A self-propelled harvester is disclosed. The self-propelled harvester includes a mounting device, which has a feed means for harvested material, for mounting an attachment on the harvester. An adapter unit may be detachably arranged between the mounting device and the attachment, such that the adapter unit is designed to couple the attachment to the mounting device. Further, the adapter unit may be configured to adjust an inclination of the attachment with respect to the mounting device in the longitudinal direction and in the transverse direction.

A self-propelled harvester is disclosed. The self-propelled harvester includes a mounting device, which has a feed means for harvested material, for mounting an attachment on the harvester. An adapter unit may be detachably arranged between the mounting device and the attachment, such that the adapter unit is designed to couple the attachment to the mounting device. Further, the adapter unit may be configured to adjust an inclination of the attachment with respect to the mounting device in the longitudinal direction and in the transverse direction.

A conveyor feeder assembly is provided herein, wherein the assembly may include a house chain slat having a brush assembly that provides sufficient grasp without having a damaging effect upon the crops, wherein the crop throughput is improved while reducing damage to the crop. In a combine for harvesting a crop bearing grain, a mechanism for conveying grain from a harvesting platform to a separator mechanism may include a plurality of slats secured to continuous conveyor chains coupled around a traverse drum and a sprocket drive means. Each slat may include the brush assembly, which may comprise at least one row of flexible members coupled to a brush base. The flexible members may be arranged in tufts and received in stepped openings through the brush base. The flexible members may include at least one row of straight or curved brush bristles; or at least one row of curved elongated fingers.

A combine including a conveyor feeder assembly is provided herein, wherein the assembly may include a house chain slat made of non-metal material and/or having a brush assembly that provides sufficient grasp without damaging the crop. Ultimately, the design of the combine improves crop throughput, while reducing damage to the crop. Within the combine for harvesting crop, the conveyor that carries crop from a harvesting platform to a secondary feeding mechanism may include a plurality of slats secured to continuous conveyor chains coupled around a traverse drum and a sprocket drive means. Each slat may include the brush assembly, which may comprise at least one row of finger members selected from a group consisting of rigid, semi-rigid, and flexible materials. These members may include cylindrical, flat, and/or elongated fingers. The finger members may also include straight/curved bristles arranged in tufts and received in stepped openings through a brush base.

A work vehicle includes: a chassis; a housing carried by the chassis and including a cowl; a power take-off extending through the cowl and configured to connect to a power source; and an attachment movably coupled to the housing and including: at least one driven element coupled to the power take-off; and a shield assembly associated with and covering the power take-off. The shield assembly includes a rigid section defining a first diameter and a flexible section coupled to the rigid section and defining a second diameter that is greater than the first diameter. The flexible section is configured to fit over and maintain overlap with the cowl during tilting of the attachment.

A work vehicle includes: a chassis; a housing carried by the chassis and including a cowl; a power take-off extending through the cowl and configured to connect to a power source; and an attachment movably coupled to the housing and including: at least one driven element coupled to the power take-off; and a shield assembly associated with and covering the power take-off. The shield assembly includes a rigid section defining a first diameter and a flexible section coupled to the rigid section and defining a second diameter that is greater than the first diameter. The flexible section is configured to fit over and maintain overlap with the cowl during tilting of the attachment.

A self-propelled forage harvester corn head adapter allows a self-propelled forage harvester to utilize a corn head of the type used to harvest corn with a combine. The adapter includes a frame configured for coupling to a self-propelled forage harvester. A central panel is coupled to the frame and has an opening extending through the central panel. A lower roller assembly has a lower roller positioned to extend along a lower edge of the opening. An upper roller assembly extends across the opening having an upper roller being parallel to the lower roller assembly. The upper roller assembly is movably coupled relative to the central panel such that spacing between the upper roller and the lower roller is adjustable.

An agricultural harvesting header includes a first frame portion and a second frame portion moveably connected to the first frame portion. An upper control arm is pivotally connected to the first frame portion and pivotally connected to the second frame portion. A lower control arm pivotally connected to the first frame portion and pivotally connected to the second frame portion. The connection between the first frame portion, second frame portion, upper control arm, and a lower control arm forms a roll center positioned at or below ground level.

An agricultural harvesting header includes a first frame portion and a second frame portion moveably connected to the first frame portion. An upper control arm is pivotally connected to the first frame portion and pivotally connected to the second frame portion. A lower control arm pivotally connected to the first frame portion and pivotally connected to the second frame portion. The connection between the first frame portion, second frame portion, upper control arm, and a lower control arm forms a roll center positioned at or below ground level.

An agricultural harvester comprises a feederhouse pivotally attached to a chassis, where the feederhouse defines a conduit for conveying crop material rearwardly from a front opening. A header interface frame is pivotally mounted to the feederhouse over the front opening to permit header pitch adjustment around a pitch adjustment axis. Upper and lower linear actuators are connected on one side of the feederhouse between the feederhouse and interface frame to control the pitch adjustment.