The invention relates to a harvesting apparatus, namely a merger or a pickup swather, according to the preamble of claim 1.
EP 2 979 529 B1 discloses an agricultural harvesting apparatus designed as a merger. Mergers are also referred to as pickup swathers. According to this prior art, the harvesting apparatus designed as a merger has a supporting frame and has a chassis. Furthermore, the harvesting apparatus designed as a merger has pickup members designed as pickups for picking up harvested crop and transverse conveyor devices designed as belt conveyors for transversely conveying the picked-up harvested crop. The supporting frame has a longitudinal member and has crossmembers, wherein the pickup members and transverse conveyor devices are accommodated on the crossmembers. The pickup members and transverse conveyor devices are foldable in order to transfer the harvesting apparatus designed as a merger between a working position and a transport position. The agricultural harvesting apparatus designed as a merger can be coupled to a tractor via a drawbar engaging on the supporting frame.
Whenever a harvesting apparatus designed as a merger or pickup swather is used for cultivating an uneven underlying surface, under some circumstances not all of the harvested crop can be picked up from the underlying surface. This is because, in the case of mergers or pickup swathers known to date, adaptation to the ground is possible only to a limited extent, if at all. There is therefore a need for a harvesting apparatus which is designed as a merger or pickup swather and which has improved adaptation to the ground in order to be able to cultivate even an uneven underlying surface with greater quality.
Taking this as the starting point, the present invention is based on the object of providing a novel harvesting apparatus designed as a merger or pickup swather.
This object is achieved by a harvesting apparatus according to claim 1.
According to the invention, each pickup member designed as a pickup is mounted pivotably on a respective transverse conveyor device designed as belt conveyor, namely centrally with respect to the respective pickup member via a respective joint.
By this means, it is possible for each pickup member to be able to carry out adaptation to the ground individually. This is possible with simple structural means. The cultivation quality when cultivating an uneven underlying surface can be significantly improved. More harvested crop can be reliably picked up from the underlying surface.
According to an advantageous development, an axis of rotation of the respective joint runs in the harvesting direction or direction of travel. The respective joint preferably has a cylindrical or tubular support which engages centrally on the respective pickup member and extends into a recess in the respective transverse conveyor device, in which said support is mounted pivotably. This permits individual adaptation to the ground for each pickup member with simple structural means.
According to an advantageous development, an adjustment kinematics system interacts with each pickup member in order to change a relative position between the respective pickup member and feeler wheels. The respective adjustment kinematics system preferably has a linearly shiftable rod via which, in a first shifting direction of the rod, the respective pickup member can be lowered, in particular relative to the respective feeler wheels, and via which, in a second shifting direction of the rod, the respective pickup member can be raised, in particular relative to the respective feeler wheels. The individual adaptation of each pickup member to the ground can thereby be further improved.
Preferred developments of the invention emerge from the dependent claims and the description below. Exemplary embodiments of the invention, without being restricted thereto, will be explained in more detail with reference to the drawing, in which:
The invention relates to a harvesting apparatus designed as a merger. Such a harvesting apparatus is also referred to as a pickup swather and substantially comprises at least one pickup member, which picks up harvested crop from the ground, and a transverse conveyor device, which interacts with the pickup member and conveys the harvested crop received from the pickup member transversely with respect to the harvesting direction or direction of travel.
The harvesting apparatus 10 shown in
The harvesting apparatus 10 shown in
The harvesting apparatus 10 furthermore has pickup members 18 and transverse conveyor devices 19. The pickup members 18 of the harvesting apparatus 10 are designed as what are referred to as pickups and serve for picking up harvested crop from the field/underlying surface. At least one pickup member 18 is arranged on a first side of the longitudinal member 12, and at least one pickup member 18 is arranged on a second side of the longitudinal member 12.
Preferably, as shown in
The pickup members 18 have pickup tines 20 which are driven about an axis extending transversely with respect to the harvesting direction or direction of travel in order to pick up the harvested crop from the underlying surface to be cultivated or to be driven over.
In the working position of the harvesting apparatus 10, each of the pickup members 18 is supported via feeler wheels 21 on the underlying surface to be cultivated. In the headland position and transport position of the harvesting apparatus 10, the feeler wheels 21 are lifted off from the underlying surface to be cultivated.
As already explained, the harvesting apparatus 10 has the transverse conveyor devices 19 in addition to the pickup members 18.
The transverse conveyor devices 19 of the harvesting apparatus 10 are designed as belt conveyors, wherein the transverse conveyor devices 19 can be used to transport the harvested crop picked up via the pickup members 18 from the underlying surface to be cultivated in a transverse conveyor direction 19 extending transversely or perpendicularly with respect to the harvesting direction or direction of travel.
At least one transverse conveyor device 19 is arranged on the first side of the longitudinal member 12, and at least one further transverse conveyor device 19 is arranged on the second side of the longitudinal member 12, wherein both of said transverse conveyor devices 19 are designed as belt conveyors.
Preferably, as shown in
As can be gathered from the drawings, the transverse conveyor devices 19 are arranged behind the pickup members 18, as seen in the harvesting direction or direction of travel of the harvesting apparatus.
The invention is not restricted to the harvesting apparatus 10 which is shown in
In order to permit optimum adaptation to the ground for the harvesting apparatus 10 when an underlying surface to be cultivated is uneven, each pickup member 18 designed as a pickup is mounted on a respective transverse conveyor device 19, designed as a belt conveyor, so as to be pivotable individually, namely centrally with respect to the respective pickup member 18 via a respective joint 22.
Each of the pickup members 18 designed as pickups is, as already explained, mounted pivotably on the respective transverse conveyor device 19 designed as a belt conveyor. Each pickup member 18 can therefore be individually oriented with respect to the respective transverse conveyor device 19 for the purpose of adaptation to the ground on an underlying surface to be cultivated.
With respect to the respective pickup member 18, the respective pickup member 18 is mounted pivotably centrally on the respective transverse conveyor device 19, namely via in each case a joint 22. Said joint 22 is discussed below with reference to the exploded illustrations of
The respective joint 22 for the individual pivotable mounting of the respective pickup member 18 on the respective transverse conveyor device 19 comprises a cylindrical or tubular support 23 which engages centrally on the respective pickup member 18 with respect to the width of the respective pickup member 18. Said cylindrical or tubular support 23 extends into a recess 24 in the respective transverse conveyor device 19, in which the cylindrical or tubular support 23 is mounted pivotably, in particular via bearings positioned in the respective recess 24.
An axis of rotation or pivot axis of the respective joint 22 runs in the harvesting direction or direction of travel and thus, in
In order to further improve the adaptation of the respective pickup member 18 to the ground, a relative position between the respective feeler wheels 21 and the respective pickup member 18 can be adjusted via an adjustment kinematics system 25. The respective adjustment kinematics system 25 here has a linearly shiftable rod 26 which, like the cylindrical or tubular support 23, engages centrally on the respective pickup member 18 with respect to the width of the respective pickup member 18 and extends below the respective support 23 or runs below the respective support 23. A first end of said rod 26 engages on a lever 27 of the pickup member 18, which lever also engages on an axle 28 accommodating the feeler wheels 21. An opposite second end of the rod 26 is guided in a tab 29 which engages on a side of the respective transverse conveyor device 19 facing away from the pickup members 18.
By shifting of the respective rod 26 in a first linear shifting direction, the respective pickup member 18 can be lowered, in particular relative to the respective feeler wheels 21. This takes place whenever the rod 26 is pulled, as seen from the transverse conveyor device 19, i.e. whenever a tensile force is exerted on the rod 26, the tensile force being oriented in such a manner that the respective force vector points from the respective pickup member 18 in the direction of the respective transverse conveyor device 19. By shifting of the rod 26 in an opposite second shifting direction, the respective pickup member 18 can be raised relative to the respective feeler wheels 21, namely whenever a shear force is exerted on the respective rod 26, the force vector of which shear force points from the respective transverse conveyor device 19 in the direction of the respective pickup member 18.
The invention permits optimum adaptation to the ground of the harvesting apparatus designed as a merger or pickup swather to an underlying surface to be cultivated. Each pickup member 18 designed as a pickup can rotate individually relative to the respective transverse conveyor device 19 designed as a belt conveyor. By this means, even if the underlying surface to be cultivated is uneven, harvested crop can be readily picked up by the pickup members 18 of the harvesting device 10 and transferred to the respective transverse conveyor device 19.
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