A baling system including 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 further includes a bale bundler configured to receive the first and second individual bales from the first and second bale forming-forming areas and to tie a group of at least six bales together to form a bale bundle.

A yield calculation system comprises a position sensor configured to detect a position. A baler comprises a bale chamber in which crop material is to be formed into a bale, a volume measurement sensor provided in the bale chamber and configured to measure a volume of the bale in the bale chamber, the volume corresponding to the position detected by the position sensor, and a moisture measurement sensor provided in the bale chamber and configured to measure a moisture amount in the bale, the moisture amount corresponding to the position detected by the position sensor. Circuitry is configured to calculate, based on the volume of the bale and the moisture amount corresponding to the position, a yield corresponding to the position by excluding the moisture amount from an amount of the bale.

An agricultural baler system includes: an agricultural baler including a bale chamber configured to form a bale from crop material, a crop conveyor configured to feed crop material into the bale chamber, a location sensor configured to output a location signal corresponding to a location of the agricultural baler, and a parameter sensor configured to output a parameter signal corresponding to a measured parameter; and a controller operably coupled to the travel sensor and the parameter sensor. The controller is configured to: determine an area based at least partially on a rake width of a rake and a defined length; determine a parameter distribution in a region of a field having the area based at least partially on the measured parameter and the location of the agricultural baler; and output a field map update signal to update a field map to indicate the determined parameter distribution.

An agricultural machine includes a baler controller configured or programmed to obtain an ejector inclination value from a positional relation between a tractor inclination sensor and a bale ejector of a baler, the ejector inclination value being a sensor value of the inclination sensor corresponding to the bale ejector, and to allow ejection of the bale when a size of the bale in the baler is larger than a first threshold value and the ejector inclination value is less than a second threshold value.

A baler comprises: a frame, including a forming chamber, configured to receive crops and to form a bale; a feeding assembly, configured to collect the crops form the ground and to feed the crops into the forming chamber; a tailgate, movable between a closed position, wherein the forming chamber is closed, and an open position, wherein the forming chamber is open to an external environment for discharging the bale; a control unit; a ramp, configured to lay down the bale on the ground and movable between a raised position and a discharge position, for allowing a release of the bale; a ramp sensor, responsive to a change of position of the ramp from the raised position to the discharge position and vice versa. The control unit is connected to the ramp sensor for assessing a release of the bale, responsive to a change of the ramp position from the raised position to the discharge position and, in succession, from the discharge position to the raised position. The control unit comprises a timer.

A method of controlling a wrap system of a round baler includes determining a current characteristic of a supply roll of wrap material related to a current weight of the supply roll, and controlling rotation of a pair of spool rollers based on the current characteristic of the supply roll. As the current characteristic indicates a decrease in weight, the rotation of the pair of spool rollers is controlled to achieve a desired acceleration rate of the spool rollers, such that a leading edge of the wrap material is ejected from a nip formed between the pair of spool rollers at an ejection trajectory that is within an allowable angular range relative to a tangent of the nip, so that the leading edge of the wrap material passes through an access and into a baling chamber of the round baler.

Yield monitoring systems for round baling machines and methods that can provide weight estimations for round bales at the time of formation are described. Balers can include those that incorporate hydraulically actuated bale kicking or pushing assemblies as well as those that incorporate spring-loaded off ramps. Farm implements including baling machines and cotton module builders are encompassed. The system includes a sensor that can ascertain a physical parameter associated with ejection of a round bale from the farm implement. Physical parameters as may be ascertained can include pressures, velocities, accelerations, etc. associated with bale ejection.

A method for forming a bale of crop material in an agricultural baler. The method includes rotating a baler power-take-off (PTO) shaft at a rotational speed, rotating a bale of crop material in a bale chamber, and sensing, by at least one sensor, at least one bale ejection condition. The at least one sensor is configured to provide at least one bale ejection condition value corresponding to the at least one sensed bale ejection condition. The method further includes receiving, by a controller, the at least one bale ejection condition value, and adjusting, by the controller, the rotational speed of the baler PTO shaft responsive to the at least one bale ejection condition value.

A method for identifying the weight of a transportation group of bales includes receiving, compressing and shaping crop material into a plurality of bales, wrapping each bale of the plurality of bales with a binding material and attaching an identification tag to each of the bales. A bale ID is crated for each bale and a weight value for each of the bales is associated with the bale ID of the respective bale. The identification tag on the bale for each bale is assigned to the bale ID. The method reads the identification tag of each of plurality of bales and assigns the plurality of bales to a transportation group with a local bale handling device. The plurality of bales in the transportation group are loaded onto a truck, and the total weight of the transportation group is determined by totaling the weight value of each bale in the transportation group.

A system and method for controlling operation of one or more controllable components of an agricultural baler. A deposit strategy is determined. One or more operational components associated with the baler are controlled in dependence on the determined deposit strategy to control the deposit of one or more formed bales in accordance with the determined deposit strategy.