A tilt structure allows the tilt of a console to be changed through simple motion and has a simple configuration. The tilt structure includes: a second frame attached to an upper portion of a first frame and is swingable upward and downward; and a control member attached to the second frame and is tiltable backward and forward through a tilting shaft. The control member includes a guide part with a groove housing a first frame pin. A locked and unlocked state switch to each other by causing the control member to tilt. The locked state includes a pin engaged with any of the engagement parts. The unlocked state includes the pin disengaged. The tilt of the second frame relative to the first frame is changed by engaging the pin with an arbitrary engagement part of any of the engagement parts and changing a distance between the tilting shaft and pin.

A vehicle control device is mounted on an adjustable armrest assembly coupled to a frame of a vehicle. The longitudinal position of the vehicle control device and an armrest may be adjusted by rotating the armrest upward towards a vertical position, sliding the armrest forward or rearward relative to the base and into the desired position, and then rotating the armrest downward toward the horizontal position.

A tilt structure to be provided allows the tilt of a console to be changed through simple motion and has a simple configuration. A control member 30 is coupled to a second frame 25 at a first coupling position P1 and is coupled to a first frame 20 at a second coupling position P2 provided below the first coupling position P1. Controlling the control member 30 makes the height of the first coupling position P1 adjustable. The tilt of the second frame 25 is changed in response to the height of the first coupling position P1.

A universal, mobile, backhoe system integrated with a vehicle and related methods are disclosed. An example embodiment includes: a boom; an arm coupled to the boom; an implement coupled to the arm; a swing mount coupled to the boom, the swing mount including a pivot point; a truck mount removably coupled to the swing mount; stabilizer legs coupled to the truck mount, the truck mount further including a mounting bracket removably coupled thereto and configured to be removably attached to a hitch receiver of a vehicle, the truck mount further including mounting shafts removably coupled thereto and configured to be removably attached to at least two points of a bed of the truck.

A wheel loader representing a work vehicle includes an operator's seat, an armrest, and a seat operation portion. The armrest is provided lateral to the operator's seat. The seat operation portion controls a position or a posture of the operator's seat. The seat operation portion is attached to the armrest.

A shovel includes a lower traveling body, an upper turning body turnably mounted on the lower traveling body, a cabin mounted on the upper turning body, an operator's seat installed in the cabin, an operating lever installed in the cabin, and a switch installed in the cabin, where the switch is disabled when the operating lever is operated.

A hydraulic system for a work machine, which includes a first hydraulic pump to deliver operation fluid, a second hydraulic pump to deliver pilot fluid, a first hydraulic actuator configured to control flow rate of the operation fluid based on the pilot pressure applied to the pressure receivers, a manual operator configured to operate the first hydraulic actuator, having an operation lever to move toward both directions, operation valves to change pressure of the pilot fluid in accordance with movement of the operation lever, and a discharge fluid tube to drain the pilot fluid from the operation valves. The hydraulic system includes an actuating valve in the discharge fluid tube and configured to reduce pressure of the pilot fluid in the discharge fluid tube.

The present disclosure provides systems and methods for power machines, including a mini-loader that includes a frame, an operator station positioned toward a rear end of the frame and configured to be used by an operator who is behind or on the rear end of the frame, and a power source positioned toward a front end of the frame.

Removable cab toe boxes are described herein to provide increased comfort to an operator while still allowing a cab to be rotated upwards to provide access to equipment below the cab. The removable toe boxes are removably affixed to the cab and, when installed, may provide at least a partial seal to prevent or reduce the amount of dirt or dust entering the cab. When the toe boxes are removed, equipment may move through the space created from the removal of the toe boxes to allow the cab to rotate.

A hydraulic control system for use with a work machine. The work machine has a platform which supports an operator. When the operator is not on the platform, the platform moves into a first position, causing a signal generator to send a signal to a controller. The controller is configured to limit the hydraulic flow to the ground drive motor when the platform is in the first position. The controller may directly reduce operation of the engine, or may adjust a valve which diverts a portion of hydraulic flow. The limitation may be overridden when desired by the operator.