The invention relates to an agricultural device for semi-automatic movement of a holding tool, for holding an object, between two positions, said two positions being at different heights. The device comprises said holding tool for holding the object, load sensing means for determining if the holding tool holds an object, driving means (9) for moving the holding tool up and down, a control unit for controlling the driving means, and a user interface for user input to the control unit. The device can be used in two modes of operations, wherein the holding tool in a first mode of operation is freely movably, and in a second mode of operation is semi-automatically movable between a plurality of determined positions (URP, UPP, LRP, LPP) depending on if the holding tool is holding an object or not, and which command is given to the user interface. The invention further relates to an agricultural vehicle comprising such an agricultural device, a method for an agricultural device, for such semi-automatic movement, and software for obtaining information related to driving means, said software being adapted to perform the method according to the invention.

A baler includes a housing forming a baling chamber. The baling chamber has an inlet that defines an inlet width perpendicular to a central longitudinal axis of the baler. A pre-cutter is disposed forward of the inlet along the central longitudinal axis and includes a cutter width perpendicular to the central longitudinal axis. The cutter width is substantially less than the inlet width. A crop distributor is disposed between the pre-cutter and the inlet and conveys the crop material from the pre-cutter to the inlet. A pick-up head is disposed forward of the pre-cutter and lifts the crop material from the ground and conveys it to the pre-cutter.

The invention relates to a fodder distributor formed by: a propelled carriage comprising a first shredding surface in the rear part, in the direction of travel, with first propulsion means, and a second surface in the front part, for feeding bales to the first surface; a first mechanism for shredding parallelepiped bales, with a shaft having a first end connected to rotation means and longitudinal blades projecting radially from the shaft; second propulsion means on the second surface; and respective panels for providing additional bale support, which are positioned horizontally adjacent to the second surface and have means for moving the bales to said surface.

An apparatus for removing twine from a bale is described herein. The apparatus includes a frame having a mounting portion configured to releasably mount to a vehicle and two opposed arms rigidly coupled to and extending in a common direction from the mounting portion. The apparatus also includes a bale grabbing mechanism coupled to the frame and configured to releasably secure the bale against the opposed arms of the frame, a cutting mechanism movably coupled to one of the opposed arms of the frame, the cutting mechanism including a cutting element being configured to cut the twine and a twine grabbing mechanism coupled to the other opposed arm of the frame. The twine grabbing mechanism is configured to retain the twine after the twine has been cut by the cutting mechanism.

The invention relates to a fodder distributor formed by: a propelled carriage comprising a first shredding surface in the rear part, in the direction of travel, with first propulsion means, and a second surface in the front part, for feeding bales to the first surface; a first mechanism for shredding parallelepiped bales, with a shaft having a first end connected to rotation means and longitudinal blades projecting radially from the shaft; second propulsion means on the second surface; and respective panels for providing additional bale support, which are positioned horizontally adjacent to the second surface and have means for moving the bales to said surface.

A conversion kit for converting a front-loader bucket for use as a forklift, a bale transporter or similar object mover. Parallel tine assemblies pivoted to a bucket top include tines that normally project forwardly, and cooperating vertical arms linked to the tines. The arms are fastened at their bottoms within protective elbow brackets to which the tines are pinned. The arms support hollow pivot sleeves penetrated by axle members that enable tine assembly rotation. A plurality of box-like receivers forming sockets enable the quick connection and/or disconnection of parts. Lower receiver sockets removably support pivot sleeves secured to quick-connect plugs that are penetrated by axle segments. A pair of rigid, tine stowage brackets may be secured at the rear. After the projecting tines are unpinned from front mounted elbow brackets, the tine assembly may rotate over the bucket to an out-of-the way position.

A three point hay lift assembly includes a hay spear device for a three point hitch and a three point hay lift. The hay spear device includes at least one stabilizer mounted to a frame within about 24 inches of a hay spear mounted to the frame. This enables the hay spear device to be lowered without the stabilizers contacting a trailer platform or bed. The hay lift includes a tube configured to slide over the hay spear that is longer than the stabilizer of the hay spear device. A crossbar limits the insertion depth of the hay spear into the hay bale and at least one stabilizer is attached to the crossbar to prevent the hay bale from spinning. An ear extends from the tube to contact the frame of the hay spear device and prevent the tube from spinning about the hay spear.

The present invention relates to a utility vehicle hay fork attachment device that is comprised of a frame assembly further comprised of at least one horizontal frame member with at least one tine, a mounting plate, and a pair of mounting arms. The device further preferably resembles a garden fork and is made of a metal, such that it can carry strong loads and resist wear from repeated uses. The device is also comprised of mounting arms and a mounting ring that allow multiple means of attachment and support to a vehicle. In this manner, the device can be applied to any utility or all-terrain vehicle known in the art, to decrease the amount of time and effort required for moving hay bales.

A pulley assembly is provided for mounting on a rotatable shaft of an agricultural harvester and is operable in a high-speed configuration or a low-speed configuration. The pulley assembly comprises a high-speed pulley with a high-speed running surface for receiving a drive belt when the pulley assembly is in the high-speed configuration and a low-speed pulley with a low-speed running surface for receiving a drive belt when the pulley assembly is in the low-speed configuration. The pulley assembly has three sets of teeth extending from surfaces of the two pulleys. In the low-speed configuration, the running surfaces of the low-speed pulley and high-speed pulley are axially aligned and the first set of teeth and the second set of teeth are engaged. In the high-speed configuration, the running surface of the high-speed pulley is exposed for receiving the drive belt.

A pulley assembly is provided for mounting on a rotatable shaft of an agricultural harvester and is operable in a high-speed configuration or a low-speed configuration. The pulley assembly comprises a high-speed pulley with a high-speed running surface for receiving a drive belt when the pulley assembly is in the high-speed configuration and a low-speed pulley with a low-speed running surface for receiving a drive belt when the pulley assembly is in the low-speed configuration. The pulley assembly has three sets of teeth extending from surfaces of the two pulleys. In the low-speed configuration, the running surfaces of the low-speed pulley and high-speed pulley are axially aligned and the first set of teeth and the second set of teeth are engaged. In the high-speed configuration, the running surface of the high-speed pulley is exposed for receiving the drive belt.