A compact utility loader compact utility loader comprising a frame and a loader arm configured in a vertical-lift configuration. The compact utility loader additionally comprises a link pivotably secured to the loader arm and to the frame, and an actuator pivotably secured to the loader arm and to the frame. The compact utility loader further comprises a track assembly configured to maintain the loader arm in direct attachment to the frame.

A work machine capable of saving works by an operator during traveling is provided. The work machine includes a vehicular main body including a traveling unit, a work implement attached to the vehicular main body, and a controller that automatically controls operations by the work implement. The controller cancels automatic control of operations by the work implement based on a traveling state of the traveling unit.

An excavator according to an embodiment of the present disclosure includes a lower traveling structure, an upper swing structure mounted on the lower traveling structure, a hydraulic driving motor configured to move the lower traveling structure, and a controller including a memory and a processor coupled to the memory and configured to control the hydraulic driving motor, and detect vibration of the upper swing structure and reduce variation of a command value for driving the hydraulic driving motor based on a mode of the vibration.

An excavator includes a control valve configured to control hydraulic oil to be supplied to an actuator, based on pilot pressure; an electric operation device configured to output an operation signal; a gate lock device; a gate lock valve provided on a pilot line supplying the pilot pressure to the control valve, and configured to open or close according to a state of the gate lock device, so as to switch between a locked state and a released state; a proportional valve provided on the pilot line; and a control part configured to receive as input the operation signal, to control the proportional valve, wherein the control part determines, in a case where the gate lock valve is in the locked state by the gate lock device and an operation is performed on the electric operation device, the operation as an operational error.

A shovel includes a lower traveling body that runs; an upper rotating body that is rotatably mounted on the lower traveling body; an attachment attached to the upper rotating body; a display device; and a processor that obtains a current shape of a target ground, calculates a recommended line that is suitable to excavate, with the attachment, the target ground having the obtained current shape, and displays the current shape of the target ground and the recommended line on the display device.

A method for building a pad at a construction site using a geography-altering machine, the method comprising: receiving a design for the pad at the geography-altering machine, receiving a terrain surface model of the construction site at the geography-altering machine, wherein the terrain surface model is generated using an imaging device located on the geography-altering machine, generating a cut-and-fill map at the geography-altering machine based on the design for the pad and the terrain surface model, generating guidance for building the pad at the geography-altering machine, wherein the guidance includes a starting location and moving directions for the geography-altering machine, monitoring process of building the pad using the imaging device on the geography-altering machine; and updating the cut-and-fill map and the guidance based on the monitored process.

A shovel includes a lower traveling body that runs; an upper rotating body that is rotatably mounted on the lower traveling body; an attachment attached to the upper rotating body; a display device; and a processor that obtains a current shape of a target ground, calculates a recommended line that is suitable to excavate, with the attachment, the target ground having the obtained current shape, and displays the current shape of the target ground and the recommended line on the display device.

When a current landscape includes an upward slope and a downward slope existing ahead of the upward slope, a controller determines a virtual design surface including a first design surface inclined at a smaller angle than the upward slope and a second design surface inclined with respect to the first design surface at a smaller angle than the downward slope. The controller generates a command signal that causes a work implement to move along the virtual design surface.

Some embodiments include an autonomous loader comprising a speed control system; a steering control system; a shovel control system; and a controller communicatively coupled with the speed control system, the steering control system, and the shovel control system. In some embodiments, the controller has code that instructs the shovel control system to place the shovel in a position to load the shovel; instructs the speed control system to move the autonomous loader into a load zone; determines whether the shovel has been filled with material from the load zone; instructs the shovel control system to raise the shovel a predetermined amount; determines a second time whether the shovel has been filled with material from the load zone; instructs the shovel control system to raise the shovel out of the load zone; and instructs the shovel control system to shake the shovel.

A compact utility loader compact utility loader comprising a frame, a first track and a second track positioned on either side of the frame, and a pair of loader arms. The loader arms are configured to couple with an attachment via a hitch plate and a hitch pin. The compact utility loader is configured such that as the loader arms are raised and lowered, the hitch pin follows a path approximately defined by a curve f(x)=4.641e.sup.0.34x The value “x” represents a horizontal direction and the function f(x) represents a vertical direction.