A round baler includes a first roller and a second roller that define a gap therebetween and are arranged to position forming belts immediately adjacent to a baling chamber. A third roller is arranged to position the forming belts radially outward of the baling chamber. The forming belts move along a belt path in sequence from the first roller, to the third roller, and then to the second roller, such that the baling chamber is not bounded by the forming belts in the gap between the first roller and the second roller. A net guide is radially supported by both the first roller and the second roller and laterally positioned between an adjacent pair of the forming belts. The net guide extends across the gap to guide a net material across the gap and prevent the net material from following the forming belts away from the baling chamber.

The invention relates to a belt (1) with a first belt end (11) and a second belt end (12), both belt ends (11, 12) being connected together. The belt (1) is characterized in that the first belt end (11) has at least one first segment (13) and a second segment (14), and the second belt end (12) has at least one first segment (15) and a second segment (16). The first segment (13) of the first belt end (11) is connected to the first segment (15) of the second belt end (12) by means of at least one connection element (17), and the second segment (14) of the first belt end (11) is connected to the second segment (16) of the second belt end (12) by means of at least one other connection element (17), wherein the first segment (13) of the first belt end (11) is offset in the longitudinal direction (X) in some sections relative to the second segment (14) of the first belt end (11), and the first segment (15) of the second belt end (12) is offset in the longitudinal direction (X) in some sections relative to the second segment (16) of the second belt end (12).

The present disclosure relates to a belt as a continuous traction means for conveyor belts of bale presses, comprising at least one fabric layer embedded at least in certain regions in a polymer layer, for creating a continuous belt reinforced by at least one fabric layer. The present disclosure provide that cross-stiffening elements are embedded in the polymer layer, for increasing a transverse rigidity of the belt, whereby the cross-stiffening elements are essentially oriented in a transverse direction of the belt, and the belt exhibits, at least in the region of the cross-stiffening elements, a ratio of rigidity between the transverse rigidity and a longitudinal rigidity of at least 2:1.

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 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.

A round baler includes a first roller and a second roller that define a gap therebetween and are arranged to position forming belts immediately adjacent to a baling chamber. A third roller is arranged to position the forming belts radially outward of the baling chamber. The forming belts move along a belt path in sequence from the first roller, to the third roller, and then to the second roller, such that the baling chamber is not bounded by the forming belts in the gap between the first roller and the second roller. A net guide is radially supported by both the first roller and the second roller and laterally positioned between an adjacent pair of the forming belts. The net guide extends across the gap to guide a net material across the gap and prevent the net material from following the forming belts away from the baling chamber.

Crop conveyor systems having an enhanced resistance to crop material build-up and suitable for usage in agricultural machines, such as round balers, include a conveyor belt run extending along a primary direction of belt travel, as well as a runner assembly adjacent the conveyor belt run. The runner assembly includes, in turn, elongated runners extending substantially parallel to the primary direction of belt travel and spaced along a lateral axis perpendicular to the primary direction of belt travel. Belt guide surfaces are provided on the elongated runners and face the conveyor belt run. The belt guide surfaces have convex surface regions in a first section plane parallel to the lateral axis and perpendicular to the primary direction of belt travel. The convex surface regions increase conformity between the belt guide surfaces and the conveyor belt run to reduce crop build-up on the elongated runners during usage of the build-up resistant crop conveyor system.

A bale wrap includes a wrapping layer configured to wrap around a bale of agricultural product, such that a first portion of the wrapping layer overlaps a second portion of the wrapping layer. Additionally, the bale wrap includes an adhesive layer embedded on or in the wrapping layer and configured to be activated by an adhesive activation mechanism. Activation of the adhesive layer enables the adhesive layer to bond the first portion of the wrapping layer to the second portion of the wrapping layer.

A bale wrapping system includes a bale chamber configured to receive agricultural product and a belt configured to be disposed within the bale chamber. The belt is configured to be positioned between a bale wrap and an interior surface of the bale chamber while the belt is disposed within the bale chamber. Additionally, the belt is configured to support the bale wrap and to move into the bale chamber due to a weight of the agricultural product on the bale wrap. Further, the belt is configured to compact the agricultural product within the bale wrap, such that a bale of the agricultural product at least partially surrounded by the bale wrap is formed within the bale chamber.

In a first aspect, the present invention relates to a flat belt as an endless traction means suitable for conveyor belts, wherein the flat belt has no fabric insert in the force transmission region and optionally no fabric insert in the back of the belt. In a further aspect, a method for producing a flat belt as an endless traction means is provided. This method is a multistage method involving the steps of forming a flat belt with a main body and endless tension member elements, present therein, by means of a rotary vulcanization process, and subsequently forming at least a part of the force transmission region on the flat belt obtained by the rotary vulcanization process. Furthermore, drive means for conveyor belts, comprising a flat belt according to the invention are provided, and agricultural machines having a conveying device, designed to convey agricultural harvested material, having a flat belt or conveyor belt according to the invention.