A stop device includes a motor rotor assembly including a rotating shaft, a first shift lever fixedly connected to the rotating shaft and including a first shifting part configured to rotate around an axis of the rotating shaft to form a first motion trajectory, and a second shift lever rotatably connected to the first shift lever and including a second shifting part partially within the first motion trajectory. The first shifting part is configured to drive the second shifting part to rotate around the axis of the rotating shaft to form a second motion trajectory. The stop device further includes a motor stator assembly sleeved on the rotating shaft and rotatably connected with the rotating shaft. The motor stator assembly includes a stopping boss located on a periphery of the first motion trajectory and partially within the second motion trajectory.

A removable hinge for connecting a plate to a bracket. The bracket has a hook slot which has an open end and a retaining end. A hook on the plate fits into the open end of the hook slot and slides along the hook slot to the retaining end. When the plate is in a hanging position, the hook is at the retaining end of the hook slot. The plate is removable from the bracket by sliding the hook from the hook slot out of the open end. The removable hinge may be advantageously use in coupling a camera assembly, such as a bullet camera, to a bracket mounted on a wall or ceiling.

The present disclosure discloses a lens bracket assembly for supporting an imaging device. The imaging device includes a body and a lens connected to the body. The lens bracket assembly includes a supporting plate and a bracket. The supporting plate is used for mounting the imaging device, and the supporting plate includes a first side. The bracket includes a supporting portion of which the shape matches the lens of the imaging device and a fixing portion connected with the supporting portion. The fixing portion is fixedly arranged at the first side. The supporting portion is used for supporting the lens. The present disclosure further relates to a gimbal that uses the lens bracket assembly.

A handheld gimbal includes a handheld structure and a gimbal body operably coupled with the handheld structure. The handheld structure includes a handheld body having at least one functional button, and a gripping structure extending from a bottom portion of the handheld body away from the handheld body. The gimbal body is operably coupled with a side of the handheld body.

A stop device includes a motor rotor assembly including a rotating shaft, a first shift lever fixedly connected to the rotating shaft and including a first shifting part configured to rotate around an axis of the rotating shaft to form a first motion trajectory, and a second shift lever rotatably connected to the first shift lever and including a second shifting part partially within the first motion trajectory. The first shifting part is configured to drive the second shifting part to rotate around the axis of the rotating shaft to form a second motion trajectory. The stop device further includes a motor stator assembly sleeved on the rotating shaft and rotatably connected with the rotating shaft. The motor stator assembly includes a stopping boss located on a periphery of the first motion trajectory and partially within the second motion trajectory.

An apparatus is provided comprising a shaft having an axis and mounted to a boom structure, a support structure configured to be coupled to the shaft, wherein the support structure is configured to rotate about the axis. In addition, a method is provided comprising translating a cradle along a vertical axis, and rotating, in response to the translating, a support structure about a shaft, wherein the cradle is supported by the support structure, wherein the cradle remains stationary with regard to pitch rotation during the translating.

A facility for automated modelling of the cutting process for a particular material to be cut by a beam cutting tool, such as a waterjet cutting system, from empirical data to predict aspects of the waterjet's effect on the workpiece across a range of material thicknesses, across a range of cutting geometries, and across a range of cutting quality levels, all of which may be broader than, and independent of the actual requirements for a target workpiece, is described.

A facility for automated modelling of the cutting process for a particular material to be cut by a beam cutting tool, such as a waterjet cutting system, from empirical data to predict aspects of the waterjet's effect on the workpiece across a range of material thicknesses, across a range of cutting geometries, and across a range of cutting quality levels, all of which may be broader than, and independent of the actual requirements for a target workpiece, is described.

A system and method for supporting a patient gas delivery tube includes an elongated support member having first and second distal end and a living hinge biasing arcuate movement between the distal ends. A generally planar, rigid base configured to secures a lower distal end so that the support member extends from a surface of the base. A mount secured to the other distal end is adapted to secure an associated tube.

The present invention discloses a lens bracket assembly for supporting an imaging device. The imaging device includes a body and a lens connected to the body. The lens bracket assembly includes a supporting plate and a bracket. The supporting plate is used for mounting the imaging device, and the supporting plate includes a first side. The bracket includes a supporting portion of which the shape matches the lens of the imaging device and a fixing portion connected with the supporting portion. The fixing portion is fixedly arranged at the first side. The supporting portion is used for supporting the lens. The present invention further relates to a gimbal that uses the lens bracket assembly.