A press for producing bales of forage and the like includes a supporting structure provided with wheels, the supporting structure being adapted to support rollers and a collection and feeding device, at least one roller of the set of rollers being actuated by a hydraulic motor, the at least one hydraulic motor being actuated by at least one hydraulic pump.

A rectangular baler including a chassis; a compacting plunger supported on the chassis for advancing crop material; and a bale chamber between the compacting plunger and the back end. The chassis is provided with a first and second sidewall extending from the front end in the direction of the back end. There is further provided a pull rod connecting the first sidewall and the second sidewall, at a location between the plunger and the front end. The pull rod has a first part and a second end part extending freely through a first hole in the first sidewall and a second hole in the second sidewall, respectively.

A baler having a longitudinal direction and a transverse direction. The baler includes a frame, a gearbox, and a cross member extending in the transverse direction for coupling a top part of the gearbox to the frame. The cross member has a first end coupled to the frame and a second end coupled to the frame. The top part is coupled to the cross member between the first end and the second end. The frame is provided with a first mounting bracket and a second mounting bracket adapted for receiving the first end and the second end, respectively, in a weld-free way.

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 system including an agricultural baler and a control unit. The baler includes a driveline including at least one heat generating component; a rotatable flywheel; a rotary input shaft connectable by the driveline to the rotatable flywheel; and at least one pump for supplying cooling fluid at a cooling fluid pressure to the at least one heat generating component. The control unit is configured to: receive baler-data indicative of one or more operating conditions of the agricultural baler; receive cooling-pressure-data indicative of a flow of the cooling fluid supplied by the at least one pump; set a threshold-condition based on the baler-data; and provide a control-signal to the agricultural baler based on a comparison between the cooling-pressure-data and the threshold-condition.

An agricultural work machine, an agricultural work machine control system, and method for an agricultural work machine having RFID tags to determine a fault condition of machine components, devices, parts or systems. The RFID tags are located on, at, or near machine components or systems to sense a temperature of those components or systems. A receiver/transmitter interrogates the RFID tags and receives the sensed temperatures, and component identifiers. A controller receives the temperatures from the receiver/transmitter and compares the received temperatures to a threshold to determine whether a fault condition exists. If so, the controller transmits an alert signal to a user interface to indicate that a fault condition exists with an identified component, part, device, or system.

Agricultural harvesting machines and methods of operation thereof are disclosed herein. A harvesting machine includes a main frame, a drive mechanism, a plunger, and a linkage system. The drive mechanism is coupled to the main frame and has at least one crank arm that is rotatable about a crank arm axis. The plunger is movable along a longitudinal axis in a compression chamber between a de-stroked position and a stroked position that is located rearward of the de-stroked position along the longitudinal axis. The linkage system couples the plunger to the main frame.

The flywheel (3) comprises a flywheel mass (5) and an automatic starting device (9) for driving into rotation the flywheel mass (5), coaxial with the flywheel mass (5), rotatable with respect to the flywheel mass, and adapted to be torsionally coupled to a motion input (7). The automatic starting device (9) comprises a drag torque transmission member for transmitting drag torque from the automatic starting device (9) to the flywheel mass (5), adapted to transmit a torque that increases as the angular speed of the automatic starting device increases.

A baling system comprising a first bale-forming area configured to form a first series of first individual bales, and a second bale forming-area configured to from a second series of second individual bales. The baling system additionally comprises a bale accumulator configured to receive the first and second individual bales from said first and second bale-forming areas and to manipulate the first and second individual bales into a group of four or more bales.

Systems and methods are disclosed herein for estimating remaining life in an agricultural baler comprising a reciprocating plunger for compressing gathered agricultural material into bales. A first sensor generates signals corresponding to force applied to the reciprocating plunger and any baling components configured to at least partially carry forces applied to the plunger. Based on input signals from at least the first sensor, forces associated with a load are recorded and a life state is estimated for the reciprocating plunger and/or at least one associated baler component. An output signal is then generated corresponding to the one or more estimated life states. In an embodiment, an input signal from a second sensor indicates completion of a bale, wherein an amount of life consumed from the plunger and/or baling components is determined in association with the bale, based at least in part on operating conditions of the baled material.