Soil cultivation device

Abstract

A roller for agricultural soil cultivation has at least one support body rotatably mounted about an axis of rotation and multiple compaction rings arranged spaced apart from one another next to one another on the support body and intermediate rings arranged between adjacent compaction rings. At least two intermediate rings have a different diameter and/or a different width.

Claims

1.-13. (canceled)

14. A roller for agricultural soil cultivation, comprising: a support body (18) rotatably mounted about an axis of rotation (22); multiple compaction rings (24) arranged spaced apart from one another next to one another on the support body (18) for compacting the soil; and intermediate rings (26, 28) arranged between adjacent compaction rings (24), wherein at least two of the intermediate rings (26, 28) have a different diameter (d1, d2) and/or a different width (b1, b2).

15. The roller according to claim 14, wherein the intermediate rings (26, 28) comprise a first intermediate ring (26) with a first diameter (d1) and a first width (b1) and a second intermediate ring (28) with a second diameter (d2) and a second width (b2), wherein the first diameter (d1) is smaller than the second diameter (d1) and/or the first width (b1) is smaller than the second width (b2).

16. The roller according to claim 14, wherein between two adjacent ones of the multiple compaction rings (24) two of the intermediate rings (26, 28) with different diameters (d1, d2) and/or different widths (b1, b2) are arranged.

17. The roller according to claim 14, wherein the multiple compaction rings (24) and/or the intermediate rings (26, 28) are non-positively connected to the support body (18).

18. The roller according to claim 14, wherein the multiple compaction rings (24) and/or the intermediate rings (26, 28) are positively connected to the support body (18).

19. The roller according to claim 14, wherein laterally on at least one of the multiple compaction rings (24) on a support body-side at least one circumferential shoulder (40) for receiving a first of the intermediate rings (26) is formed.

20. The roller according to claim 14, wherein laterally on at least one of the multiple compaction rings (24) radially outside at least one circumferential mounting (42) for receiving a second intermediate ring (28) is formed.

21. The roller according to claim 15, wherein the first intermediate ring (26) and/or the second intermediate ring (28) is detachably connected to at least one adjacent compaction ring (24) by a connecting element (36).

22. The roller according to claim 14, wherein at least one of the multiple compaction rings (24) is composed of at least two halves (52, 54), which can each be fitted in the axial direction onto the support body (18).

23. The roller according to claim 15, wherein the first intermediate ring (26) is assigned a clearer (32) and/or the second intermediate ring (28) a scraper (34).

24. The roller according to claim 14, wherein on a support body (18) end-side, at least one bearing device (38) is arranged, which comprises an adjustable axial preload force, which makes possible applying a substantially axial force onto the multiple compaction rings (24) and/or the intermediate rings (26, 28).

25. The roller according to claim 14, wherein the roller (10) comprises multiple support bodies (18) each mounted on a main frame (16), which support bodies (18) are connected, so as to be foldable, to one another.

26. An agricultural implement (12) for soil tillage and/or applying granular solids in the form of fertilizer and/or seeds with at least one roller (10) according to claim 14.

27. The agricultural implement according to claim 26, wherein the agricultural implement (12) in a working direction in front of the at least one roller (10) comprises a plurality of ground engagement means (30) in the form of tyres and/or tracks.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] FIG. 1 shows an agricultural implement in the form of a tillage combination for seed application with a roller in a schematic plan view;

[0025] FIG. 2 shows a detailed, rearwards view of a roller from FIG. 1 in working direction; and

[0026] FIG. 3 shows a schematic sectional view of a roller from FIG. 1.

DETAILED DESCRIPTION

[0027] In FIG. 1, an agricultural implement 12 in the form of a tillage combination for seed application is shown in a schematic view from the top. The agricultural implement 12 comprises ground engagement means 30 in the form of tyres arranged on a main frame 16, which are arranged next to one another and substantially cover the working width of the implement 12. The ground engagement means 30 can substantially carry the weight of the implement 12 and can additionally serve for re-compacting and levelling the soil for the subsequent sowing of the seeds. For preparing the seed application by sowing coulters (not shown), a roller 10 following the ground engagement means 30 in the working direction (arrow) is arranged, which likewise extends over the working width of the implement 12 and is arranged in the working direction in front of the sowing coulters. The shown roller 10 is configured in multiple parts and comprises support frames 14, which are each attached to the main frame 16 and are designed so as to be foldable for example for a road transport.

[0028] The roller 10 includes a multiplicity of compaction rings 24 which are arranged next to one another along a support body 18 on the same, wherein between the compaction rings 24 intermediate rings 26, 28 each are arranged. The support body 18 is rotatably mounted about an axis of rotation 22 and connected to the support frame 14 via bridges 20. The compaction rings 24 are each arranged in front of a sowing coulter (not shown) and serve for the row pre-compaction for the subsequent application of the seeds by the sowing coulters into each of the pre-compacted rows. Because of the mounting of the ground engagement means 30 on the main frame 16, a gap each is formed between the ground engagement means 30, so that the soil between the ground engagement means 30 is less re-compacted and levelled and a dam of soil can develop in each case.

[0029] The roller 10 comprises at least two intermediate rings 26, 28, which have a different diameter d1, d2 and/or a different width b1, b2. The intermediate rings 26, 28 of the roller 10 are designed in the form of a first intermediate ring 26 with a first diameter d1 and a first width b1 and a second intermediate ring 28 with a second diameter d2 and a second width b2. The diameter d1 of the first intermediate ring 26 is smaller than the diameter d2 of the second intermediate ring 28. The first intermediate ring 26 makes possible an easier throughput of the soil between the adjoining compaction rings 24, whereas the second intermediate ring 28 has a lower throughput, but instead makes possible a higher re-compaction and levelling of the soil. In the shown embodiment of the roller 10, each gap between two ground engagement means 30 is assigned a second intermediate ring 28 on the roller 10, while in the remaining working region a first intermediate ring 26 each is arranged between the compaction rings 24. By way of this, the soil can be re-compacted and levelled by the second intermediate rings 28 for seedbed preparation in the necessary places, wherein substantially the ease of pulling the roller 10 is retained because of the predominant number of first intermediate rings.

[0030] For removing adhering soil, the first intermediate rings 26 are each assigned clearers 32 which are arranged spaced apart from the first intermediate rings 26 and cause only low friction. The second intermediate rings 28 are each assigned scrapers 34, which contact the second intermediate rings 28 or are at least arranged close to these and cause greater friction than the clearers 32. The number of the second intermediate rings 28 can depend on the number of the ground engagement means 30 and the gaps formed between these.

[0031] The roller 10 shown in FIG. 2 is shown in the working direction viewed from the back. The compaction rings 24 are each composed of a first half 52 and a second half 54. The halves 52, 54 can be formed symmetrically and for the assembly can each be slid onto the support body 18. The second intermediate rings 28 arranged between the compaction rings 24 are each assigned a scraper 34 which substantially contacts the second intermediate element 28. The clearers 32 assigned to the first intermediate rings 26 engage less far into the respective space between the compaction rings 24. The clearers 32 and scrapers 34 are each arranged on the support frame 14, which is arranged behind the axis of rotation 22 of the roller 10, as a result of which the clearers 32 and scrapers 34 can be configured shorter and more rigid.

[0032] In FIG. 3, a sectional view of a roller 10 from the front is shown, wherein the support frame 14 with the clearers 32 and scrapers 34 is arranged behind the axis of rotation 22 of the roller 10. The compaction rings 24 each composed of two halves 52, 54 are slid onto the support body 18 and each arranged spaced apart from one another by intermediate rings 26, 28. The support body 18 is designed in the form of a square shaft, as a result of which a positive connection of the compaction rings 24 and/or intermediate rings 26, 28, which comprise a profile corresponding to the support body 18 radially inside, with the support body 18 is made possible.

[0033] By way of a bearing device 38 each arranged on the end-side, the support body 18 is rotatably mounted on the bridge 20 and by the same connected to the support frame 14. The bearing device 38 comprises a flange 46 with an angle offset 50 on the support body side, which is connected via a screw connection to an insert 48 arranged in the support body 18. The bearing device 38 can be preloaded in the axial direction via the screw connection, wherein a preload force can be transmitted via the angle insert 50 to the compaction rings 24 and/or intermediate rings 26, 28. This has the advantage that the stiffness and functional safety of the roller 10 can be increased.

[0034] Between the compaction rings 24, first intermediate rings 26 each are arranged on the support body side. The first intermediate rings 26 are each mounted on a shoulder 40 which is formed in the compaction rings 24. In addition to a first intermediate ring 26, a second intermediate ring 28 is arranged between two compaction rings 24 coaxially to a first intermediate ring 26. The second intermediate ring 28 is mounted in the axial direction on both sides in a lateral mounting 42 of the compaction rings 24. Each of the mountings 42 is designed circumferentially in the form of a groove in the compaction rings 24. Furthermore, the compaction rings 24 comprise, in particular between the shoulder 40 and the mounting 42, a lateral recess 44 for at least partially receiving a connecting element 36. By way of the connecting element 36, for example in the form of a bolt, the two adjacent compaction rings 24 are connected and clamped together, as a result of which the second intermediate ring 28 mounted in between is clamped between the compaction rings 24. This has the advantage that the stiffness and functional safety of the roller can be further increased. An arrangement of exactly one intermediate ring 26, 28 each between two compaction rings 24 is also conceivable.

LIST OF REFERENCE NUMBERS

[0035] 10 Roller [0036] 12 Agricultural implement [0037] 14 Support frame [0038] 16 Main frame [0039] 18 Support body [0040] 20 Bridge [0041] 22 Axis of rotation [0042] 24 Compaction ring [0043] 26 First intermediate ring [0044] 28 Second intermediate ring [0045] 30 Ground engagement means [0046] 32 Clearer [0047] 34 Scraper [0048] 36 Connecting element [0049] 38 Bearing device [0050] 40 Shoulder [0051] 42 Mounting [0052] 44 Recess [0053] 46 Flange [0054] 48 Insert [0055] 50 Angle insert [0056] 52 First halve [0057] 54 Second half [0058] d1 First diameter [0059] d2 Second diameter [0060] b1 First width [0061] b2 Second width