A robotic body includes a first section and a second section. The first section includes a first wheel, and the second section includes a second wheel. A coupling assembly couples the first section and the second section. The coupled first section and second section are movable together via operation of the wheels. The coupling assembly includes a housing defining an interior chamber, a spindle disposed in the interior chamber of the housing, and a bearing device disposed in the interior chamber and between the housing and the spindle. The bearing device allows the spindle to rotate inside the interior chamber and relative to the housing. The first section is coupled to the housing and the second section is coupled to the spindle. The first section rotates relative to the second section according to a rotation between the spindle and the housing.

A robotic body includes a first section and a second section. The first section includes a first wheel, and the second section includes a second wheel. A coupling assembly couples the first section and the second section. The coupled first section and second section are movable together via operation of the wheels. The coupling assembly includes a housing defining an interior chamber, a spindle disposed in the interior chamber of the housing, and a bearing device disposed in the interior chamber and between the housing and the spindle. The bearing device allows the spindle to rotate inside the interior chamber and relative to the housing. The first section is coupled to the housing and the second section is coupled to the spindle. The first section rotates relative to the second section according to a rotation between the spindle and the housing.

Inspection robots with a payload engagement device are described. An example inspection robot may have a housing, a drive module, having at least one wheel and a motor, where the drive module is operatively coupled to the housing. The example inspection robot may also have a payload coupled to the drive module, where the payload includes a sensor mounted to the payload, and a payload engagement device operationally coupled to the drive module and the payload, where the payload engagement device applies a selected downward force on the payload.

Inspection robots with a payload engagement device are described. An example inspection robot may have a housing, a drive module, having at least one wheel and a motor, where the drive module is operatively coupled to the housing. The example inspection robot may also have a payload coupled to the drive module, where the payload includes a sensor mounted to the payload, and a payload engagement device operationally coupled to the drive module and the payload, where the payload engagement device applies a selected downward force on the payload.

An articulating cart system which utilizes an articulating frame to effectively maneuver within tight spaces and a low-elevation platform to ease mounting and dismounting the cart. The articulating cart system generally includes a front frame and a rear frame. A platform is connected to the front frame so that the platform pivots or articulates along with the front frame with respect to the rear frame. A joystick controller may be provided which allows one-handed operation. One or more actuators may be connected between the rear frame and the front frame for pivoting the front frame with respect to the rear frame. A motor is provided to power the actuators and frame wheels. The platform is close to the ground to ease access for the operator. Utilizing the articulating frame, the present invention may traverse much tighter spaces and turns than is possible with previous cart systems.

An articulated vehicle. In an exemplary embodiment, an articulated vehicle of the present disclosure comprises a first unit and a second unit articulated together by a joint, wherein the joint comprises a first slew ring arranged to permit the two units to pivot relative to one another about an axis lying substantially perpendicular to a direction of travel of the vehicle in use, and a second slew ring arranged to permit the two units to pivot relative to one another about an axis lying substantially parallel to a direction of travel of the vehicle in use.

An articulating cart system which utilizes an articulating frame to effectively maneuver within tight spaces and a low-elevation platform to ease mounting and dismounting the cart. The articulating cart system generally includes a front frame and a rear frame. A platform is connected to the front frame so that the platform pivots or articulates along with the front frame with respect to the rear frame. A joystick controller may be provided which allows one-handed operation. One or more actuators may be connected between the rear frame and the front frame for pivoting the front frame with respect to the rear frame. A motor is provided to power the actuators and frame wheels. The platform is close to the ground to ease access for the operator. Utilizing the articulating frame, the present invention may traverse much tighter spaces and turns than is possible with previous cart systems.

A machine includes a front section having front wheels, a rear section having rear wheels, and a pivot that couples the front section to the rear section as well as a hydraulic steering circuit that moves the front section relative to the rear section about the pivot. The machine also includes a stabilizer and further includes a directional control valve that selectively depressurizes the hydraulic steering circuit according to a state of the stabilizer.

A machine includes a front section having front wheels, a rear section having rear wheels, and a pivot that couples the front section to the rear section as well as a hydraulic steering circuit that moves the front section relative to the rear section about the pivot. The machine also includes a stabilizer and further includes a directional control valve that selectively depressurizes the hydraulic steering circuit according to a state of the stabilizer.

A vehicle has first and second parts with at least one road wheel. The first part pivotally connects to a connecting member at two spaced apart points to pivot about a first axis relative and the second part pivotally connects to the connecting member at two spaced apart points 18 to pivot about a second axis, which is perpendicular to the second axis, intersecting at a pivot point. A first drive shaft rotatably mounts to the first part and extends in a direction perpendicular to a longitudinal axis of the first part, a second drive shaft rotatably mounts to the second part and extends in a direction perpendicular to a longitudinal axis of the second part. The first and second drive shafts connect by a universal joint so that the two shafts to pivot relative to each other about the pivot point.