An image capturing apparatus includes a camera unit, a pair of supporting members, a fixation member, a drive member, a heat generating member, a first cover member, and a second cover member. The second cover member has a first opening into which air from outside flows and a second opening from which air inside the second cover member flows to outside, The fixation member has a third opening into which air that has flowed out of the second opening flows, and a fourth opening from which air inside the fixation member flows to outside. The heat generating member is disposed in a flow channel of air flowing from the first opening to the second opening.

A mobile terminal is provided, including a housing, a camera, and a drive structure disposed in the housing, and a frame of the housing is provided with a hole; and the drive structure includes a drive body, a gear group, and a guiding rack fixed in the housing, the camera is rotatably disposed on the housing and is connected to the drive body, and the drive body cooperates with the guiding rack through rotation by using the gear group, and drives the camera to rotatably enter and leave the hole.

An image capturing assembly and an electronic device are provided. The image capturing assembly includes a housing and an imagining module. The house includes a side wall, the side wall has a notch, and the housing is provided with an accommodating groove communicated with the notch. The image capturing module includes an image capturing portion and a rotating shaft portion, the rotating shaft portion is accommodated in the notch, and the image capturing portion is rotatably connected with the housing through the rotating shaft portion. The rotating shaft portion includes a rotating shaft and a movable member, the movable member is fitted over the rotating shaft, the image capturing portion is connected with the rotating shaft and is configured to be driven by the rotating shaft to rotate among a first position, a second position and a third position.

A mobile terminal including a first housing defining an accommodation space therein and having an opening defined therein in communication with the outside; a camera configured to obtain image information; and a driving unit configured to rotationally drive the camera to rotate and be inserted inside the first housing through the opening and to face a first face of the mobile terminal, and rotationally drive the camera to rotate and be withdrawn outside the first housing through the opening and to face a second face of the mobile terminal.

An electronic device according to certain embodiments, comprises: a housing; and a camera pop-up structure which is coupled to the housing, at least a part of which slides with respect to the housing between a first position accommodated inside the housing and a second position protruding from the housing, wherein the camera pop-up structure comprises: a guide member fixedly coupled to the inside of the housing; a slide member configured to slide with respect to the guide member by a first section and a second section extending from the first section in one direction or a reverse direction; and a camera module linked with the slide member moving within the first section so as to slide between the first position accommodated inside the housing and the second position protruding from the housing, and linked with the slide member sliding within the second section causing rotation towards a rear side or a front side of the housing.

A timing device is integrated into a pour cap to visually indicate when a dose has been dispensed from the container. The timing device may be secured to either the pour cap or the container and timing is configurable based on a product being dispensed.

A terminal device, including a screen, a first camera, and a movement mechanism, where the first camera is disposed on a movable component of the movement mechanism, the movement mechanism is disposed on the back of the screen, and the movable component is configured to drive the first camera to move from the back of the screen to a position at which the first camera can be seen from in front of the terminal device.

A geared motor includes a gear mechanism portion that meshes with a rotational shaft provided within a main motor unit. The gear mechanism portion has a multistage planetary gear reducing mechanism. The multistage planetary gear reducing mechanism includes a first stage gear formed helically and a final stage gear formed with spur teeth.

A terminal device includes a frame and a touched notch screen and a back plate which are disposed one behind the other. A camera assembly is disposed at a concave place located at an upside section of the touched notch screen. The camera assembly includes a case body and a camera which is disposed therein. The case body includes a front transparent panel section and a rear transparent panel section which are oppositely disposed at a front side and a rear side, wherein the front transparent panel section and the touched notch screen are combined to form a plane, the rear transparent panel section and the back plate are combined to form a plane. The camera is disposed on a rotatable body which is between the front and the rear transparent panel section and can only rotate 180 degrees clockwisely or counter clockwisely.

An electronic device is provided. The electronic device includes a function module, a body, and a motor assembly. The body includes an accommodation space for accommodating the function module. The motor assembly includes a drive motor, a gear, a rotation output shaft, a displacement mechanism, and a latch. The drive motor includes a shaft. The gear is fixedly attached to the shaft. The rotation output shaft includes a gear teeth portion. The gear teeth portion is coupled to the gear. The rotation output shaft is connected to the function module and is configured to drive the function module to rotate. The displacement mechanism synchronizes with the shaft and is separated from the rotation output shaft. The displacement mechanism includes a linear motion component. The latch is connected to the linear motion component, and is configured to engage the function module.