A tailgate assembly for an agricultural baler includes: a tailgate that is movable between an open position and a closed position; a tailgate actuator coupled to the tailgate and configured to move the tailgate between the open position and the closed position; and a controller. The controller is configured to: determine that a bale formation cycle is beginning; enter a lockout mode responsively to determining the bale formation cycle has begun, the lockout mode preventing the tailgate actuator from moving the tailgate to the open position; determine that the bale formation cycle is complete; and enter an ejection mode from the lockout mode responsively to determining the bale formation cycle has completed, the ejection mode allowing the tailgate actuator to move the tailgate to the open position.

A tailgate assembly for an agricultural baler includes: a tailgate that is movable between an open position and a closed position; a tailgate actuator coupled to the tailgate and configured to move the tailgate between the open position and the closed position; and a controller. The controller is configured to: determine that a bale formation cycle is beginning; enter a lockout mode responsively to determining the bale formation cycle has begun, the lockout mode preventing the tailgate actuator from moving the tailgate to the open position; determine that the bale formation cycle is complete; and enter an ejection mode from the lockout mode responsively to determining the bale formation cycle has completed, the ejection mode allowing the tailgate actuator to move the tailgate to the open position.

A control system for controlling a cutting operation performed by at least one controllable components of an agricultural baler on a wrapping material incorporating a plurality of electronic identifiers is disclosed. The control system ensures that an electronic identifier is not damaged when the cutting operation is performed.

In one embodiment, a wrapping material for wrapping around an agricultural product to form a bale, including a continuous web of material including a plurality of wrapping units, each wrapping unit having a first surface and an opposing second surface, and extending lengthwise from a leading end to a tail end, the tail end of each wrapping unit terminating at the leading end of an adjacent wrapping unit. Each wrapping unit includes a nontacky portion extending lengthwise from the leading end of the wrapping unit, and having a length greater than a circumference of the bale, and a tacky portion extending lengthwise from the nontacky portion to the tail end of the wrapping unit, and having a length greater than the circumference of the bale.

A baler implement a tag installer operable to attach an RFID identification tag to a bale. A reader is positioned to interrogate the identification tag for receiving data from the identification tag. The reader is operable to emit an interrogation signal for interrogating the identification tag in accordance with a pre-defined timing sequence. The reader emits the interrogation signal regardless of a position of the bale in the baling chamber or on the baler implement. As such, the interrogation signal is emitted based on the pre-defined timing sequence. The pre-defined timing sequence may include a repeated on/off interrogation sequence, or continuously scanning interrogation sequence.

A bale chamber of an agricultural round baler. The bale chamber includes a main frame, a plurality of rollers, and at least one belt engaging with at least one roller of the plurality of rollers. The at least one belt and the plurality of rollers are together configured for creating a round circulating chamber. The bale chamber also includes a subframe movably connected to the main frame and at least one follower roller pivotally connected to the subframe at a first pivot axis. The at least one follower roller engages with the at least one belt. The subframe is configured for moving during formation of the bale so that the at least one follower roller moves in between a first position at the empty bale position of the circulating chamber and a second position at the full bale position of the circulating chamber.

A supply roll for a wrap system of a baler implement includes a core having a circumferential wall surface forming a cylindrical shape concentric with a central longitudinal axis. A wrap material includes a length wound about the circumferential wall surface of the core, and defines an exterior circumference. The core and the wrap material cooperate to define a combined center of gravity. An axial position identifier is disposed on the exterior circumference of the wrap material, and is positioned relative to the combined center of gravity to define a desired lift location.

A round bale or module building assembly with a frame having a first wall and a second wall separated from one another by a module width and a plurality of rollers positioned between the first wall and the second wall, the plurality of rollers defining at least one belt path. Wherein, at least two rollers of the plurality of rollers have a combined width configured to substantially span the module width.

A round bale or module building assembly with a frame having a first wall and a second wall separated from one another by a module width and a plurality of rollers positioned between the first wall and the second wall, the plurality of rollers defining at least one belt path. Wherein, at least two rollers of the plurality of rollers have a combined width configured to substantially span the module width.

A feeding assembly for an agricultural vehicle includes: a pickup including a pickup reel carrying a plurality of tines; a rotor including a plurality of rotor fins disposed rearwardly from the pickup; a windguard assembly including a pair of movable support arms and a windguard coupled to the support arms, the windguard including a tube and a plurality of windguard tines coupled to the tube, the windguard being movable from a first position to a second position that is elevated relative to the first position; and a windguard retainer configured to engage the windguard when the windguard is in the second position and retain the windguard in the second position.