A quick release assembly and gimbal system are disclosed. The gimbal system includes a handheld gimbal and an apparatus for mounting an electronic structure on the handheld gimbal. The handheld gimbal includes a handheld structure, a gimbal body operably coupled with the handheld structure, and a connector assembly operably coupled with the gimbal body. The connector assembly includes a first set of attraction structures. The apparatus includes a mounting structure attachable to the electronic structure. The mounting structure includes a second set attraction structures. The first set of attraction structures are configured to attach to the second set of magnets, the first set of attraction structures and the second set of attraction structures configured to cause at least one of the connector assembly or the mounting structure to rotate in a direction such that the mounting structure is coupled to the connector assembly.

An imaging apparatus includes an image capturing unit, a shutter button with which to give an image capturing instruction, a specific operation member, a reception unit configured to receive a line-of-sight input that is an input of a position based on a line of sight of a user, and a control unit configured to perform control so that, in a case where a predetermined operation on the specific operation member is not performed while a specific operation on the shutter button is being performed, a specified position is not moved based on the line-of-sight input in a case where a line-of-sight position of the line-of-sight input moves, and in a case where the predetermined operation on the specific operation member is performed while the specific operation on the shutter button is being performed, the specified position is moved based on the line-of-sight position of the line-of-sight input.

This patent application relates to a digital camera field, in particular, to a kind of pull-rod type digital camera. The pull-rod type digital camera includes a shooting assembly and a control assembly. The shooting assembly includes a camera, and the digital camera further includes a telescopic rod. One end of the telescopic rod is arranged movably inside the control assembly, and the other end is rotationally connected with the shooting assembly, through which the shooting assembly can be separated from the control assembly to a certain distance when stretching the telescopic rod, and it is convenient to take a selfie and carry out other operations by rotating the shooting assembly to a proper position.

A stabilizer folding structure and a handheld stabilizer. a stabilizer folding structure for rotationally connecting the motor base and the rocker arm such that the motor base and the rocker arm have an unfolded first state and a stored second state during relative rotation, comprising: an elastic member, applying An elastic force for abutting the motor base and the rocker arm; and a snap structure at a position where the motor base abuts the rocker arm, in the first state and the second state, The snap structure is engaged to restrict relative rotation of the motor base and the rocker arm. In other states, the snap structure is disengaged such that the motor base and the rocker arm are relatively rotatable. The folding structure of aspects of the invention facilitates the folding and storage of the stabilizer, and is convenient for the user to use.

SMA actuators and related methods are described. One embodiment of an actuator includes a base; a plurality of buckle arms; and at least a first shape memory alloy wire coupled with a pair of buckle arms of the plurality of buckle arms. Another embodiment of an actuator includes a base and at least one bimorph actuator including a shape memory alloy material. The bimorph actuator attached to the base.

A horizontal-posture maintaining apparatus is provided. The apparatus includes a barrel, a cover unit provided on a side surface of the barrel, a first driver provided in the cover unit, for rotating the barrel in a first direction (around an X axis) to keep the barrel in horizontal posture, a second driver provided in the cover unit, for rotating the cover unit in a second direction (around a Y axis) to keep the barrel in the horizontal posture, and a controller for controlling rotation of the first and second drivers.

A support bar for virtual reality camera, including a mounting case on which the virtual reality camera is mounted; rotation shafts which are arranged on both ends of a weight center of the mounting case and rotates the mounting case up and downward; a balance weight arranged on a lower part of a weight center of the mounting case; a support plate which connects the rotation shaft and a support bar to rotate the mounting case front and rearward; and a rotation control device on the rotation shaft. A magnet is provided on one side of the rotation shaft and a magnetic body such as steel is provided on the other side; and a wide view sight photographing lens on an upper one side of the mounting case, which has a view angle of front rear and left right 360°.

A panoramic photography head for easily photographing a plurality of images having different orientations without any vignetting in order to generate a panoramic image and to provide a photography system using the panoramic photography head are provided. A panoramic photography system includes: a digital camera body with a lens having a predetermined field of view at a front end thereof and can photograph a digital image; a panoramic photography head connected to a lower surface of the digital camera body; and a legged platform connected to a lower surface of the panoramic photography head. The panoramic photography head includes: an approximately horizontal upper plate having a second connector for realizing non-rotatably connection to the first connector; a vignetting preventing extension that is bent downward from the upper plate to secure a predetermined gap so as to prevent the panoramic photography head and the legged platform from being photographed in an image; and a lower plate that extends approximately horizontally and toward a front side from a lower end of the vignetting preventing extension and has a legged platform connector for connection to the legged platform. The legged platform connector is positioned vertically under a nodal point of the lens.

The present invention discloses a triaxial stabilizer for mobile phone, comprising a handheld part, a fixing device for mobile phone, and three motors which are arranged at top of the handheld part and are orthogonal in a space, wherein the three motors are respectively an X-axis motor, a Y-axis motor, and a Z-axis motor, wherein the Z-axis motor has a stator connected with the handheld part and has a rotor connected with a stator of the Y-axis motor, the Y-axis motor has a rotor connected with a stator of the X-axis motor, and the X-axis motor has a rotor connected with the fixing device for mobile phone. The triaxial stabilizer for mobile phone according to the present invention may quickly stabilize the mobile phone and control its shooting direction during moving shooting.

An imaging module for reading targets by image capture is mounted as a unitary assembly within an imaging reader. An imager is mounted on a first printed circuit board (PCB), and an interface connector is mounted on a second PCB. The first PCB is in direct, surface-area contact with first chassis walls of a chassis and is positioned to lie in a generally upright, first predetermined plane. The second PCB is in direct, surface-area contact with second chassis walls of the chassis and is positioned to lie in a generally tilted, second predetermined plane that is inclined at a tilt angle relative to the first predetermined plane. The first and second chassis walls are constituted as a one-piece support that maintains the tilt angle between the PCBs.