SOWING COULTER ARRANGEMENT OF AN AGRICULTURAL MACHINE

Abstract

Disclosed is a sowing coulter arrangement comprising a suspension device for mounting the sowing coulter arrangement on a machine frame; a coulter frame connected to the suspension device for mounting components of the sowing coulter arrangement thereon; and a coulter disk. The arrangement further comprises a furrow closer pivotally mounted on the coulter frame; a metering device for dispensing the material to be distributed; a seed tube for transporting the material to be distributed from the metering device to a seed furrow; and a catching element for catching the material disposed downstream of the outlet of the seed tube. The metering device, the seed tube, and the catching element form a unit and are mounted on a carrier that is pivotably affixed to the coulter frame, whereby an arrangement of an outlet of a seed tube in relation to a catching element is at all times kept largely constant.

Claims

1. A sowing coulter arrangement of an agricultural machine for soil tillage and/or for spreading materials to be distributed, such as seeds, fertilizer, or the like, the sowing coulter arrangement comprising at least: a suspension device for mounting the sowing coulter arrangement on a frame structure; a coulter frame, which is connected to the suspension device, for mounting components of the sowing coulter arrangement thereon; a coulter disk for creating a seed furrow, the coulter disk being disposed in a rotatable manner on the coulter frame, and/or a tine implement for creating a seed furrow; a pressure roller for closing the seed furrow, the pressure roller being pivot-mounted and/or tandem-mounted on the coulter frame and being mounted in a rotatable manner via a pivot point, or furrow-closing implements for closing the seed furrow; a metering device for dispensing in an at least largely separated manner the material to be distributed; a seed tube for transporting the material to be distributed from the metering device to a seed furrow; and a catching element for catching the material to be distributed, with the catching element being disposed downstream of the outlet of the seed tube; characterized in that the metering device, the seed tube, and the catching element form, in particular, an assembly and/or a unit being in an operative connection, and in that they are mounted on a carrier that is pivotably affixed to the coulter frame or to a frame structure, whereby an arrangement of the particular outlet of the seed tube in relation to the particular catching element is at all times kept largely constant.

2. The sowing coulter arrangement as recited in claim 1, with the carrier being pivotably connected to a coulter frame or to a frame structure by means of an axle, or with the carrier being pivotably connected to a coulter frame or to a frame structure by means of a parallelogram linkage.

3. The sowing coulter arrangement as recited in claim 1, with the coulter frame being connected to a frame structure via a swivel axle, and with the carrier being guided via a parallelogram linkage that has a coupling point in the coulter frame and that is connected to the frame structure via an upper link.

4. The sowing coulter arrangement as recited in claim 1, with the carrier and the coulter disk being mounted on a common axle.

5. The sowing coulter arrangement as recited in claim 1, with the carrier being preloaded in relation to the ground surface by means of a spring element, and/or with the catching element being preloaded in relation to the ground surface.

6. The sowing coulter arrangement as recited in claim 1, with the metering device separating or evenly dispersing the material to be distributed based on the principle of differential pressure and/or on the principle of centrifugation, or in a mechanical manner.

7. The sowing coulter arrangement as recited in claim 1, with the material to be distributed undergoing an active acceleration in the metering device and/or in the seed tube.

8. The sowing coulter arrangement as recited in claim 1, with the material to be distributed being conveyed from the metering device to the seed furrow by means of a conveyor belt.

9. The sowing coulter arrangement as recited in claim 1, with a seed flow being generated at the outlet of the seed tube, which seed flow is aligned at least largely tangential to the circumference of the catching element.

10. The sowing coulter arrangement as recited in claim 1, characterized in that a seed flow is generated at the outlet of the seed tube, with the seed flow forming an angle bisector or a line that is disposed between the ground surface and a tangent to the circumference of the catching element, and wherein the tangent to the circumference encloses an angle in relation to the ground surface, with the angle being less than 75?, in particular less than 60?, preferably less than 45?.

11. The sowing coulter arrangement as recited in claim 1, with a seed flow being generated at the outlet of the seed tube, which seed flow is cut off and/or interrupted by the catching element.

12. The sowing coulter arrangement as recited in claim 1, with the catching element being made from an elastic material and/or from a plastic material and/or a metallic material or a composite material.

13. The sowing coulter arrangement as recited in claim 1, having a depth control roller that is at least in sections disposed next to the coulter disk and/or behind the catching element and/or behind the pressure roller.

14. The sowing coulter arrangement as recited in claim 1, with the pressure roller forming the depth control roller and/or the catching element as well.

15. The sowing coulter arrangement as recited in claim 1, with the suspension device being designed as parallelogram linkage.

16. The sowing coulter arrangement as recited in claim 1, having a single-disk coulter or a double-disk coulter.

17. The sowing coulter arrangement as recited in claim 1, with the furrow-closing implement being designed as a harrow.

18. The sowing coulter arrangement as recited in claim 1, with the seed tube ending in a furrow opener and with the continuation of the seed tube being formed by the furrow opener.

19. The sowing coulter arrangement (10) as recited in claim 18, with the furrow opener, the seed tube, the catching element, and the metering device forming a unit that is affixed to a carrier.

20. A sowing coulter that is part of a sowing coulter arrangement of an agricultural machine as recited in claim 1.

21. A sowing assembly of an agricultural machine having an agricultural machine frame, the sowing assembly comprising: a sowing assembly frame connected to the agricultural machine frame; a furrowing tool, for creating a furrow, connected to the sowing assembly frame; a metering device for dispensing granular material to be distributed; directing means for directing the granular material to be distributed from the metering device to the furrow created by the furrowing tool; and a catching element disposed downstream of an outlet of the tube; wherein the metering device, the directing means, and the catching element are mounted on a carrier that is moveably mounted to the sowing assembly frame, whereby the position of an outlet of the directing means relative to the catching element is maintained relatively constant.

22. The sowing assembly as in claim 21 further comprising a furrow closer pivotally mounted on the sowing assembly frame.

23. The sowing assembly as in claim 21 wherein the carrier is pivotably mounted to the sowing assembly frame.

24. The sowing assembly as in claim 21 wherein the carrier is mounted to the sowing assembly frame by a parallelogram linkage.

25. The sowing assembly as in claim 21 wherein the sowing assembly frame is mounted to the agricultural machine frame by a parallelogram linkage.

26. The sowing assembly as in claim 21 wherein the outlet of the directing means is aligned relative to the catching element so that granular material discharged through the outlet of the directing means travels approximately tangential to the circumference of the catching element.

27. The sowing assembly as in claim 21 wherein the outlet of the directing means is aligned relative to the catching element so that a path of travel of the granular material discharged through the outlet of the directing means travels at an angle bisector or a line that is disposed between the ground surface and a tangent to the circumference of the catching element, and wherein the tangent to the circumference encloses an angle in relation to the ground surface which is less than 75?, in particular less than 60?, preferably less than 45?.

28. The sowing assembly as in claim 21 wherein the furrowing tool comprises a coulter disk.

29. The sowing assembly as in claim 21 wherein the directing means comprises a tube.

30. The sowing assembly as in claim 21 wherein the directing means comprises a conveyor belt.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 shows a schematic perspective view of an embodiment variant of a sowing coulter of an agricultural machine.

[0031] FIG. 2 shows an embodiment variant of a sowing coulter in a side view, with metering device, seed tube, catching element, and pressure roller.

[0032] FIG. 3 shows a detailed view of an embodiment variant of the unit including a metering device, seed tube, and catching element on a carrier.

[0033] FIG. 4 shows further embodiment variants of sowing coulters in different possible embodiments of carriers and their arrangement in five schematic side views (FIG. 4a to FIG. 4e).

[0034] FIG. 5 shows a further embodiment variant of the sowing coulter in which with the carrier and a coulter disk are mounted on a common axle and including a conveyor belt for directing seeds from the metering device to a furrow.

[0035] FIG. 6 shows a further embodiment variant of the sowing coulter in which the metering device, seed tube, catching element and a furrow opener form a unit affixed to a carrier.

DETAILED DESCRIPTION OF THE INVENTION

[0036] The same or equivalent elements of the invention are each designated by the same reference characters in the FIGS. 1 to 4e. Furthermore, and for the sake of clarity, only the reference characters relevant for describing the individual figures are provided. It should be understood that the detailed description and specific examples of the sowing coulter according to the invention, while indicating preferred embodiments, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

[0037] FIG. 1 shows an embodiment variant of a sowing coulter arrangement 10 according to the invention in a schematic perspective view, which sowing coulter arrangement 10 can be used, for example, with an agricultural machine for spreading agricultural materials to be distributed, such as seeds, fertilizer, or the like. FIG. 2 shows the identical embodiment of the sowing coulter arrangement 10 according to FIG. 1 in a side view. In each case, the sowing coulter arrangement 10 is represented opposite to the driving direction 12. Such sowing coulter arrangements 10 can be mounted, for example, at regular spacings to each other on the frame structure of an agricultural machine. The exemplary embodiment of the sowing coulter arrangement 10 according to FIGS. 1 and 2 is a so-called single-disk coulter 14. The arrangement according to the invention could, however, likewise be used for a double-disk coulter or a tine coulter or the like, with single-disk coulters, however, being preferentially used.

[0038] The sowing coulter arrangement 10 is pivotably connected to a frame structure, which is not illustrated here, by way of a suspension device 16 or, as the case may be, by way of a rubber cord bearing as known from the prior art that is guided via a central axis of rotation. Other suspension devices 16 are, however, equally conceivable, such as flange sheets or weld-on plates or a parallelogram linkage (cf. FIG. 4) or the like. By means of the suspension device 16, it is possible to radially swivel the entire sowing coulter arrangement 10 about the frame structure and to thus move the sowing coulter arrangement 10, for example between a lowered position for driving in a field and a raised position for driving on the road. Furthermore, a coulter frame 20 is affixed to a bearing housing 18 of the suspension device 16 by means of welding, with other types of mounting being conceivable here as well. The appropriate coulter implements are mounted on the coulter frame 20. The coulter frame 20 is disposed asymmetrical to the bearing housing 18, but a symmetrical arrangement is also possible. The coulter frame is designed in multiple pieces and consists of a coulter tube and mounting plates affixed thereto. A one-piece design is equally conceivable.

[0039] A pivot-mounted coulter disk or cutting disk 22 is affixed to the coulter frame 20. Said coulter disk or cutting disk 22 is used to form a seed furrow in a ground surface 23, where the material to be distributed is subsequently placed. In order to ensure that the seed furrow is sufficiently large, the coulter disk 22 is preferably disposed at an angle transverse to the driving direction, with this angle being, for example, between approximately 4? and 8?. In the exemplary embodiment, however, this angle is approximately 6?. Additionally, associated with the coulter disk 22 is a furrow opener 24 or, as the case may be, a so-called sowing skid 24, on the one hand for preventing soil from adhering to the coulter disk 22, and on the other hand for keeping the seed furrow open until seed placement.

[0040] It is, however, also conceivable that in each case two oppositely positioned coulter disks 22 are disposed on the coulter frame 20, thus forming a double-disk coulter. By means of said coulter disks 22 disposed at an angle in relation to each other, it is likewise possible to create a sufficiently large seed furrow. The wedge formed by the two coulter disks 22 is, for example, at least 4?, preferably however, at least 8? or more.

[0041] A seed tube 26 is disposed laterally next to the at least one coulter disk 22 or, as the case may be, behind the furrow opener 24 or between the two coulter disks 22. The inlet 28 of said seed tube 26 leads into a metering device 32, which is also located at the sowing coulter arrangement 10. The material to be distributed is at least to a large extent separated or, as the case may be, evenly dispersed by means of the metering device 32, for which purpose various principles of separation as known from the prior art can be applied. It is possible to use such metering devices as operate, for example, based on the principle of differential pressure or such as operate based on the principle of centrifugation. The metering device 32 according to the exemplary embodiments of FIGS. 1 to 4 is a metering device 32 that operates based on the principle of centrifugation. For this purpose, a seed-air mixture is fed to the metering device 32 via a spout 34. Located within the metering device 32 is a rotating separating disk, which has at least one pocket or opening at its outer circumference for the purpose of receiving grains of the material to be distributed. Grains are received from the pocket, they are separated, and they are conveyed to a dispensing area by a rotation of the separating disk acting in connection with a housing wall. The top end of the seed tube 26 ends in said dispensing area. By way of the rotation of the separating disk and by an airstream present in the housing, the separated material to be distributed undergoes an active acceleration, whereby the grains are transported through the seed tube 26 at a speed that is greater than the acceleration of gravity. It would also be possible, however, that the acceleration of the material to be distributed is carried out in a purely pneumatic manner. The material to be distributed could also be transported through the seed tube 26 without being accelerated.

[0042] In the exemplary embodiments of FIGS. 1 to 4, the seed tube 26 is in each case disposed perpendicular to the driving direction 12, and it bends into a curved form 36 toward the outlet 30 of the seed tube 26. Also conceivable, however, is a seed tube 26 that has varying radiuses and shapes along its length. In particular, crescent-shaped or the like seed tube shapes are also conceivable.

[0043] Furthermore, the seed tube 26 is in each case mounted behind a furrow opener 24. It is, however, also conceivable that the seed tube 26 ends in the furrow opener 24 or, as the case may be, that it is guided through the furrow opener 24. It is likewise conceivable for the seed tube 26 to end in the furrow opener 24 and the furrow opener 24 to thus form the continuation of the seed tube 26. In particular, it is thus conceivable that the seed tube 26 is disposed between the at least one coulter disk 22 and the furrow opener 24. It is moreover conceivable that the furrow opener 24 is likewise disposed on the carrier 62 as shown in FIG. 6. It would thus be conceivable for a unit composed of the metering device 32, the seed tube 26, the catching element 42, and the furrow opener 2, to be mounted to the sowing coulter arrangement 10.

[0044] The outlet 30 of the seed tube 26 is inclined opposite to the driving direction 14. This results in a seed flow 38 that is, for example, at least largely tangential to an outer contour or, as the case may be, to a circumference 40, of a catching element 42 downstream of the outlet 30 of the seed tube 26. After being dispensed from the seed tube 26, the grains are slowed down or, as the case may be, caught, by means of the catching element 42, which is designed as catching roller 44 in the exemplary embodiment. In this way, the distributed material is largely prevented from undesired rolling and undesired bouncing in the seed furrow. The catching element 42 can be depth-adjusted in relation to the coulter disk 22 or, as the case may be, in relation to the carrier 62, by way of a connecting plate 46, for example. The catching element 42 is followed by a pressure roller 48 that is movably mounted via a pivot point 50 and that is preloaded by means of a spring 52. Via a latch 54, the preload force of said spring 52 can be readjusted as well. The distributed material is pressed into the soil by means of the pressure roller 48, and the previously cut seed furrow is closed such that the distributed material is covered with soil.

[0045] The depth adjustment of the sowing coulter arrangement 10 is carried out by means of a depth control roller 56, which is mounted on the coulter frame 20 in a rotatable manner as well, and which is located on the opposite side of the coulter disk 22 or, as the case may be, of the furrow opener 24. For the purpose of depth adjustment, the height or, as the case may be, the position of the depth control roller 56 can be readjusted in relation to the coulter disk 22 or, as the case may be, in relation to the furrow opener 24, by means of an adjustment lever 58 and gear teeth 60, whereby in turn the depth of the seed furrow can be correspondingly readjusted. The depth control roller 56 is moreover disposed in relation to the coulter disk 22 such that, in addition to serving for depth control, the depth control roller 56 also serves as a wiper for one side of the coulter disk 22.

[0046] As is clear from the FIGS. 1 and 2 and, in particular, from FIG. 3, the metering device 32, the seed tube 26, and the catching element 42 are mounted as a unit on a carrier 62. Said carrier 62 is mounted on the coulter frame 20 in a rotatable manner via an axle 64. Preferably, said carrier 62 is preloaded in relation to a ground surface 23, for example by means of a spring or by means of a hydraulic cylinder or a pneumatic cylinder or the like. An arrangement between seed flow 38 or, as the case may be, an outlet 30 of the seed tube 26, in relation to a circumference 40 of the catching element 42 is at all times kept at least largely constant, independently of the sowing depth or, as the case may be, independently of the working depth, by means of the unit of seed tube 26 and catching element 42. This arrangement is a tangential arrangement in the FIGS. 2 and 3. Other arrangements are, however, also conceivable.

[0047] If the seed tube 26 is part of the furrow opener 24, for example, then said furrow opener 24 can also be mounted together with the seed tube 26, the catching element 42, and the metering device 32 on the carrier 62.

[0048] In the exemplary embodiment, the carrier 62 is formed as a metal sheet, and mounting elements 66 for attaching the catching element 42 and the metering device 32 are associated with it.

[0049] The carrier 62 in the exemplary embodiments of FIGS. 1 to 3 is in each case connected to the coulter frame 20 in a rotatable manner via an axle 64. Depending on the particular working depth, such an arrangement results in different angles a between a seed flow 38 and a ground surface 23. It is also conceivable, however, that the carrier 62 is connected to the coulter frame 20 via a parallelogram linkage 68 or four-joint arrangement, with the result that an angle between a seed flow 38 and a ground surface 23 is at all times largely constant, independently of the working depth. This can be further improved by connecting both the carrier 62 and the suspension device 16 in each case by means of a parallelogram linkage 68 to the coulter frame 20 or, as the case may be, to the frame structure. Sowing coulter arrangements 10 with such parallelogram linkages 68 are illustrated in the FIGS. 4a to 4e.

[0050] FIG. 4a in this context shows a sowing coulter arrangement 10 with the suspension device 16 designed as parallelogram linkage 68. The parallelogram linkage 68 consists of an upper link 70 and a lower link 72, which are each connected to a coulter frame 20 and to a frame structure, which is not illustrated here, by means of coupling points 74. A coulter disk 22 and a pressure roller 48 are mounted on the coulter frame 20, as well as a carrier 62 that is pivotable via an axle 64, with in turn a metering device 32, a seed tube 26, and a catching element 42 being disposed on the carrier 62 such that they form a unit, whereby the arrangement of an outlet 30 of the seed tube 26 in relation to the catching element 42 is at all times kept largely constant.

[0051] Furthermore, FIG. 4b shows a sowing coulter arrangement 10 that is mounted in a pivotable manner via a swivel axle 76 and by means of a coulter frame 20 on a frame structure, which is not illustrated here. A coulter disk 22 and a pressure roller 48 are mounted on the coulter frame 20, as well as a carrier 62 that is pivotable via a parallelogram linkage 68, with in turn a metering device 32, a seed tube 26, and a catching element 42 being disposed on the carrier 62 such that they form a unit, whereby the arrangement of an outlet 30 of the seed tube 26 in relation to the catching element 42 is at all times kept largely constant. The parallelogram linkage 68 consists of an upper link 70 and a lower link 72, which each establishes a pivotable connection between the carrier 62 and the coulter frame 20 via coupling points 74.

[0052] Beyond that, FIG. 4c shows a combination of embodiment variants of the sowing coulter arrangement 10 according to the FIGS. 4a and 4b. In this instance, the suspension device 16 of the sowing coulter arrangement 10 is designed as a parallelogram linkage 68, and it consists of an upper link 70 and a lower link 72, which are each connected to a coulter frame 20 and to a frame structure, which is not illustrated here, by means of coupling points 74. A coulter disk 22 and a pressure roller 48 are mounted on the coulter frame 20, as well as a carrier 62 that is pivotable via a further parallelogram linkage 68, with in turn a metering device 32, a seed tube 26, and a catching element 42 being disposed on the carrier 62 such that they form a unit, whereby the arrangement of an outlet 30 of the seed tube 26 in relation to the catching element 42 is at all times kept largely constant. The parallelogram linkage 68 consists of an upper link 70 and a lower link 72, which each establishes a connection between the carrier 62 and the coulter frame 20 via coupling points 74.

[0053] Furthermore, FIG. 4d shows a sowing coulter arrangement 10 that is mounted in a pivotable manner via a swivel axle 76 and by means of a coulter frame 20 on a frame structure, which is not illustrated here. A coulter disk 22 and a pressure roller 48 are mounted on the coulter frame 20. A carrier 62 is mounted in a pivotable manner via a parallelogram linkage 68 on a frame structure of an agricultural machine, which are not illustrated here, with in turn a metering device 32, a seed tube 26, and a catching element 42 being disposed on the carrier 62 such that they form a unit, whereby the arrangement of an outlet 30 of the seed tube 26 in relation to the catching element 42 is at all times kept largely constant. The parallelogram linkage 68 consists of an upper link 70 and a lower link 72, which each establishes a pivotable connection between the carrier 62 and the frame structure via coupling points 74.

[0054] A further embodiment variant is illustrated in FIG. 4e. The suspension device 16 of the sowing coulter arrangement 10 together with the carrier 62 forms a parallelogram linkage 68. Said parallelogram linkage 68 consists of an upper link 70 and a lower link 72, which are each connected to a frame structure via swivel axles 76. The upper link 70 has a coupling point 74, via which the carrier 62 is guided. The coulter frame 20 has a further coupling point 74, via which the carrier 62 is also guided, whereby in turn a parallelogram linkage 68 is formed. That is to say that the sowing coulter arrangement 10 is, on the one hand, connected to the frame structure via a central swivel axle 76. On the other hand, the carrier 62, that is to say the unit of metering device 32, seed tube 26, and catching element 42, is guided via a parallelogram linkage 68, with the result that a depth adjustment of the sowing coulter arrangement 10 has no influence on an angle position of the seed flow in relation to the ground surface. This arrangement, too, is at all times kept largely constant. A coulter disk 22 for creating a seed furrow and a pressure roller 48 for closing the seed furrow are furthermore mounted on the coulter frame 20.

[0055] In general, the sowing coulter arrangement 10 according to the invention is referred to in the context of the above description of the figures. In some places, the arrangement 10 according to the invention is also referred to seed drill coulter or as sowing coulter for short. It should be noted here that these terms are generally intended as synonyms and they can be optionally substituted for each other.

[0056] The invention has been described with reference to a preferred embodiment. Those skilled in the art will appreciate that numerous changes and modifications can be made to the preferred embodiments of the invention and that such changes and modifications can be made without departing from the spirit of the invention. It is therefore intended that the appended claims cover all such equivalent variations as fall within the true spirit and scope of the invention.

[0057] A further alternative embodiment is illustrated schematically in FIG. 5. In the embodiment of FIG. 5, the coulter disk 22 and the carrier 62 are mounted together on a common axis or axle 77. In the embodiment shown, the carrier 62 pivots and the coulter disk 22 rotates about the same axis 77. In addition, a conveyor belt 78 is shown in a tube or housing 80 for receiving the granular material to be distributed from the metering device 32 and directing, conveying or transporting the material downward to the seed furrow.

LIST OF REFERENCE CHARACTERS

[0058] 10 Sowing coulter arrangement, seed drill coulter arrangement [0059] 12 Driving direction [0060] 14 Single-disk coulter [0061] 16 Suspension device [0062] 18 Bearing housing [0063] 20 Coulter frame [0064] 22 Coulter disk, cutting disk [0065] 23 Ground surface [0066] 24 Furrow opener [0067] 26 Seed tube [0068] 28 Inlet [0069] 30 Outlet [0070] 32 Metering device [0071] 34 Spout [0072] 36 Curved form [0073] 38 Seed flow [0074] 40 Circumference [0075] 42 Catching element [0076] 44 Catching roller [0077] 46 Connecting plate [0078] 48 Pressure roller [0079] 50 Pivot point [0080] 52 Spring [0081] 54 Latch [0082] 56 Depth control roller [0083] 58 Adjustment lever [0084] 60 Gear teeth [0085] 62 Carrier [0086] 64 Axle [0087] 66 Mounting elements [0088] 68 Parallelogram linkage [0089] 70 Upper link [0090] 72 Lower link [0091] 74 Coupling points [0092] 76 Swivel axle [0093] 77 Common axis [0094] 78 Conveyor belt [0095] 80 Conveyor belt housing, tube