Various embodiments of a multi-modal screw propelled excavation craft operable for excavating a material as the craft is propelled along a surface are disclosed.

A work vehicle includes a rear frame, a front frame rotatably attached to the rear frame, a work implement attached to the front frame, a motor disposed on the front frame, a differential device connected to the motor, and a drive shaft connected to the differential device. The motor is disposed in front of the work implement.

A control system for a work vehicle having a work implement, the control system including: a position measurement unit for measuring a position of a windrow produced by grading work; a work route setting unit for setting a work route based on the position of the windrow that has been measured by the position measurement unit; and a travel control unit for controlling the work vehicle to travel along the work route that has been set by the work route setting unit.

A circle drive for rotating a blade on a draft frame of a motor grader includes a circle gear mounting the blade, a worm wheel, a torque dividing arrangement, and a single input provided on a first shaft. The torque dividing arrangement includes a set of shafts positioned about the worm wheel, a torque dividing gear set, and a set of worm gears meshed with the worm wheel. The worm wheel is operatively coupled to drive the circle gear. The set of worm gears includes a first worm gear on a first shaft and a second worm gear on a second shaft. The single input is configured to provide a driving torque that drives the set of worm gears such that the set of worm gears divides the driving torque. The driving torque is capable of driving the worm wheel for driving the circle gear and rotating the blade.

A wear element for a mounting system for a blade of a motor grader is provided. The wear element extends along a longitudinal axis. The wear element includes a first portion having a first cross-sectional area transverse to the longitudinal axis. The wear element further includes a second portion opposite of the first portion, the second portion having a second cross-sectional area having a V-shape that extends away from the first portion.

A system for a grading machine includes a lift cylinder sensor to measure a position or movement of a lift cylinder, which is coupled to a drawbar. The drawbar is coupled to a circle. The circle is coupled a blade carrier assembly, and the blade carrier assembly is coupled to a blade. The system also includes a drawbar sensor to measure a position or movement of the drawbar, a circle sensor to measure a position or movement of the circle, a blade carrier assembly sensor to measure a position or movement of the blade carrier assembly, and a blade sensor to measure a position or movement of the blade. A controller receives information from the lift cylinder sensor and one or more of the aforementioned sensors and determines whether one or more wear components is in need of inspection, repair, or replacement.

A method and control system operable to control movement of a work implement of a work vehicle. The control system includes a reservoir that retains fluid, a pump in fluid communication with the reservoir, and an actuator in fluid communication with the pump. The actuator has a first side and a second side. A control valve is fluidly positioned between the pump and the actuator, a first proportional relief valve is fluidly positioned between the pump and the first side of the actuator, and a second proportional relief valve is fluidly positioned between the pump and the second side of the actuator. The first proportional relief valve is configured to permit flow of fluid from the first side of the actuator to the reservoir when a pressure at the first side of the actuator exceeds a pressure set point.

A work vehicle includes an earthmoving implement configured to move material as the work vehicle travels across a surface within a work site. Additionally, the work vehicle includes a computing system configured to access a cut-fill map associated with the work site, with the cut-fill map depicting the material flow for transforming a current grade of the surface into a target grade of the surface. Moreover, the computing system is configured to determine at least one of the target grade of or a direction of the material flow for the surface based on the accessed cut-fill map. In addition, the computing system is configured to control the operation of an actuator to adjust the position of the earthmoving implement relative to a work vehicle frame based on the determined at least one of the target grade or the direction of the material flow.

A mounting assembly for a blade of a motor grader includes a mounting bracket having a mounting channel. The mounting assembly includes an adjustment block disposed in the mounting channel. The adjustment block includes a mounting groove and at least one slot disposed spaced apart with respect to the mounting groove. The mounting assembly also includes at least one retention plate disposed on the mounting bracket. The at least one retention plate is adapted to engage with the at least one slot provided on the adjustment block. The at least one retention plate is adapted to limit movement of the adjustment block along a longitudinal axis of the adjustment block. The mounting assembly further includes a wear element disposed in the mounting groove provided in the adjustment block. The wear element is adapted to slidably receive a portion of the blade thereon.

An adjustment system for a blade of a motor grader is provided. The adjustment system includes an adjustment mechanism disposed in association with a wear element of the blade, and a controller. The controller is configured to receive a signal indicative of actuating the adjustment mechanism. The controller is configured to actuate the adjustment mechanism to force the wear element against a surface of the blade. The controller is configured to release the adjustment mechanism to unforce the wear element against the surface of the blade. The controller is configured to actuate at least one side shift cylinder to move the blade in a first direction. The controller is also configured to actuate the at least one side shift cylinder to move the blade in a second direction. The controller is further configured to lock the adjustment mechanism to retain the wear element against the surface of the blade.