A machine for removing debris from pine straw is described. The machine comprises a conveyor system, a doffer, a debris-pine straw separation zone, and a clean pine straw zone. The conveyor system and doffer thin, spread and fluff the pine straw, as well as control the flow of pine straw to the separation zone. A system of air is directed through the separation zone and engages pine straw and debris discharged into the separation zone and effectively separates the debris from the pine straw, after which the pine straw is directed from the separation zone to the clean pine straw zone.

A merger system for an agricultural vehicle includes: at least one frame mount configured to couple to a chassis; a movable merger frame coupled to the at least one frame mount; a conveyor supported by the merger frame and configured to convey crop material; at least one load sensor associated with the at least one frame mount and configured to output load signals corresponding to a mass of the merger frame; and a controller operatively coupled to the at least one load sensor. The controller is configured to: determine a mass of crop material conveyed by the conveyor based at least partially on the mass of the merger frame; determine a crop yield based at least partially on the determined mass of crop material; and output a yield signal corresponding to the determined crop yield.

The disclosure relates to a crop merger system for a harvester. The system includes a frame, first and second rollers mounted to the frame, and a belt disposed over the first and second rollers. The system includes a motor operably coupled to and configured to rotate the second roller. The system includes a controller configured to electronically receive as input a desired speed of the belt. The system includes a sensor configured to detect a measured characteristic associated with the crop merger system, and electronically transmit the measured characteristic to the controller. The controller is configured to determine a measured speed of the belt based on the measured characteristic, and if the desired speed and the measured speed are unequal, the controller is configured to regulate the motor to adjust a speed of the belt to be substantially equal to the desired speed.

A field cultivating machine (1) having at least one pickup device (10), having a pickup rotor (11) and a transfer rotor (14), which can be driven about axes of rotation (A, B) along a transverse axis (Y), wherein the pickup rotor (11) can pick up agricultural crop material from the ground (70) with pickup prongs (12), to lift it in relation to a vertical axis (Z) and to transfer it to the transfer rotor (14), which is configured to take over the crop material by means of transfer prongs (15) and to transfer it to a downstream device (30), at least in part behind the pickup device (10) in relation to a longitudinal axis (X), wherein the transfer prongs (15) engage between the pickup prongs (12) so that the that ranges of movement (C, D) of the transfer prongs (15) and the pickup prongs (12) overlap when viewed along the transverse-axis (Y).

The invention relates to a windrower (1) having at least one pickup device (10), which has a pickup rotor (11) and a transfer rotor (14), which can be driven in the same direction about axes of rotation (A, B) which extend at least predominantly along a transverse axis (Y), wherein the pickup rotor (11) is configured to pick up agricultural crop material from the ground (70) by means of pickup prongs (12), to lift it in relation to a vertical axis (Z) and to transfer it to the transfer rotor (14), which is arranged at least in part higher than the pickup rotor (11) and is configured to take over the crop material by means of transfer prongs (15), to lift it at least initially in relation to the vertical axis (Z) and to transfer it to a downstream transverse conveyor (30), which is arranged at least in part behind the pickup device (10) in relation to a longitudinal axis (X) and is configured to receive the crop material transferred by the transfer rotor (14) on a conveying surface (36), to convey it along the transverse axis (Y) by means of a conveying element (32) and to deposit it in windrows on the ground (70), wherein the transfer rotor (14) is configured to discharge at least some of the crop material above the conveying surface (36) in relation to the vertical axis (Z) and to throw it onto the said surface. In order, in the case of a windrower, to enable crop material to be efficiently picked up and transferred to a transverse conveyor, it is envisaged according to the invention that, in at least one working position of the windrower (1), a normal straight line (N), which runs perpendicular to a region (37) of the conveying surface that is central in relation to the longitudinal axis (X) and which runs through a point (38) on the conveying element (32) that is furthest forward in relation to the longitudinal axis (X), at least touches a range of movement (D) of the transfer prongs (15).

The invention relates to a windrower (1), having a main frame (2), which can be supported via an undercarriage (4) in the operating state, and having at least one windrower unit (20), which is connected at least indirectly to the main frame (2) and has a pickup device (21), and a transverse conveyor (30), which is arranged at least predominantly behind it in relation to a windrower longitudinal axis (X) in a working configuration of the windrower (1) and has a transverse conveyor frame (31), wherein the pickup device (21) is configured, in the working configuration, to pick up agricultural crop material from the ground (50) and to transfer it to the transverse conveyor (30), and the transverse conveyor (30) is configured to convey the transferred crop material along a windrower transverse axis (Y) and deposit it in windrows on the ground (50). In order to enable improved dynamic adaptation to a ground profile in the case of a windrower, it is envisaged according to the invention that the pickup device (21) is vertically movable both relative to the transverse conveyor frame (31) and also relative to the main frame (2), at least in relation to a windrower vertical axis (Z)

The invention relates to a method for adjusting a haymaking machine (1) into a transport position, which haymaking machine (1) has a main frame (2) and two side units (6) arranged to both sides on the main frame (2), each side unit having a boom (7), which in a side position extends sidewards along a transverse axis (Y) from an attachment region (3) of the main frame (2), and a cultivating unit (20), arranged on the boom (7), for field cultivation, said cultivating unit (20) being adjustable on the boom (7) between an inner position arranged relatively close to the attachment region (3) and an outer position that is further remote from the attachment region (3). According to the invention, in order to propose improved adjustability for transport in the case of a haymaking machine having booms, provision is made whereby, proceeding from a working position in which the booms (7) are in the side position, the following steps are performed: adjustment of each cultivating unit (20) relative to the main frame (2) into an upright position, at least in part by pivoting about in each case one unit pivot axis (A) which, when the booms (7) are in the side position, extends at least predominantly along the transverse axis (Y), adjustment of the booms (7) relative to the main frame (2), at least in part by pivoting about in each case one boom pivot axis (B), which extends at least predominantly along a vertical axis (Z) and is arranged in the attachment region (3), towards the longitudinal axis (X) into a longitudinal position, wherein the adjustment of the booms (7) is performed while the cultivating units (20) are at least temporarily in the outer position, and adjustment of the cultivating units (20) into the inner position after the adjustment of the booms (7) has been at least performed at least partially.

The embodiments herein provide a double windrow converter assembly. The double windrow converter assembly is removably attachable behind a towing vehicle or a swather. The converter enables creation of a double windrow of freshly cut hay (with high moisture content). The converter picks up the freshly cut hay windrow using a pickup head which is then diverted to a trough. The hay collected in the trough is discharged on one side of the field to create a first half of the double swath. The swather and the double windrow converter assembly are then operated in opposite direction to generate second half of double swath. Thus, use of the double windrow converter assembly along with swather helps in accomplishing two tasks/operations in a single pass. The assembly also eliminates need for using a rake to pick up dried hay from the field on waiting for a few days after swathing.

Described is a windrow merger for collecting agricultural products from a field comprising: a frame; a pick-up device; a conveyor; a guiding device; a support structure, equipped with arms connected to the guiding device and articulated to the frame to rotate relative to the frame about an axis of oscillation, comprising a rod rotating relative to the frame about an axis of rotation parallel to the axis of oscillation and connected to the arms by bars, in such a way that a rotation of the rod about the axis of rotation is linked to a rotation of the support structure about the axis of oscillation; an actuator is connected to the frame and to the rod, so that a position of the actuator is kinetically linked to the angular position of the rod about the axis of rotation for managing the position of the guiding device.

The invention relates to a device for tedding or turning crops, such as hay, to facilitate a faster drying of the hay. The device and method use a touch-free approach, where a fan wheel is used to blow the hay off the ground and toss it simultaneously. Furthermore, the invention relates to a device for windrowing hay before it is harvested by harvesting machines.