An agricultural baler comprising a baler mechanism. The agricultural baler comprises at least one structural member and a first ground engaging support is pivotally coupled to the structural member about a pivotal axis. A second ground engaging support is rotationally coupled to the structural member about an aft rotational axis. The baler mechanism is pivotally connected to the structural member at a baler connection. The baler connection is located at least one of between the aft rotational axis and the pivotal axis and at the pivotal axis. A bale carriage is coupled to the structural member.

The disclosure relates to a harvester capable of continuous bailing of crop material, particularly to a harvester comprising a crop supply chamber positioned in front of a bale chamber, capable of storing crop material during the wrapping of a bale of harvested crop material, and a deflection system, capable of allowing crop material to enter into the bale chamber. The crop supply chamber further comprises a supply inlet at the bottom of the crop supply chamber and a movable control plate positioned within the crop supply chamber.

An agricultural baler including a baler mechanism. The agricultural baler includes at least one structural member and a first ground engaging support is pivotally coupled to the structural member about a pivotal axis. A second ground engaging support is rotationally coupled to the structural member about an aft rotational axis. The baler mechanism is pivotally connected to the structural member at a baler connection. The baler connection is located at least one of between the aft rotational axis and the pivotal axis and at the pivotal axis. A bale carriage is coupled to the structural member.

The disclosure relates to a harvester capable of continuous bailing of crop material, particularly to a harvester comprising a crop supply chamber positioned in front of a bale chamber, capable of storing crop material during the wrapping of a bale of harvested crop material, and a conveyor system, capable of transporting crop material into the bale chamber. The crop supply chamber further comprises a supply inlet at the bottom of the crop supply chamber and a movable control plate positioned within the crop supply chamber.

An agricultural baler includes a bale chamber having a discharge outlet and a bale ejection system configured to discharge bales from the bale chamber on the ground surface of the field. The bale ejection system includes a chute with a first half portion and a second half portion that receives a first bale and a second bale discharged simultaneously from the discharge outlet in the first half portion and the second half portion, respectively, and an ejection actuator that pushes the second bale from the second half portion of the chute to the first half portion of the chute.

An agricultural baler includes a main bale chamber, needles, knotters, a triggering system, a knotter lock, a blow-off mechanism, and a monitoring system. The needles are coupled to the main bale chamber and thread twine around a formed bale. The knotters receive the twine from the needles and tie the twine. The triggering system is for activating the needles and the knotters. The knotter lock is a manual lock of the triggering system thereby preventing the needles and the knotters from being triggered. The blow-off mechanism directs a flow of air at the knotters and the needles. The monitoring system has a single sensor that provides signals indicating a normal operation of the knotters, and whether the knotter lock is engaged.

The disclosure relates to a harvester capable of continuous bailing of crop material, particularly to a harvester comprising a crop supply chamber positioned in front of a bale chamber, capable of storing crop material during the wrapping of a bale of harvested crop material, and a conveyor system, capable of transporting crop material into the bale chamber. The crop supply chamber further comprises a supply inlet at the bottom of the crop supply chamber and a movable control plate positioned within the crop supply chamber.

The disclosure relates to a harvester capable of continuous bailing of crop material, particularly to a harvester comprising a crop supply chamber positioned in front of a bale chamber, capable of storing crop material during the wrapping of a bale of harvested crop material, and a deflection system, capable of allowing crop material to enter into the bale chamber. The crop supply chamber further comprises a supply inlet at the bottom of the crop supply chamber and a movable control plate positioned within the crop supply chamber.

The disclosure relates to a harvester capable of continuous bailing of crop material, particularly to a harvester comprising a crop supply chamber positioned in front of a bale chamber, capable of storing crop material during the wrapping of a bale of harvested crop material. The crop supply chamber further comprises a supply inlet at the bottom of the crop supply chamber, a movable control plate positioned within the crop supply chamber, and a movable rear wall capable of adjusting the size of the supply inlet.

A harvester and a crop accumulator combination. The harvester is configured to transfer a harvested crop to the crop accumulator. The crop accumulator comprises at least one actuator to selectively discharge the harvested crops onto a field. A GPS unit is configured with at least one virtual trip line. An ECU is in communication with the GPS unit. The ECU is configured to selectively command the actuator of the crop accumulator to discharge harvested crop onto the field when the ECU receives a signal from the GPS unit when at least one of the virtual trip line is being approached, the virtual trip line is being crossed, and the virtual trip line has been crossed.