Camera mounting assemblies and mounting plates. A mounting plate includes a body. The body includes a center portion. The body further includes an extension member extending away from the center portion in a coplanar direction. The body further includes a first mounting hole located on the extension member. The first mounting hole is configured to receive a first attachment. The body further includes a second mounting hole. The second mounting hole is located on the center portion and is configured to receive a second attachment, the second attachment being different than the first attachment. The body further includes an opening. The opening is located on the center portion and is configured to provide a path for an electrical conduit to be coupled to the second attachment.

A gimbal assembly is provided that allows for more than a single rotation about a rotational axis in both a first rotational direction and a second rotational direction.

A gimbal includes a control device configured to receive an action instruction including a press action instruction and, based on the action instruction, generate a control instruction including a switch control instruction for switching operating modes of the gimbal, a controlling assembly configured to receive the control instruction and generate a performing instruction based on the control instruction for controlling an optical device, and a performing assembly configured to receive and implement the performing instruction. The performing assembly is operably connected to the controlling assembly and supported on a top end of a support arm of the control device. The performing assembly comprises a first rotation member, a second rotation member, and a carrying member connected one to another, and first and second motors for driving the second rotation member and the carrying member to rotate relative to the first and second rotation members, respectively.

A mount system for machine-vision equipment that is located and used outdoors is disclosed. The mount system has a rectangular base, a lower swivel, a puck, and an upper swivel, among other parts. The lower swivel has an aperture with a conical (tapered) surface sunk into its body. This inward-facing conical aperture corresponds in size, shape, and taper with a conical (tapered) protrusion located within the upper swivel. When the mount system is fully assembled, the lower swivel is fastened to the rectangular base using the puck. When fully assembled, a tapered-head screw fastens the upper swivel to the lower swivel by matching the tapered aperture with the conical protrusion.

A ball head includes: a main body provided with ball body and fastener accommodating portions adjacent to each other in an up-and-down direction; a ball body provided with a threaded rod extending outward therefrom; and a fastener. The ball body and fastener accommodating portions are respectively formed with openings respectively extending upward and downward and having diameters respectively smaller than the diameters thereof, and communicated with an external space through a notch of the main body, wherein a fixing assembly is disposed at the notch. The notch can be expanded, such that the fastener and the ball body are respectively placed into the fastener and ball body accommodating portions. The notch can be further contracted by locking the fixing assembly tight and thus the ball body is non-rotatable, while the notch can also be expanded by loosening the fixing assembly and thus the ball body is rotatable.

The present invention discloses a display stand has a mounting seat connected on a support structure, internally provided with an accommodating cavity and having a slot communicated with the accommodating cavity at the top in an open way, a supporting arm having an insertion end capable of being inserted into the accommodating cavity of the mounting seat from the slot of the mounting seat, and a locking mechanism disposed on the mounting seat or supporting arm, for locking or unlocking the insertion end of the supporting arm in the accommodating cavity. When the insertion end of the supporting arm is locked, the supporting arm is limited within the accommodating cavity of the mounting seat, and when the insertion end of the supporting arm is unlocked, the insertion end of the supporting arm may be taken out from the slot of the mounting seat.

A track mounted workstation assembly is disclosed having a housing including a track and one or more communication or electrical or communication ports, and one or more roller mount assemblies further including a sliding carriage configured to slide along the track. In addition, the mounts may further include wiring and cables configured to communicate with the communication or electrical ports of the track housing at either ends. In addition, the mounts may further include one or more receiving members for receiving one or more articulating arms for monitors, peripherals, and other equipment.

A calibration system and a calibration bracket thereof. The calibration bracket includes: a base; a fixed vertical rod, one end of the fixed vertical rod being mounted on the base; a movable vertical rod, mounted on the fixed vertical rod, and being able to move relative to the fixed vertical rod along a length direction of the fixed vertical rod; a brake member, configured to provide a friction force for driving the movable vertical rod to be fixed relative to the fixed vertical rod along the length direction of the fixed vertical rod; and a hanging member, mounted on the movable vertical rod, the hanging member being used for hanging a calibration element, the calibration element being used for calibrating an advanced driver assistance system of a vehicle.

A display stand holder with slide rail structure includes a stand body, a pivot member, a display assembly module, and one or more constant-force springs. The stand body has a top end. The pivot member has a first end and a second end. The first end is provided with a pivot portion. The pivot portion is pivotally connected to the top end of the stand body, and the second end is away from the top end with respect to the first end. The display assembly module is disposed at the second end of the pivot member. The display module includes a slide rail assembly. The slide rail assembly includes a guide member and a slide member, and the slide member is slidably assembled on the guide member. The constant-force spring is connected between the guide member and the slide member.

A TV bracket is disclosed in the present invention, including a support frame and a frame for installing a TV. The frame is supported by the support frame. The support frame is rotatably or fixedly connected to the frame, and the frame is of a frame body structure. An end frame opening of the frame is provided with a hanging arm for installing the TV, a space in a frame opening behind the hanging arm forms an accommodating space, and a cable management rack is arranged in the accommodating space. In the present solution, the frame is designed into a frame body structure, the space in the frame opening is the accommodating space to facilitate putting in various accessories of the TV, and the TV is installed with the hanging arm, which is convenient to install. The cable management rack is added to manage cables in an orderly manner, which is convenient to use.