A baling system comprising a high capacity baler, and an electronic display configured to display baling information to an operator of the baling high capacity baler. The baler additionally comprises a first bale-forming area in which a first series of first individual bales can be formed, and a second bale-forming area in which a second series of second individual bales can be formed. The baler further comprises one or more first sensors configured to sense one or more parameters related to at least one of the first bales, and one or more second sensors configured to sense one or more parameters related to at least one of the second bales. The electronic display is configured to simultaneously display data generated from at least one of the first sensors and at least one of the second sensors.

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.

A square baler comprising square baler comprising a pickup mechanism configured to pick up crop material from a single windrow on the ground, and a rotor configured to receive crop material picked up by the pickup mechanism. The rotor comprises a first toothed section, a second toothed section, and an interior auger flighted section located between the first toothed section and the section toothed section, wherein said rotor is configured to separate crop material into two streams of crop material.

The present disclosure is for a bale tag assembly for coupling to a baled crop that has twine formed of a plurality of fibers and a bale tag at least partially embedded in the twine. The bale tag has an embedded antenna configured to provide an identification number associated with the bale tag.

A baler including a frame, a feed system coupled to the frame, a baling chamber, a gearbox, a crank arm driven by the gearbox, a plunger at least partially positioned within and reciprocally movable with respect to the baling chamber, and a connecting rod extending between and coupled to both the crank arm and the plunger, where the connecting rod defines a connector length, and where the connecting rod defines a fluid volume therein. The baler also including a hydraulic system in operable communication with the connecting rod, a pump, a first feed line extending between and in fluid communication with the fluid volume of the connecting rod and the pump, and a lockout valve adjustable between a first configuration in which the fluid volume is in fluid communication with the pump, and a second configuration in which the fluid volume is not in fluid communication with the pump.

An agricultural baler including a bale chamber; a plunger; a feeder duct; and a rotor feeder unit. The rotor feeder unit includes a rotor feeder unit bottom distant from a rotor feeder forming a lower boundary of a conveying channel through the rotor feeder unit. The rotor feeder unit also includes scrapers placed in a conveying direction behind the rotor feeder. The scrapers extend in between the tines and have a leading face cooperating with the tines. The agricultural baler further includes a position adjuster configured to displace the leading face of the scrapers relative to the rotor feeder unit bottom, and to displace a top wall and/or the bottom wall of the feeder duct, in order to adjust the volume of the feeder duct.

A square baler (30) includes a chassis (32), a plunger (36), and a variable speed transmission (42). The plunger assembly (36) includes a reciprocating plunger head (76) slidably mounted relative to the chassis (32) and operable to reciprocate within a chamber (54) to apply a compressive force against the material. The transmission (42) includes drive (86) and driven components (90) and an endless drive element (98) that drivingly interconnects the components. The driven component is drivingly connected to the plunger head. The drive component is operable to be driven by a prime mover at a drive input speed. At least one of the components has an adjustable operating diameter so that the driven component has a variable output speed.

A baling press with a bale pressing channel, a ram for pressing material in the bale pressing channel, the ram having a pressing face and a slot in the pressing face, a tying assembly on a first side of the bale pressing channel with a loop supply member for forming a loop across the bale pressing channel and movable between an extended position projecting through the slot and a retracted position. The press further has a slot clearing member movable between an extended position projecting through the slot and a retracted position on one side of said bale pressing channel. The slot clearing member and the tying assembly are on opposite sides of a feeding passage. The bale pressing channel is open for discharging cleared material on a side opposite of the location of the slot clearing member in its retracted position. A method of operation is also described.

A bale identification assembly has a binding material with identification tags at spaced intervals is used by a knotter system to bind a formed bale. A read module with an antenna transmits interrogator signals and also receives authentication replies from identification tags. The bale identification assembly has a bale drop sensor with a paddle. As a completed bale passes through the discharge chute, the completed bale interacts with the paddle causing the bale drop sensor to activate. Activation of the bale drop sensor activates the antenna for a specified active cycle, and during its active cycle, the read module assigns any identification tag that is sensed to the completed bale that is leaving the discharge chute. A controller receives information from at least one crop sensor and/or bale sensor and associates the information about the completed bale with the identification tag on the completed bale.

An agricultural baler has a shaft, a flywheel connected to the shaft, a plunger connected to the flywheel via a crank, a brake system adapted for providing a brake force for decelerating the flywheel, at least one sensor for providing sensor data indicative for at least one moving part of the baler, and a brake control system comprising a processing system, e.g. a processor provided with an algorithm for stopping the crank in a predefined launch position range, based on a mathematical model.