A conveyor belt has one or more conveyor belt segments made of an elastomeric material layer and a reinforcement layer of steel ropes disposed in the elastomeric material layer and oriented in a longitudinal direction of the conveyor belt segment. The conveyor belt segments each have a first segment end provided with a first transverse lock bar and a second segment end provided with a second transverse lock bar, wherein ends of the steel ropes are locked frictionally or with form fit in the first and second transverse lock bars, respectively. One or more detachable closure members couple the first and second transverse lock bars of a single one or of adjacently positioned ones of the conveyor belt segments to each other in a rigid correlation relative to each other.

A stripper device, for reducing adhesions on a movable part of a baler including a pressing apparatus interacting with a bale, has a scraper bar carrier with a scraping bar, wherein the scraping bar carrier can be movably connected to the baler and has a first position, in which the scraping bar is operatively abutted against the pressing apparatus, and a second position, in which the scraping bar is withdrawn from the pressing apparatus, wherein the scraping bar assumes the second position cyclically.

A baling device to form bales of crop material, including a frame, an intake device, a bale forming device for forming a bale of the crop material, the bale forming device including at least one endless belt to delimit a baling chamber, and a number of guiding elements to guide the endless belt, the outlet of the intake device is located at a fixed position with respect to the frame, and at least three guiding elements are movably mounted with respect to the outlet of the intake device to position for subsequent bales different pairs of two guiding elements of the at least three movable guiding elements at the opposite sides of the outlet.

A baling device to form bales of crop material, including a frame, an intake device, a bale forming device for forming a bale of the crop material, the bale forming device including at least one endless belt to delimit a baling chamber, and a number of guiding elements to guide the endless belt, the outlet of the intake device is located at a fixed position with respect to the frame, and at least three guiding elements are movably mounted with respect to the outlet of the intake device to position for subsequent bales different pairs of two guiding elements of the at least three movable guiding elements at the opposite sides of the outlet.

A feeding mechanism for a crop baler having a leaf forming chute, quick feeding mechanism, hay guides, hay gates, hay leaf divider drum and a control mechanism to stop and start the rotation of the divider drum. The leaf forming chute guides the crop from the packing crank to the middle of the bale chamber. The quick feeding device moves hay from the divider drum to the compression area above or below the compression roller. A control devise stops and starts the rotation of the divider drum causing an equal amount of hay to be placed in the top of the bale as compared to the bottom of the bale. The same control devise to stop the rotation of the divider drum and to stop the movement of hay to the compression area during the tying cycle.

A feeding mechanism for a crop baler having a leaf forming chute, quick feeding mechanism, hay guides, hay gates, hay leaf divider drum and a control mechanism to stop and start the rotation of the divider drum. The leaf forming chute guides the crop from the packing crank to the middle of the bale chamber. The quick feeding device moves hay from the divider drum to the compression area above or below the compression roller. A control devise stops and starts the rotation of the divider drum causing an equal amount of hay to be placed in the top of the bale as compared to the bottom of the bale. The same control devise to stop the rotation of the divider drum and to stop the movement of hay to the compression area during the tying cycle.

The invention relates to a belt (1) as a continuous traction means, in particular for conveyor belts of agricultural machines, in particular baling presses, comprising at least one fabric layer (2) embedded, at least in certain regions, in a polymer layer (3), in particular rubber layer, whereby end regions (1a, 1b) of the belt (1) lie flat on top of one another in an overlap region (4) and are connected to each other for creating a continuous belt (1) reinforced by the fabric layer (2). According to the invention, it is provided that the end regions (1a, 1b) of the belt (1) are connected to each other by at least one thread (7) forming a seam (9), whereby, to that end, said at least one thread (7) penetrates the end regions (1a, 1b) of the belt (1) in a seam region (6) in several stitches (8), whereby the fabric layer (2) of the belt (1) is embedded in the polymer layer (3) at least across said seam region (6), and the thread (7) is embedded in transition regions (20) between the stitches (8) into the polymer layer (3) in such a manner shallowly at a depth of penetration (T) that the thread (7) runs below surfaces (10a, 10b) of the belt (1).

A pickup unit of an agricultural baler that includes a frame, at least one draper belt, at least one belt actuator operably connected to the at least one draper belt, a first auger and a second auger each being rotatably connected to the frame and located above the at least one draper belt, and a first and a second auger actuator respectively operably connected to the first and second auger. The pickup unit also includes an electrical processing circuit operably connected to and configured for adjusting the at least one belt actuator, the first auger actuator, and the second auger actuator so that a rotational speed of the at least one draper belt, the first auger, and/or the second auger is increased or decreased to evenly distribute the crop material as the crop material is transported to the bale chamber.

A pickup unit of an agricultural baler that includes a frame, at least one draper belt, at least one belt actuator operably connected to the at least one draper belt, a first auger and a second auger each being rotatably connected to the frame and located above the at least one draper belt, and a first and a second auger actuator respectively operably connected to the first and second auger. The pickup unit also includes an electrical processing circuit operably connected to and configured for adjusting the at least one belt actuator, the first auger actuator, and the second auger actuator so that a rotational speed of the at least one draper belt, the first auger, and/or the second auger is increased or decreased to evenly distribute the crop material as the crop material is transported to the bale chamber.

A bale chamber of an agricultural round baler. The bale chamber includes a main frame, a plurality of rollers, and at least one belt engaging with at least one roller of the plurality of rollers. The at least one belt and the plurality of rollers are together configured for creating a round circulating chamber. The bale chamber also includes a subframe movably connected to the main frame and at least one follower roller pivotally connected to the subframe at a first pivot axis. The at least one follower roller engages with the at least one belt. The subframe is configured for moving during formation of the bale so that the at least one follower roller moves in between a first position at the empty bale position of the circulating chamber and a second position at the full bale position of the circulating chamber.