Apparatuses, systems, and methods for determining and verifying operational states of fifth wheels. Certain methods for determining the operational state of the fifth wheel may include sensing, with at least one sensor, magnetic flux caused by a magnet on a movable component movable to lock the fifth wheel to a kingpin of a towed vehicle and determining an end position of the movable component based on the magnetic flux. The end position of the movable component is then compared to a threshold position and an operational state of the fifth wheel is determined based on the comparison of the end position of the movable component to the threshold position.

Apparatuses, systems, and methods for determining and verifying operational states of fifth wheels. Certain methods for determining the operational state of the fifth wheel may include sensing, with at least one sensor, magnetic flux caused by a magnet on a movable component movable to lock the fifth wheel to a kingpin of a towed vehicle and determining an end position of the movable component based on the magnetic flux. The end position of the movable component is then compared to a threshold position and an operational state of the fifth wheel is determined based on the comparison of the end position of the movable component to the threshold position.

A coupling socket for coupling to a coupling ball. The coupling socket has a concave coupling receiving area with a main insertion direction for the coupling ball, and a substantially semispherical lubricant cap with an end face edge is arranged in the coupling receiving area, wherein the convex exterior of the lubricant cap contacts the inner wall of the coupling receiving area over the surface thereof, and the concave interior of the lubricant cap has a receiving area for the coupling ball. The coupling socket has an insertion aid in the coupling receiving area, the end face edge of the lubricant cap, when viewed in the main insertion direction, is located behind the insertion aid, and the insertion aid completely covers the end face edge of the lubricant cap.

The present document describes a sensor bracket and a vehicle, the sensor bracket comprising: a first cross beam, the first side thereof being mounted to the frame cross beam of a tail portion of a tractor; at least two vertical beams perpendicularly mounted to the first cross beam; and a second cross beam located below the first cross beam and connecting at least two vertical beams; wherein each of the vertical beams has a first sliding groove and the second cross beam is operable to slide up and down along the first sliding grooves. The sensor bracket of the present application has a simple structure and stable performance, and adopts the frame cross beam of the original vehicle for mounting, making it easy to operate, easy to replace, and easy to adjust.

A robotic system that includes a body, a hitch assembly coupled to the body, and a sensor array coupled to the body. The robotic system includes a processor and operating logic containing programming instructions thereon that, when executed, causes the processor to detect, via the sensor array, a location of a vehicle relative to the body. The programming instructions of the operating logic further cause the processor to detect, via the sensor array, a position of a hitch receiver along the vehicle and move the body toward the vehicle to position the hitch assembly proximate to the hitch receiver. The programming instructions of the operating logic further cause the processor to move the hitch assembly relative to the body and in alignment with the hitch receiver and engage the hitch assembly to the hitch receiver to securely couple the body to the vehicle.

A robotic system that includes a body, a hitch assembly coupled to the body, and a sensor array coupled to the body. The robotic system includes a processor and operating logic containing programming instructions thereon that, when executed, causes the processor to detect, via the sensor array, a location of a vehicle relative to the body. The programming instructions of the operating logic further cause the processor to detect, via the sensor array, a position of a hitch receiver along the vehicle and move the body toward the vehicle to position the hitch assembly proximate to the hitch receiver. The programming instructions of the operating logic further cause the processor to move the hitch assembly relative to the body and in alignment with the hitch receiver and engage the hitch assembly to the hitch receiver to securely couple the body to the vehicle.

A system for assisting in aligning a vehicle for hitching with a trailer includes a steering system that adjusts a vehicle steering angle, a braking system that adjusts a vehicle speed, an imaging system that receives image data of a drawbar assembly being receivable in a hitch receiver, and a controller. The controller is configured to detect an edge of the drawbar assembly from the image data, target an endpoint at a fixed offset from the edge and a stationary point on the vehicle, and maneuver, via the steering and braking systems, the vehicle along a path to align the endpoint with the trailer.

A system for assisting in aligning a vehicle for hitching with a trailer includes a steering system that adjusts a vehicle steering angle, a braking system that adjusts a vehicle speed, an imaging system that receives image data of a drawbar assembly being receivable in a hitch receiver, and a controller. The controller is configured to detect an edge of the drawbar assembly from the image data, target an endpoint at a fixed offset from the edge and a stationary point on the vehicle, and maneuver, via the steering and braking systems, the vehicle along a path to align the endpoint with the trailer.

A mounting bracket for attaching an electrical coupling of trailer light electrical system to the hitch receiver tube of a towing vehicle is described. The mounting bracket removably attaches to the receiver tube such that the bracket does not interfere with the tube opening and has a electrical coupling mount flange that is located sideways from the receiver tube in a cantilever like fashion.

A cargo carrier set up system is used for installing a cargo hitch mount to a vehicle. The cargo carrier set up system includes at least one air spring detector, a cargo baseline setting device, and a fault determination system. The air spring detector is configured to detect a first vehicle air spring condition of at least one air spring of the vehicle. The cargo baseline setting device is programmed to set a baseline air spring condition that is used as a reference value for determining one or more cargo carrier set up faults. The baseline air spring condition being based on the first vehicle air spring condition. The fault determination system is programmed to determine the one or more cargo carrier set up faults based on the baseline air spring condition and a second air spring condition that is detected by the air spring detector.