An agricultural harvester includes a header with a pickup mechanism for picking up crop from a field and a feeder for feeding the crop into the agricultural harvester for further processing. The feeder is pivotably connected to a chassis of the agricultural harvester via at least one lift cylinder. The header is connected to the feeder for pivoting therewith and includes a pickup mechanism supported by a frame. The header further includes at least one wheel for supporting the frame on the ground. A sensor is configured to detect a ground surface composition in an area behind the pickup mechanism, while a control system is operably coupled to the at least one lift cylinder and the sensor, and configured to operate the at least one lift cylinder to adjust a pressure that the header exerts on the ground in dependence of the detected ground surface composition.

A pickup assembly (10) for an agricultural vehicle (1) includes: a frame (200); a pickup drum (210) carried by the frame (200) and carrying a plurality of tines (211); and a windguard assembly (220) carried by the frame (200) and comprising a first roller (221) and a second roller (222) carried in front of the pickup drum (210), the first roller (221) and the second roller (222) each being pivotable relative to the frame (200) to adjust a respective relative position to the pickup drum (210). The first roller (221) is pivotable about a first pivot (223) defining a first pivot axis (FPA) that is coaxial with an axis of rotation (SAR) of the second roller (222) when the second roller (222) is at a position closest to the pickup drum (210) such that the relative position of the first roller (221) is adjustable without adjusting the relative position of the second roller (222) when the second roller (222) is at the position closest to the pickup drum (210).

A mobile plastic mulch processing apparatus recovers plastic mulch by first cutting away any vegetation growing above the plastic mulch with a mower head which depends from the frame of the apparatus. The plastic mulch is caught up by a plastic mulch lifting apparatus which pulls the plastic mulch upward from the field and disposes the plastic mulch with a plastic mulch receiving bin. The apparatus may have additional systems which clean the top surface of the plastic mulch before lifting and for shredding the plastic mulch for disposal.

A windrow merger includes heads having cams that control the speed of the tines. The cam is configured with a section that slows the speed of the tines while passing a lower front portion of the path of rotation to lift material from the ground at lower speeds and therefore handles the material more gently at the point of pickup. The cam is configured to accelerate the tines at the point where the lifted material is propelled rearward from the pickup assembly. The merger heads also include a widened conveyor that is configured with an upper surface extending rearward and slightly downward to further evenly distribute material across the width of the conveyor. The heads are supported on skids that have a linkage connecting the skids at each end of the head with one of the skids having a mechanism that acts as a master to control the slave of the linked opposite skid.

A unit for conveying agricultural products, such as grass, hay, forage, wheat, corn and the like, for agricultural machines (100) of the type of balers, round balers and the like, comprising at least one apparatus (2) for picking up previously cut agricultural products, and at least one device (3) for conveying the agricultural products picked up by the apparatus (2) toward an inlet to a chamber (102), which is comprised in the agricultural machine (100), for forming a bale; the device (3) comprises a main rotating shaft (4), which faces the apparatus (2) and is provided with teeth (5) for the transfer of the agricultural products to the chamber (102), and at least one auger (6). The auger (6) comprises an auxiliary rotating shaft (7), which faces the apparatus (2) and is contiguous and substantially coaxial to the main shaft (4), and a screw (8), which is wound around the auxiliary shaft (7), in order to push toward the teeth (5) the agricultural products; the device (3) comprises at least one series of stems (9), which are parallel to the auxiliary shaft (7) along a center distance that increases progressively with respect to the longitudinal axis (A) defined by the auxiliary shaft (7) and by the main shaft (4). Each stem (9) is interposed between the first turn of the screw (8), which lies closest to the teeth (5), and the respective inner end (7a) of the auxiliary shaft (7), for the facilitated movement of the agricultural products propelled by the auger (6) toward the teeth (5).

Disclosed are methods and systems for determining the amount of material contained in a windrow. In particular embodiments, the methods and systems are applicable to agricultural applications, and in particular to hay yield monitoring. Systems include a remote sensing technology to determine windrow height. Remote sensing methods can include ultrasonic sensors, optical sensors, and the like. Systems can provide real time yield data.

A harvesting device for agricultural products having an elongated shape, includes a frame having a main extension direction, a plurality of harvesting elements for agricultural products, each including an elongated harvesting prong, a plurality of bands attached to the frame, arranged along the main extension direction and spaced apart so that each harvesting element is at least partially interposed between two successive bands. A transport path includes a first section, where a prong portion radially outside the band has a constant or increasing size, and a second section, where a prong portion radially outside the band has a decreasing size to a disengagement point. A plurality of sorting members is each associated to a band and positioned below the band, along the second section of the transport path, in which each sorting member is rotatable about its central axis.

An agricultural implement system includes an agricultural implement and a controller. The agricultural implement includes: a chassis; a pickup carried by the chassis and configured to rotate and convey crop material; a movable windguard carried by the chassis; and a windguard displacement sensor associated with the windguard and configured to output windguard displacement signals corresponding to a displacement of the windguard relative to a zero position. The controller is configured to: determine a plug condition exists when the displacement of the windguard exceeds a defined displacement; and output at least one plug condition mitigation signal to adjust at least one parameter of the agricultural implement system and mitigate the plug condition responsively to determining the plug condition exists.

Pick-up devices of a forage implement such as a round baler may include stripper bands that define slots between the stripper bands to allow tines to pass through during rotation of the tines. The pick-up device may include a back-plate for attaching stripper bands that includes chambers to receive the bands.

A baler including a frame, a compression system coupled to the frame, the compression system at least partially defining a compression chamber, a feed pan at least partially defining a pre-compression chamber, where the pre-compression chamber is in operable communication with the compression chamber, a first driven output shaft rotatable about a first axis of rotation, a second driven output shaft rotatable about a second axis of rotation, a lifting fork movable with respect to the pre-compression chamber and at least partially positionable therein, where rotation of the first driven output shaft, the second driven output shaft, or any combination thereof causes the lifting fork to move with respect to the pre-compression chamber, and where the first driven output shaft is operable independently of the second driven output shaft.