of the housing side and is supported on an anchor (70) fixed to the housing-side supporting ring (30).

An imaging module includes a display element, a prism and an image displacement device. The display element includes an active display surface. The prism includes an optical surface. The image displacement device is disposed between the display element and the prism. The image displacement device includes an optical element, a carrier, a base and at least one actuator. The optical element is disposed on the carrier. The at least one actuator drives the optical element on the carrier to swing relative to the base.