A bale forming device forms a bale in a bale forming chamber surrounded by a casing. A discharge gate actuator moves a discharge gate from a closed position into an opened position. The formed bale is ejected out of the casing and drops onto a ramp. A ramp sensor detects the bale dropping onto the ramp and triggers the discharge gate actuator to stop opening the discharge gate.

An agricultural baler includes a main bale chamber for the compressing of crop material into bales. The main bale chamber has a floor and an outlet for discharge of compressed crop material in the form of bales. A bale ejection system is at least partially incorporated in the floor, and is arranged to move and eject a rearward bale proximate to the outlet of the main bale chamber. The baler is characterized in that the bale ejection system continuously extends longitudinally past the outlet of the main bale chamber.

A baler for forming crop bales and releasing or dropping the bales at targeted drop locations in a field includes a bale-forming chamber, a bale carrier rearward of the bale forming chamber, a geographic location sensor, and a control system. The bale-forming chamber forms the bales and the bale carrier supports at least one crop bale thereon and releases the bale therefrom when actuated. The geographic location sensor outputs signals corresponding with a geographic location of the baler. The control system has a plurality of targeted bale drop locations stored therein, and is configured to calculate a distance from the current baler position to a first targeted drop position and calculate a distance from the current baler position to a second targeted drop position and compare the distances to determine a desired drop location to generate a signal to command the bale carrier to release the crop bale therefrom.

A crops management system includes an information outputting device disposed on a forming machine configured to form crops into a formed material having a predetermined shape and configured to output formed material information relating to the formed material, a wireless tag disposed on the formed material and configured to store identifying information of the formed material, and a management device having an obtaining part configured to obtain the identifying information of the formed material and the formed material information of the formed material, and a relating part configured to relate the formed material information to the identifying information obtained by the obtaining part.

A baling system acts at shut-down to automatically pre-position a plunger so that it is just past a rear-dead-center position when the baler is restarted, thereby minimizing the load on a power take-off during the next restart. In particular, when the power take-off is deactivated, a control unit automatically brakes the power take-off so that the plunger stops in the desired position. Alternatively, the baling system acts at restart-up to automatically repeatedly activate and deactivate the power take-off in order to accelerate the plunger to a predetermined minimum operating speed before activating the power take-off for continuous operation, thereby maximizing a flywheel's momentum during the restart.

An agricultural baler includes a baling chamber configured to receive a compressible material. The baler includes a plunger proximate a first end of the baling chamber and configured to move within the baling chamber to compress the compressible material into a bale. The baler also includes a rear door assembly having one or more rails positioned at a second end of the baling chamber, opposite the first end. The rear door assembly has a rear door with parallel tracks configured to receive and to guide a strap around the second end of the baling chamber to facilitate surrounding the bale with the strap. The rear door is slidingly coupled to the one or more rails and is configured to move along the one or more rails between a closed position and an open position.

An accumulator system for a bale recompression system that recompresses a round bale into a square bale includes a bottom platen to receive the round bale and a movable platen translatable relative to the bottom platen. The accumulator system includes a source of a bale diameter that indicates a diameter of the round bale to be received and a controller, having a processor, configured to: receive as input the bale diameter and output one or more control signals to move the movable platen based on the bale diameter.

Systems and methods for recompressing a round bale into a square bale. The system includes a bottom platen to receive the round bale and an upper platen rotatably coupled to the bottom platen. The upper platen is rotatable between a first position to receive the round bale between the bottom platen and the upper platen, and a second position in which the upper platen cooperates with the bottom platen to recompress the round bale into the square bale.

An agricultural baler. The agricultural bailer includes a baling chamber, a first plunger, a second surface opposing the first plunger, and a track assembly. The baling chamber includes a first wall and a second wall. Each of the first wall and the second wall includes a slot extending along a length of the baling chamber. The first plunger is moveable within the baling chamber and is configured to compress a compressible material into a bale. The second surface is configured to support the compressible material within the baling chamber. Each of the first plunger and the second surface includes a slot aligned with the slots of the first wall and the second wall. The track assembly includes a gated channel and is disposed within the slots of the first wall, the second wall, the first plunger, and the second surface such that the track assembly substantially surrounds the baling chamber.

A system for ejecting a bale from a baler, wherein the ejection process is controlled by a control unit with input from various sensors and from a remote operator located on a tractor. The control unit automatically positions a chute, controls a power take-off from the tractor, depressurizes and opens a chamber door, ties the bale, selects and causes ejector teeth to project into a forming chamber to engage the bale, causes the ejector teeth to move toward a discharge outlet such that the engaged bale moves with them toward and through the discharge outlet, and determines when the bale has fully ejected from the baler. The remote operator may choose to eject only the bale or to eject the entire contents of the forming chamber, and if the former, the control unit determines the bale's length and selects a subset of the ejector teeth that corresponds to that length.