One embodiment of a camera module may comprise: a lens barrel provided with at least one lens; a holder to which the lens barrel is coupled; a printed circuit board coupled on the bottom of the holder to face the lens; an adhering portion coupling the holder and the printed circuit board; an opening portion opening a portion of a first space formed through the coupling of the printed circuit board and the holder; and a housing coupled with the holder, wherein a second space separated from the first space may be formed through the coupling of the holder and the housing, and the opening portion may communicate the first space with the second space.

[Object] To provide a control device which enables a flight vehicle device to obtain a highly precise image.

[Solution] Provided is the control device including an illuminating control unit configured to adjust a light amount of an illuminating device according to an inclination of a fuselage of a flight vehicle device that has an imaging device configured to photograph a photographing target and the illuminating device configured to illuminate the photographing target.

[Object] To provide a control device which enables a flight vehicle device to obtain a highly precise image.

[Solution] Provided is the control device including an illuminating control unit configured to adjust a light amount of an illuminating device according to an inclination of a fuselage of a flight vehicle device that has an imaging device configured to photograph a photographing target and the illuminating device configured to illuminate the photographing target.

The present invention relates to enhancing the image capturing devices, and to enhance the image producing devices, in such a way that they can capture and produce 3D images without the need of any gear to be worn by the viewers. The proposed solution is inspired by ray optics, geometry, mirrors, diamond cuts, eyes, rods & cones of human eyes, and retina design of human eyes. It doesn't “trick” the eyes and brain, it doesn't manipulate the images like current technologies do to give the 3D effect. The invention describes how the light sensors and light emitters, and their layouts to be changed in imaging devices like cameras and TV screens, to capture and produce 3D images, whether or not the directional information can be captured by image sensors and emitters.

Embodiments of the present disclosure provide a winder system that includes a battery winder and a camera apparatus. The battery winder is configured to wind a positive electrode plate and a negative electrode plate of a battery. The camera apparatus includes: a camera and a lens, where an angle between a sensor target plane of the camera and a lens plane of the lens is a predetermined angle, and the predetermined angle is greater than 0 degree and less than or equal to 20 degrees. The camera apparatus is configured to obtain images of the positive electrode plate and images of the negative electrode plate concurrently. The camera apparatus according to the present disclosure can implement focusing of images on different working planes, thereby obtaining clear images of both positive electrode features and negative electrode features concurrently with a single camera.

Provided is a camera module manufacturing device including central and peripheral optical units respectively including central and peripheral collimator lenses and central and peripheral measurement charts disposed inclined relative to respective planes vertical to the respective optical axes of the central and peripheral collimator lenses, the central and peripheral optical units being for forming respective images of the central and peripheral measurement charts on the image sensor through the central and peripheral collimator lenses, respectively, and the shooting lens, wherein each peripheral optical unit is disposed such that the optical axis of the peripheral collimator lens is inclined relative to the optical axis of the central collimator lens of the central optical unit, and the angle of inclination is changeable.

Provided is a camera module manufacturing device including central and peripheral optical units respectively including central and peripheral collimator lenses and central and peripheral measurement charts disposed inclined relative to respective planes vertical to the respective optical axes of the central and peripheral collimator lenses, the central and peripheral optical units being for forming respective images of the central and peripheral measurement charts on the image sensor through the central and peripheral collimator lenses, respectively, and the shooting lens, wherein each peripheral optical unit is disposed such that the optical axis of the peripheral collimator lens is inclined relative to the optical axis of the central collimator lens of the central optical unit, and the angle of inclination is changeable.

A camera module according to the present invention may comprise: a barrel that accommodates a lens therein; a printed circuit board formed under the barrel and mounted with an image sensor; a body portion integrally formed with the barrel; a holder comprising a leg portion formed by being extended downward from the lower end of the body portion to the same height as the image plane of the lens; and a fixing portion formed downward from the leg portion to have a predetermined thickness to fix the holder to the printed circuit board, wherein the thickness of the fixing portion may be equal to the height from the upper surface of the printed circuit board to the image plane of the image sensor.

[Object] To provide an imaging device which can be applied in forms suitable for various purposes.

[Solution] The imaging device includes: an elongated bendable section configured to be bendable; a reinforcing section that is arranged on an end portion of the bendable section in an elongated direction in which the bendable section extends, the reinforcing section having higher rigidity than the bendable section; and an imaging section that is held to be able to capture an image in the elongated direction with respect to the reinforcing section. The bendable section is configured to be able to store a power source in at least a part of the bendable section.

There is disclosed a substantially integrated, concealed, and discreet device for extending and holding a mobile recording device. A user of this holder device can unlock the mechanism, pull an extension arm segment which will pull past the body of the recording device so as to form a handle and extension and thereby allow the user to capture audio, video, and other images at a distance greater than if holding the mobile recording device directly in his or her hand. Thus an extensible mobile recording device holder is provided that allows for a compact and concealable mechanism and efficient deployment so that users can quickly and adequately capture images from more varied and greater perspectives.