Header with Laterally Foldable Reel Tines

Abstract

A header for a harvester has a reel extending transverse to a working direction of the header. The reel has reel rake tubes distributed circumferentially about the reel. Reel tines are fastened to the reel rake tubes. At least some reel tines are rotatably supported in bearings at the reel rake tubes and can rotate about a rotation axis along a movement path, predetermined by a control, from a neutral position into an evasion position and back. The evasion position corresponds to a spatial position in which a free end of the reel tines has moved in a direction corresponding to a conveying direction of the conveying device in the region of the reel tines. A distance of the free end to the reel rake tube in evasion position is reduced in relation to a distance of the free end to the reel rake tube in neutral position.

Claims

1. A header configured to attachment to a harvesting machine, the header comprising: a frame; a cutter bar arranged at a front side of the header; a receiving surface configured to receive a cut crop; conveying devices configured to convey the cut crop; a reel rotatably driven and movably connected to the frame, wherein the reel extends in a direction transverse to a working direction of the header; wherein the reel comprises a plurality of reel rake tubes distributed about a circumference of the reel in a rotational direction of the reel; wherein the reel comprises reel tines fastened to the reel rake tubes; wherein at least some of the reel tines are rotatably supported in a respective bearing at the respective reel rake tube and configured to carry out a rotational movement about a rotation axis along a movement path from a neutral position into one or more evasion positions and back again into the neutral position, wherein the movement path is predetermined by a control; wherein the one or more evasion positions in relation to the neutral position correspond to a spatial position of the respective reel tine, wherein in the spatial position a free end of the respective reel tine has moved in a direction corresponding to a conveying direction of one of the conveying devices arranged in a region of the respective reel tine, and wherein a distance of the free end of the respective reel tine relative to the respective reel rake tube is reduced in relation to a distance of the free end of the respective reel tine relative to the respective reel rake tube in the neutral position.

2. The header according to claim 1, wherein in the spatial position the free end of the respective reel tine is also moved forwardly or rearwardly in relation to the rotational direction of the reel.

3. The header according to claim 1, wherein a movability of the respective reel tine from the neutral position in a direction opposite to or corresponding to the conveying direction of said of one of the conveying devices arranged in the region of the respective reel tine is locked by a stop.

4. The header according to claim 1, wherein the control comprises a pivot axis forming the rotation axis, wherein the pivot axis is not oriented parallel to a longitudinal extension direction of the respective reel rake tube.

5. The header according to claim 1, wherein the control comprises a stationary glide surface that is positioned at a slant to the rotation axis and configured as a control gate, wherein the respective reel tine comprises a support surface, wherein the support surface is held on the glide surface and configured to glide on the glide surface when the respective reel tine rotates about the rotation axis.

6. The header according to claim 1, wherein the respective reel tine is movable against a force of gravity out of the neutral position into the one or more evasion positions.

7. The header according to claim 1, wherein the respective reel tine is connected to a force store configured to build up a restoring force when the respective reel tine moves from the neutral position into the one or more evasion positions.

8. The header according to claim 1, wherein the respective reel tine is configured to be locked by a holder in the neutral position and/or in one or more of the evasion positions.

9. The header according to claim 1, wherein the one or more evasion positions include a maximally reachable evasion position that is delimited by a stop, wherein the free end of the respective reel tine in the maximally reachable evasion position is deflected by up to 75° from the neutral position in a direction transverse to the working direction of the header.

10. The header according to claim 1, wherein the respective reel tine is configured to move out of the neutral position into the one or more evasion positions by a force≥5 N acting on the respective reel tine in a direction corresponding to the conveying direction of said one of the conveying devices arranged in the region of the respective reel tine.

11. A reel tine comprising: a free end and an opposite end opposite the free end; a bearing, wherein the opposite end is rotatably supported about a rotation axis in the bearing; wherein the bearing comprises a fastening eye with a cavity configured to receive a reel rake tube, wherein the cavity comprises a longitudinal center axis having an orientation corresponding to an extension direction of the reel rake tube to be received in the cavity; wherein a rotational movement of the reel tine in the bearing is realized about the rotation axis in a rotational direction along a movement path from a neutral position into one or more evasion positions and back again into the neutral position, wherein the movement path is predetermined by a control; wherein the reel tine is configured to move in the rotational direction and to be stiff in an axial direction of the rotation axis.

12. The reel tine according to claim 11, wherein the control comprises a pivot axis forming the rotation axis, wherein the pivot axis is not oriented parallel to the extension direction of the reel rake tube to be received in the cavity.

13. The reel tine according to claim 11, wherein the control comprises a stationary glide surface that is positioned at a slant to the rotation axis and configured as a control gate, wherein the reel tine comprises a support surface, wherein the support surface is held on the glide surface and configured to glide on the glide surface when the reel tine rotates about the rotation axis.

14. The reel tine according to claim 11, wherein a movability of the reel tine away from the neutral position is locked by a stop.

15. The reel tine according to claim 11, wherein the reel tine is connected to a force store configured to build up a restoring force when the reel tine moves from the neutral position into the one or more evasion positions.

16. The reel tine according to claim 11, wherein the reel tine is configured to be locked by a holder in the neutral position and/or in the one or more evasion positions.

17. The reel tine according to claim 11, wherein the one or more evasion positions include a maximally reachable evasion position that is delimited by a stop, wherein the free end of the reel tine in the maximally reachable evasion position is deflected by up to 75° from the neutral position in the rotational direction.

18. The reel tine according to claim 11, wherein the reel tine is configured to move out of the neutral position into the one or more evasion positions by a force≥5 N acting on the reel tine in the rotational direction.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] The invention will now be explained in more detail with the aid of a preferred embodiment as well as with reference to the attached drawings.

[0023] FIG. 1 shows a harvesting machine with a header attached to the front side.

[0024] FIG. 2 shows a view of a reel tine with two extreme pivot positions.

[0025] FIG. 3 shows a view of a reel rake tube with reel tines that are vertically suspended.

[0026] FIG. 4 shows a view of the reel rake tube illustrated in FIG. 3 in which the free ends of the reel tines are pivoted to the side.

[0027] FIG. 5 shows a view of an individual reel tine, not pivoted.

[0028] FIG. 6 shows a view of the reel tine illustrated in FIG. 5 in a pivot position.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0029] In FIG. 1, a harvesting machine 2 with a header 4 attached to the front side is illustrated. The header 4 comprises a cutter bar 6 with which the harvesting machine 2 moves into the standing crop in working direction A and cuts the crop. The cut crop falls onto the receiving surface 8 from where it is conveyed in conveying direction F with a conveying device 10 in the direction of the receiving members of the harvesting machine 2. In the illustrated embodiment, the receiving surface 8 is the top face of an endlessly circulating belt conveyor which forms the conveying device 10 in the embodiment. The header 4 in the embodiment is a draper header; the invention can also be used in all other known header types that comprise a reel. In particular, the present invention is usable also in headers 4 with rigid screw conveyors arranged therein as a conveying device 10. For a header 4 of the draper type, it should be noted that the problem with conveying tines 16 that are disruptive for the transverse conveying action applies only to the outwardly positioned conveyor belts because they convey the crop transversely to the working direction of the combine. The central belt conveys the crop placed thereon directly to the rear in the direction of the slanted conveying channel of the combine so that here the problem of reel tines that convey in a direction transverse to the conveying direction of the crop does not exist.

[0030] So that the crop does not fall underneath the header 4 after it has been cut by the cutter bar 6 and prior to it having fallen onto the receiving surface 8, the reel 12 supports the crop in this phase. The reel 12 is held at height-adjustable support arms. The reel 12 is held at the support arms so as to be longitudinally adjustable. The reel 12 is driven in rotation in the rotational direction 20 wherein the rotary speed is adjustable. In case of some headers 4, also the setting angle of the reel tines 16 fastened to the reel rake tube 14 is selectively adjustable as needed. Each reel tine 16 is connected by a bearing 18 to the reel rake tube 14. At its end which is remote from the bearing 18, the free end 22 of the respective reel tine 16 is located.

[0031] FIG. 2 shows a view of a reel tine 16 with two extreme pivot positions: a first neutral position 28 and a second evasion position 30. Between these two extreme positions, the reel tine 16 is movable about a rotation axis 24 along a movement path 26 which is predetermined by a control 32. As control 32, in the illustrated embodiment a pivot axis 38 is used which is held in a corresponding cutout in the bearing 18. Stops 36 prevent that the reel tine 16 can pivot into pivot positions in which it is no longer active with respect to conveyance.

[0032] FIG. 3 shows a view of a reel rake tube 14 with vertically suspended reel tines 16. In this pivot position, the free ends 22 of the reel tines 16 extend as much as possible downwardly. In rotational direction 20 of the reel 12, the reel tines 16 are rigid while in conveying direction F they are pivotable about the rotation axis 24 when crop moved in conveying direction F brushes against the free ends 22 of the reel tines 16.

[0033] In FIG. 4 a view of the reel rake tube 14 illustrated in FIG. 3 is shown in which the free ends of the reel tines 16 are pivoted correspondingly in conveying direction F. When comparing FIGS. 3 and 4, it is apparent that the reel tines 16 leave much more free space below the reel rake tube 14 so that a stack of crop can be conveyed through this free space without being hindered in doing so by the free ends 22 of the reel tines 16. The length of the reel tines 16 by which they are suspended downwardly vertically in the neutral position is available upon pivoting to the side almost completely as additional height of the intermediate space between the reel rake tube 14 and the ground of the field or the cutter bar 6.

[0034] In FIG. 5, a view of an individual reel tine 16 in a non-pivoted position is shown. In this view, the fastening eye 40 can be seen well via which the bearing 18 can be connected to the reel rake tube 14. The fastening eye 40 comprises a cavity 42 with a longitudinal center axis 44 that serves for receiving a reel rake tube 14 when the reel tine 16 is to be attached thereto.

[0035] In FIG. 6, a view of the reel tine 16 illustrated in FIG. 5 is illustrated in a pivot position. In this pivot position, the reel tine 16 is held such that it almost contacts in parallel the reel rake tube 14.

[0036] The invention is not limited to the aforementioned embodiments. A person of skill in the art will have no difficulties to modify the embodiments in a manner appearing suitable to him in order to adapt them to a concrete application situation.

LIST OF REFERENCE CHARACTERS

[0037] 2 harvesting machine [0038] 4 header [0039] 6 cutter bar [0040] 8 receiving surface [0041] 10 conveying device [0042] 12 reel [0043] 14 reel rake tube [0044] 16 reel tine [0045] 18 bearing [0046] 20 rotation direction of the reel [0047] 22 free end [0048] 24 rotation axis [0049] 26 movement path [0050] 28 neutral position [0051] 30 evasion position [0052] 32 control [0053] 36 stop [0054] 38 pivot axis [0055] 40 fastening eye [0056] 42 cavity [0057] 44 longitudinal center axis [0058] A working direction [0059] F conveying direction