A includes a control arm comprising a first link and a second link, a lift arm articulately connected to the first link by a first joint and a first actuating means articulately connected to the first link by the second joint. The second link and the lift arm are adapted to permit a pivotal connection with a loading means by a third joint and a fourth joint, wherein the lift arm is adapted to lift and lower the loading means and the first actuating means is adapted for actuating the control arm, by acting on the first link in at least a direction from the first actuating means, to achieve a rotational movement of the loading means around said fourth joint, when the loading means is connected to the control arm and to the lift arm. During action of the first actuating means on the first link in the direction from the first actuating means a decrease of a distance between the second joint and the third joint is achieved.

A loader includes a frame arrangement with a front frame portion and a rear frame portion. The loader includes a lifting arrangement mounted to the front frame portion. The lifting arrangement comprises a main arm provided with a pivot connector at a proximate end and an equipment connector at a distal end. The lifting arrangement includes a main arm support means for pivotably supporting the pivot connector of the main arm. The main arm support means is movable in a direction including a component in a front-rear direction with respect to the front frame portion. The lifting arrangement includes a main arm actuating element for pivoting the main arm such that the equipment connector is movable between a lowered position and a lifted position.

The present invention relates to a loader with a frame arrangement and a lifting arrangement. The lifting arrangement is mounted to the frame arrangement and comprises a main arm. The main arm is provided with a pivot connector at a proximate end thereof and an equipment connector at a distal end thereof. The main arm is provided with a main arm actuating element for moving the main arm between a lowered position and a lifted position. The lifting arrangement is configured to move the equipment connector between the lowered position and the lifted position along a substantially J-shaped path to move the equipment connector forward in a front-rear direction of the loader upon lifting the equipment connector.

A self-leveling front-end loader for attachment to a tractor. The self-leveling front-end loader includes a support structure configured to be attached to the tractor, and two extendable booms, each boom including a proximal leg, a distal leg, and a self-leveling hydraulic linkage configured to maintain the tilt angle of an accessory, such as a bucket. Each extendable boom has a boom extension hydraulic cylinder for extending the boom by up to 2 to 4 feet, a lift hydraulic cylinder to lift each boom, a self-leveling hydraulic cylinder, and a tilt hydraulic cylinder to tilt the accessory. The extendable booms enhance the capability of the front-end loader to position payload higher and farther than a standard front end loader, while preserving the stability and lifting capacity of the front-end loader. The booms have a traditional dogleg bend of 105 to 135 degrees, providing the two booms a wide range of motion.

Provided is a lifting arrangement mountable to a frame arrangement of a vertical lift wheel loader. The lifting arrangement comprises a main arm support element, a main arm, and a guiding arrangement. The main arm support element comprises at least two longitudinal members interconnected by at least one connecting element.

The disclosure relates to a loader working device for solving the problem of arranging the parts used in a vertical lifting mechanism of an existing loader. The loader working device comprises an accessory, an accessory overturning mechanism, and an accessory lifting mechanism including a movable arm, a movable arm oil cylinder, a front link rod and a rear link rod. The accessory lifting mechanism does not cause the accessory to interfere with a rocker arm and a front axle package of the loader working device. A connecting and mounting point of the movable arm and the accessory can be moved backwardly, thus improving a digging force and a tilting load at a low position of the loader working device.

Disclosed embodiments include power machines, such as front-end loaders and utility vehicles, with a lift arm and a bucket leveling system utilizing four-bar linkages which mechanically level an attached implement as the lift arm is raised and lowered.

An articulating work vehicle with a radially-pivoting lift arm, attached to a radially-pivoting base. The vehicle has a wheeled back section, on which an operator may stand, and a front, tool-carrying section, connected to the back section by an articulation joint. The front section has a system of actuators. These actuators cause a base tower to pivot relative to a frame, and a loader arm to pivot relative to the base tower. A tool, carried by the loader arm, may be self-levelling, and a bell crank allows the loader arm actuator's reaction point to float relative to the base tower.

A range-extended numerical controlled link mechanism electric loader comprising a vehicle-loaded rechargeable energy storage device, a vehicle-loaded auxiliary power supply device, a motor, a reducer, a numerical controlled link lever loading mechanism and a rack. The vehicle-loaded rechargeable energy storage device comprises at least a battery, an electric control module, and at least one charging port; the vehicle-loaded auxiliary power supply device comprises an engine and a generator; by cooperation of the vehicle-loaded rechargeable energy storage device and the vehicle-loaded auxiliary power supply device the loader can have five different working modes: low speed mode, high speed mode, hybrid low speed mode, hybrid high speed mode and energy recycling mode, by the different working modes, the wheels can be driven to rotate or the drive levers can be driven to conduct loading work.

A construction machine comprising a machine frame, a plurality of ground engaging units for supporting the machine frame from a ground surface, a work tool coupling, left and right boom arms pivotally supported directly or indirectly from the machine frame and pivotally connected to the work tool coupling, left and right work tool actuators mounted on the left and right boom arms, respectively, and left and right actuator linkages connecting the left and right work tool actuators, respectively, with the work tool coupling.