An automatic camera adjustment method and an electronic device, where the method is applied to an electronic device with a rotatable camera. The electronic device obtains a parameter of a preview image in a shot of the camera, determines a parameter for rotating of the camera according to the parameter of the preview image, and adjusts an azimuth of the camera according to the parameter for rotating of the camera. Quality of a photographed image may be improved by adjusting the camera.

An electronic device is provided in this disclosure. The electronic device includes a body, a shaft sleeve, a function module, and a rotating resistance device. The shaft sleeve is fixed to the body. The function module includes a shaft portion rotatably disposed on the shaft sleeve. The rotating resistance device is disposed on the shaft sleeve or fixed to the body and is against the shaft portion of the flip function module to apply rotational resistance to the shaft portion of the function module, so that the function module stably stays at any position without being affected by an external force.

A terminal is provided. The terminal includes a main body, a camera module, and a driving structure disposed in the main body. A receiving chamber configured to receive the camera module is defined in the main body. The driving structure is connected to the camera module to drive the camera module to move from the inside of the receiving chamber to the outside of the main body or drive the camera module to move from the outside of the main body into the inside of the receiving chamber.

Provided is a unit for photographing, including a holding member configured to hold a pill to be photographed by a photographing section, a supporting member configured to support the holding member so that the pill faces the photographing section at a position that is determined in advance from the photographing section, a fixing unit configured to fix the holding member, which is supported to the supporting member, with a magnetic force, and a switching unit configured to switch a fixed state in which the holding member is fixed by the fixing unit and a released state in which the fixing of the holding member by the fixing unit is released.

A terminal device having a rotatable image capture component, including a magnetic body and a sensor. A change in the magnetic flux caused by rotation of the magnetic body is identified by the sensor, and used to identify whether the image capture component is in a front-facing state or a rear-facing state. The magnetic body is mounted in a connector of the image capture component or at an end of the connector. The sensor is mounted on a circuit board using a bottom surface perpendicular to a Z-axis of the sensor. When the image capture component is at a front-facing position and a rear-facing position, an angle between a connection line, which connects a south pole and a north pole of the magnetic body, and a radial line of an image capture unit included in the image capture component is less than a preset value in a rotation direction.

Disclosed are a mobile terminal having an image capturing function, and a method of controlling the same. The mobile terminal includes a body; a sensing unit configured to sense a motion of the body; a camera formed to be relatively-rotatable with respect to the body, based on the sensed motion; a display unit configured to output an image input through the camera; and a controller configured to relatively-rotate the camera with respect to the body in a moving direction of the body when a motion of the body is sensed, such that an image of a place corresponding to a predicted moving path of the body based on the motion of the body is output, wherein an image input through the relatively-rotated camera is output to the display unit.

Disclosed are a mobile terminal and controlling method thereof. The present invention includes a sensing unit, a camera, a display unit, and a controller configured to launch a camera application, wherein the controller is further configured to execute a splice mode on the camera application, wherein the splice mode is a mode for outputting a preview image region and a splice region to the display unit by partitioning, and wherein the controller is further configured to output a preview image currently shot through the camera to the preview image region and recommend a splice image outputted to the splice region based on the outputted preview image.

The present disclosure provides an electronic device, including: a movable body having at least one functional unit and a main body. The movable body is movable from a first position to a second position with respect to the main body, the main body has a first surface provided with a first display unit, the movable body includes a second surface, a long side of the second surface has a length identical to a length of a short side of the first surface. The first surface and the second surface are both located in a first plane when the movable body is located in the first position with respect to the main body.

An alerting method and a mobile terminal, where the method and terminal comprise obtaining real-time data of an environment around the mobile terminal using a sensor, detecting whether the real-time environmental data contains an object that affects user behavior, and generating alert information according to the real-time environmental data when the real-time environmental data contains an object that affects user behavior.

An automatic camera adjustment method and an electronic device, where the method is applied to an electronic device with a rotatable camera. The electronic device obtains a parameter of a preview image in a shot of the camera, determines a parameter for rotating of the camera according to the parameter of the preview image, and adjusts an azimuth of the camera according to the parameter for rotating of the camera. Quality of a photographed image may be improved by adjusting the camera.