A bale processor apparatus has a bale processing chamber mounted on a chamber frame on wheels for travel in a travel direction. A lift arm frame is pivotally attached to a rear end of the chamber frame about a lift pivot axis, and a lift actuator pivots the lift arm frame from a lowered position to a raised position. A bale turning assembly is pivotally attached to the lift arm frame and bale fork tines are attached to the bale turning assembly. A turning actuator pivots the bale turning assembly from a standard position, where the bale fork tines extend rearward from bale processing chamber to a turned position, where the bale fork tines are rearward of the bale processing chamber and perpendicular to the travel direction. A shear bar cuts twine on rectangular bales as they fall into the chamber but does not affect cylindrical bales.

A bale processor apparatus has a bale processing chamber mounted on a chamber frame on wheels for travel in a travel direction. A lift arm frame is pivotally attached to a rear end of the chamber frame about a lift pivot axis, and a lift actuator pivots the lift arm frame from a lowered position to a raised position. A bale turning assembly is pivotally attached to the lift arm frame and bale fork tines are attached to the bale turning assembly. A turning actuator pivots the bale turning assembly from a standard position, where the bale fork tines extend rearward from bale processing chamber to a turned position, where the bale fork tines are rearward of the bale processing chamber and perpendicular to the travel direction. A shear bar cuts twine on rectangular bales as they fall into the chamber but does not affect cylindrical bales.

A cutting device for agricultural harvesters has a conveying channel and pivotably supported cutting knives arranged in a row on a frame. The cutting knives project in the cutting position into the conveying channel. A conveying member with conveying tines, rotatingly driven about a horizontal axis, interacts with the cutting knives for comminuting crop. Individual adjusting devices, each associated with one cutting knife, yieldingly support the cutting knives in the cutting position. A knife switching device is provided to move the cutting knives from the inoperative position into the cutting position. With a preselecting device a desired group of cutting knives can be selected that is pivoted into the cutting position upon activation of the knife switching device. The preselecting device is activatable with reduced force expenditure by eliminating resistances, caused by adjusting and connecting devices of the knife switching device, when preselecting the desired group of cutting knives.

A cutting device for agricultural harvesters has a conveying channel and pivotably supported cutting knives arranged in a row on a frame. The cutting knives project in the cutting position into the conveying channel. A conveying member with conveying tines, rotatingly driven about a horizontal axis, interacts with the cutting knives for comminuting crop. Individual adjusting devices, each associated with one cutting knife, yieldingly support the cutting knives in the cutting position. A knife switching device is provided to move the cutting knives from the inoperative position into the cutting position. With a preselecting device a desired group of cutting knives can be selected that is pivoted into the cutting position upon activation of the knife switching device. The preselecting device is activatable with reduced force expenditure by eliminating resistances, caused by adjusting and connecting devices of the knife switching device, when preselecting the desired group of cutting knives.

A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.

A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.

A system for mowing plants, in particular grass, includes a piece of land on which the plants grow, and an autonomous, self-propelled mowing vehicle. The mowing vehicle includes a mowing device for mowing plants on the piece of land while the mowing vehicle (hives across the piece of land, and a holder for accommodating plants mowed by the mowing device. A control system is provided for controlling the mowing vehicle. The system includes a dwelling space for keeping animals, such as cows, in particular an animal shed. The dwelling space includes a feeding area for feeding mowed plants to the animals. The feeding area in the dwelling space is connected to the piece of land by means of a travelable connection. The mowing vehicle includes a dispensing device for dispensing mowed plants accommodated in the holder. The control system is configured to (i) mow plants on the piece of land by means of the mowing device while the mowing vehicle drives across the piece of land, (ii) displace the mowing vehicle with mowed plants accommodated in the holder from the piece of land to the feeding area in the dwelling space, and (iii) dispense mowed plants to said feeding area by means of the dispensing device in order to feed the mowed plants to the animals.

A cutting blade overload protection device for a cutting mechanism of a harvester for leaf and stalk material, having a cutting blade pivotable about a cutting blade rotational axis and which is connected to a toggle lever mechanism. The toggle lever mechanism includes two coupled toggle levers pivotable about a toggle lever rotational axis and which move the cutting blade from an operating position to a resting position when a predefined force is exceeded. To protect the cutting blade better when contacting foreign objects, the device has a toggle lever mechanism which comprises a stop limit and a spring element, with the spring element and limit stop interacting such that when a predefined force is exceeded, the toggle lever rotational axis is moved past a dead center point, with the position of the toggle levers shifting from a first buckling position through a straight position into a second buckling position.

A cutting blade overload protection device for a cutting mechanism of a harvester for leaf and stalk material, having a cutting blade pivotable about a cutting blade rotational axis and which is connected to a toggle lever mechanism. The toggle lever mechanism includes two coupled toggle levers pivotable about a toggle lever rotational axis and which move the cutting blade from an operating position to a resting position when a predefined force is exceeded. To protect the cutting blade better when contacting foreign objects, the device has a toggle lever mechanism which comprises a stop limit and a spring element, with the spring element and limit stop interacting such that when a predefined force is exceeded, the toggle lever rotational axis is moved past a dead center point, with the position of the toggle levers shifting from a first buckling position through a straight position into a second buckling position.

The automatic, rotating agricultural system rotates around a central pivot point in either a full rotation or a partial arc to irrigate, plant and/or harvest a field. The agricultural system includes a center pivot frame, a plurality of frame segments connected to each other, and a feed storage bin connected to the center pivot frame and the frame segments. The frame segment includes a section frame including wheels to enable movements, a cutter trolley beam extends in a radial direction of the section frame, a cutterhead coupled to the cutter trolley beam to cut forage or crop, a radial conveyor that moves the cut forage or crop in the radial direction of the section frame, and a cutter conveyor that moves the cut forage or crop from the cutterhead to the radial conveyor.