EP4208002A1

EP4208002A1 - Seed coulter assembly

Info

Publication number: EP4208002A1
Application number: EP21773703.0A
Authority: EP
Inventors: Joachim Brand; Alexander Schmitt
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-02
Filing date: 2021-09-02
Publication date: 2023-07-12
Also published as: WO2022049184A1; LU102034B1

Abstract

The invention relates to a sowing device (1) and to a method for working soil and depositing seeds for use with an agricultural vehicle (6). The sowing device has soil working tools (2) and a seed coulter (3). The soil working tools comprise a compacting tool (8) arranged in front of the seed coulter in the travel direction (7) for compacting soil (9) to be worked. A soil preparing tool (10) ahead of the compacting tool can be brought into engagement with the soil solely in a first soil working region (17). The soil preparing tool, the compacting tool, and the seed coulter form a tool assembly. Using the soil preparing tool, a ridge (16) can be produced with soil (25) from the first soil working region in a second soil working region (18) adjoining the first soil working region. The compacting tool can be brought into engagement with the ridge solely within the second soil working region. The seed coulter is arranged so as to be flush with the compacting tool in the travel direction so that seeds (21) can be deposited on the compacted ridge in the second soil working region by means of the seed coulter.

Description

Joachim Brand, Alexander Schmitt

coulter arrangement

The invention relates to a sowing device for use with an agricultural vehicle, the sowing device having tillage tools and a sowing coulter for seed placement, the sowing device being detachably attachable to the agricultural vehicle, the tilling tools and the sowing coulter when used as intended with the agricultural vehicle in are arranged one behind the other in a direction of travel of the agricultural vehicle, the tillage tools comprising a compaction tool arranged in front of the sowing coulter in the direction of travel, with a soil to be worked being compactable with the compaction tool.

In arable farming, soil used for agriculture, such as a field, is regularly processed and tilled with a crop. The sowing of the seed of the crop is usually carried out by means of an agricultural seeder. Depending on the type of sowing, a distinction is made between broad sowing and drill sowing. With wide sowing, the seed is distributed over the entire surface of the seedbed. With drill sowing, the seed is usually planted in a or conveyed into the seedbed in numerous grooves several centimeters deep. Regardless of the type of sowing, the agricultural or the soil prepared for sowing. The tillage is carried out, for example, with a plow or with a harrow. The soil is loosened and turned with a plow. This loosens the soil structure, resulting in a larger, rough surface of the tilled soil. A plow can have a steel frame as its basic body, which can be attached to the agricultural vehicle by means of a receiving device. In addition, one or more ploughshares are arranged on the steel frame. The plow is fastened to the agricultural vehicle via the receiving device and is pulled over or through the agricultural soil by the driving movement.

A harrow is an agricultural tillage implement with tines that move through the soil. A harrow is used to loosen the upper layer of soil, to chop it up in a way that is gentle on the soil and to produce good crumbling of the soil for seedbed preparation. In the case of wide sowing, the harrow is also used to incorporate the seed that is scattered on the field during the sowing process. Compared to a plough, a relatively fine soil condition can be produced by using harrows for soil cultivation due to their large number of tines.

Before the seeds are sown, the soil is compacted to place the seeds in a pre-compacted tillage area. The pre-compaction causes a good supply of water to the seed deposited on the surface of the soil. The compaction is usually done by a compaction tool which is designed as a roller extending over the entire processing width of the seed drill. The roller is pulled behind the agricultural vehicle and thus compacts the entire soil. In order to be able to achieve sufficient compaction of the soil over the processing width, the roller has a very high dead weight. Due to the high weight and the large contact area between the roller and the ground, a lot of energy is required for tilling the soil.

It is considered the object of the present invention to provide a sowing device with which particularly energy-efficient and soil-conserving tillage and sowing is possible.

This object is achieved according to the invention in that the soil preparation tools include a soil preparation tool that runs ahead of the compaction tool, with the soil preparation tool, the compaction tool and the sowing coulter forming a tool arrangement, with the soil preparation tool being able to be brought into engagement with the soil only in a first soil preparation area when the sowing device is used as intended and is designed in such a way that the soil preparation tool can be used to raise a dam in a second soil processing area adjacent to the first soil processing area with soil from the first soil processing area, with the compaction tool being arranged transversely to the direction of travel at a distance from the soil preparation tool and being designed in such a way that the compaction tool is exclusively with the dam within the second tillage area in Can be engaged, the sowing coulter being arranged in alignment with the compaction tool in the direction of travel, so that the sowing coulter can be used to place seed on the compacted ridge in the second tillage area. Since the seed is deposited exclusively in the second soil processing area, compaction of the soil is only necessary in this second soil processing area. Accordingly, the compaction tool can be designed in such a way that it only engages in the second soil processing area with the dam thrown up by the soil preparation tool. Accordingly, the compaction tool does not have to be designed over the entire width of the soil to be worked. Advantageously, the compaction tool can be designed, for example, as a narrow disc or as a narrow roller body, so that a compaction tool with a very low weight can be produced. Due to the low weight of the compaction tool and the very small contact surface of the compaction tool with the ground, the seeding device can be operated in a particularly energy-saving manner. In addition, the weight generated by the sowing device is at least partially transferred from the compaction tool to the ground.

Due to the fact that the soil preparation tool is only in engagement with the soil in the first soil cultivation device, the soil is only loosened in the first soil cultivation area and not in the second soil cultivation area. By compacting the dam in the second tillage area by means of the compaction tool, a good capillary effect is achieved achieved . This means that the seed deposited on the ridge is particularly well supplied with water and liquid. Since no compaction takes place in the first soil processing area by means of the compacting tool, the soil in the first soil processing area is in the form of loose soil. Weed growth in the first tillage area is thus prevented particularly well. A treatment of the first tillage area with polluting and/or expensive weed control agents is not necessary. The sowing device according to the invention can thus be used particularly well for organic farming.

After the sown crop has taken root, mechanical weed control can take place, for example by means of a harrow. For this purpose, the weeds that have grown in the uncompacted first tillage area are removed. Due to the uncompacted soil in the first tillage area, the weeds are supplied with little water, so that the weeds there are only rooted to a small extent and can therefore be removed or pulled out very easily using the harrow. On the other hand, the crop grown in the second tillage area is firmly rooted and is not destroyed by the mechanical weed control step.

Because the tool arrangement has a soil preparation tool, a compaction tool and the sowing coulter, soil cultivation and sowing can be carried out simultaneously in a single pass with the agricultural vehicle over the ground, resulting in a particularly fast and therefore cost-effective Sowing is possible. Advantageously, the tool arrangement has two or more seed coulters which are offset from one another laterally and in the direction of travel. The offset arrangement of the seed coulters laterally and in the direction of travel creates a free space between two adjacent sowing coulters, through which residues such as straw, weeds or branches lying on the agricultural soil can slide through while driving without covering or clogging the sowing coulters. This allows for uninterrupted and therefore particularly fast and cost-effective sowing. The sowing coulter arrangement advantageously has the same distances between the pickup point and the pressure roller in the direction of travel, so that the force exerted by the pressure rollers on the soil working area is identical in each sowing coulter arrangement.

In an advantageous embodiment of the sowing device according to the invention, it is provided that the soil preparation tool and the compaction tool are designed as passive and non-driven tools. A drive motor, a gearbox or a drive shaft are not required to operate the sowing device, so that the sowing device can be designed to be particularly light and weight-optimized. Furthermore, the passive and non-driven tools can be designed to be particularly space-saving, which means that the distance between the passive and non-driven tools is smaller in comparison to driven and larger tools. The overall center of gravity of the sowing device arranged behind the agricultural vehicle can thus be placed at a particularly small distance from the agricultural vehicle. To use the Sowing device according to the invention can thus be used for agricultural vehicles in the medium performance class, which has a positive effect on the ground pressure transmitted to the ground.

In an advantageous embodiment of the sowing device according to the invention it is provided that the sowing coulter has a cutting disc, a runner, a seed outlet opening and a pressure roller. A sowing coulter consisting of the components mentioned can be assembled from standard components in a particularly cost-effective manner.

A particularly ef fi cient sowing is possible in that it is provided according to the invention that the cutting disc, the skid, the seed outlet opening and the pressure roller are aligned in the direction of travel.

In order to be able to protect the seed discharged by means of the sowing device particularly well against the effects of the weather and bird predation, it is provided in an advantageous embodiment of the inventive idea that the sowing device has a harrowing tool which is arranged behind the sowing coulter in the direction of travel and with which the seed can be covered in the second Soil processing area with soil from a third soil processing area running between the first soil processing area and the second soil processing area. The soil from the third tillage area is particularly loose, so that it can be redistributed particularly well to the seed with the harrow tool. On a later mechanical one

Weed control step can be done particularly well with the soil from the third tillage area in the Weeds that have grown in the second tillage area are spilled and further growth of the weeds is prevented.

In an advantageous implementation of the idea of the invention, it is provided that the tool arrangement consists of the soil preparation tool, the compaction tool, at least one coulter and the harrow tool. With this tool arrangement according to the invention, soil cultivation and sowing can be carried out with the sowing device in a particularly energy-efficient and soil-conserving manner.

In order to achieve a particularly advantageous compaction and consolidation of the second tillage area, an advantageous embodiment of the seed drill provides that the compaction tool can be used as a prism star, as a rubber tire with a semi-pneumatic or fulling structure, as a Crosskill roller, as a spring stamp roller, as a wedge ring roller or is designed as a corrugated washer. Compaction tools for compacting agricultural soils can be designed with different geometries, dimensions or weights. The compaction tool is selected depending on the application and depending on the soil to be processed. The following table lists compacting tools of different configurations depending on the properties of the soil to be worked, with other compacting tools also being able to be used in the sowing device according to the invention.

Due to the teeth typically arranged on the circumference of the prism star, also known as toothed ring roller, a particularly good crumbling of the medium-heavy to heavy soil can be achieved with good compaction and reconsolidation of the soil at the same time. In addition, a compression tool designed as a prism star has a good cleaning effect due to the geometric design.

Rubber tires with a semi-pneumatic or fulling structure, such as FARMFLEX® rollers, can be used on very light soils such as sandy soils. They have a high load capacity and do not sink or only sink to a small extent on light soil. The rubber tires with a semi-pneumatic or fulling structure are made up of individual tires that are available with different profiles. Crosskill rollers are also well suited for light soils. Because of their geometric design, they have a good crumbling effect.

Spring stamp rollers or also called flex ring rollers are suitable for heavy soils. Due to the spring band, spring stamp rollers have a low tendency to stick between the spring band and the floor.

Wedge ring rollers are also very well suited for heavy soils. Due to the wedge-shaped structure of the peripheral edge of the wedge ring roller, a very deep reconsolidation of the soil can be achieved.

Compression tools designed as corrugated discs or as cutting discs, or also called clearing discs, can also be used in the sowing device according to the invention.

In an advantageous implementation of the idea of the invention, it is provided that the soil preparation tool is designed as a paddle-shaped tool. The paddle shape of the tool means that the soil from the first tillage area can be redistributed particularly well. Depending on the configuration of the paddle-shaped tool, one dam or two dams can be raised in the direction of travel parallel to the first soil working area. The paddle-shaped tool is a passive and non-powered tool. The soil gripped by the paddle-shaped tool and pushed forward in front of the paddle-shaped tool is sheared by the shearing forces generated when the agricultural vehicle is moving crushed . A smear layer or a smear area within the tillage area, which occurs when tilling the soil using actively driven front tools, such as a rotary harrow, particularly when tilling moist soil, can thus advantageously be avoided. In this way, an increased water absorption capacity and water storage capacity of the soil can be achieved.

In an advantageous embodiment of the sowing device according to the invention, it is provided that the tool arrangement has no soil preparation tool, no compaction tool and a coulter. A corrugated cutting disc is advantageously arranged at the position of the compaction tool. Using the corrugated cutting disc, a furrow is made in an unprepared tillage area, in which the seed is placed using the sowing coulter. The corrugated cutting disks described can be produced particularly inexpensively. Direct sowing of the seed can thus be implemented very cost-effectively using the sowing device according to the invention with the tool arrangement described.

So that the largest possible number of ridges can be produced in one pass of the agricultural vehicle and so that the largest possible seed quantity can be discharged, it is provided according to the invention that the seed drill has a plurality of tool assemblies arranged on a frame of the seed drill and spaced apart from one another perpendicularly to the direction of travel. The number of tool arrangements can be adjusted according to the desired machining width and the distance between the tool assemblies can be adjusted to one another. In a multi-row sowing coulter arrangement, the sowing coulters of the sowing coulter arrangement are adjustably arranged on the frame of the seed drill by means of a common parallelogram-like receiving device. A common seed depth can thus be set by rotating the receiving device. It also adjusts a height of the pinch roller so that the force exerted by the pinch roller on the tillage area can be adjusted.

In an advantageous embodiment of the sowing device according to the invention, it is provided that a distance between the several tool arrangements can be adjusted. Thus, the distance between two seed rows can be suitably adjusted depending on the crop used. The distances can be adjusted separately from one another, so that the multiple tool arrangements can be arranged asymmetrically on the frame. A particularly simple adjustment of the distances between the soil working tools and the at least one sowing coulter can be achieved by a detachable and displaceable arrangement of the soil working tools and the at least one sowing coulter on the frame. For this purpose, the tillage tools and the at least one sowing coulter can be fixed to the frame, for example by clamping and thus by force. By releasably clamping the tillage tools to the frame, the distance between the seed rows can be adjusted at any time depending on the sowing or of operational conditions and cultures changeable. The distances between the soil preparation tool and each individual Tillage tools perpendicular to the direction of travel can be variably adjusted individually and independently of one another.

So that the weight of the sowing device is advantageously transferred to as small an area of the ground as possible, it is provided according to the invention that the frame can be suspended from a device mounting device of the agricultural vehicle. Thus, the weight of the sowing device and the tillage tools and the sowing coulter is carried by the frame and by the agricultural vehicle, so that it can be used in a particularly manoeuvrable and soil-protecting manner.

In order to be able to make a wide-ranging sowing device as narrow as possible for transport, it is provided according to the invention that the frame can be filled at least in sections from a horizontal working position into a vertical transport position. For this purpose, the frame can consist of a central part and two outer wings with soil cultivation tools arranged thereon and coulters arranged thereon. The center section is connected to the agricultural vehicle via a three-point attachment and has a holder for a seed tank. The two outer wings can be folded in and out and articulated on the central part. Thus, the outer wings can be designed in different lengths, adapted to the respective work task. When transporting the sowing device, the outer wings are folded into a vertical position, so that the sowing device attached to the agricultural vehicle has the smallest possible transport width. Such a short and compact design of the frame is the focus of the the existing rear hydraulic system of the agricultural vehicle attached sowing device close to the agricultural vehicle, so that agricultural vehicles in the medium performance class can be used, which has a positive effect on the ground pressure transmitted to the ground. In addition, a very small turning radius is required to turn the agricultural vehicle in combination with the sowing device according to the invention, so that there is a significantly lower space requirement compared to towed seed drills. Due to the small turning radius, repeated driving over the ground can be reduced.

In order to provide a particularly light sowing device, it is provided according to the invention that the frame is made of hollow profiles and/or has a lattice construction.

The object mentioned at the outset is also achieved by a method for tilling the soil and for placing seed with an agricultural vehicle, with soil tillage using soil tillage tools being carried out one after the other, with soil to be tilled being compacted in a soil compaction step and the seed being laid in a subsequent sowing step, with a soil preparation step preceding the soil compaction step, a dam in a second soil processing area adjacent to a first soil processing area is thrown up with soil exclusively from the first soil processing area, wherein in the compacting step the dam is compacted exclusively in the second soil processing area, a furrow being created by means of a seed coulter in a subsequent furrow production step is generated, where in a subsequent sowing step, the seed is placed in the furrow, with the seed being docked in a furrow bottom of the furrow in a subsequent pressing step. This method according to the invention makes it possible to carry out soil cultivation and sowing in a particularly energy-efficient and soil-conserving manner.

In order to be able to protect the seed particularly well from the effects of the weather and from being robbed by birds, it is provided according to the invention that, in a covering step following the pressing step, the seed is covered with soil from a third soil cultivation area running between the first soil cultivation region and the second soil cultivation region.

Further advantageous configurations of the sowing device are explained using exemplary embodiments shown in the drawings. Show it :

Fig. 1 is a schematic representation of a side view of the sowing device according to the invention,

Fig. 2 is a schematic representation of a top view of the tillage tools and the sowing coulters of the sowing device according to the invention,

Fig. 3 is a schematic representation of a sectional view of the agricultural soil worked by the sowing device according to the invention, and

Fig. 4 is a schematic representation of a plan view of the soil tillage tools and the coulter of the Seeder according to the invention with different distances between the tillage tools.

In Fig. 1 shows a schematic representation of a side view of a sowing device 1 according to the invention. The sowing device 1 is designed as a seed drill and has soil tillage tools 2 for soil tillage and a sowing coulter 3 for seed placement. The soil tillage tools 2 are arranged on a frame 4 of the sowing device 1 . The sowing device 1 is detachably fastened to the agricultural vehicle 6 , which is designed as a tractor in the exemplary embodiment shown, by means of the frame 4 via a device mounting device 5 . When used as intended with the agricultural vehicle 6 , the soil tillage tools 2 and the sowing coulter 3 are arranged one behind the other in a direction of travel 7 of the agricultural vehicle 6 . The soil tillage tools 2 have a compaction tool 8 arranged in front of the sowing coulter 3 in the direction of travel 7 . A soil 9 to be processed can be compacted with the compaction tool 8 . The soil tillage tools 2 also have a soil preparation tool 10 which runs in front of the compaction tool 8 and is designed like a paddle. The sowing coulter 3 is arranged in alignment with the compaction tool 8 in the direction of travel 7 . The sowing coulter 3 has a cutting disc 11 , a skid 12 , a seed outlet opening 13 and a pressure roller 14 , which are arranged one behind the other in alignment in the direction of travel 7 . A stored in a seed tank 20 in FIG. 1 seed 21, not shown, is transported via a seed line 22 to the seed outlet opening 13 and on the ground 9 filed . The sowing device 1 has a combing tool 15 arranged behind the sowing coulter 3 in the direction of travel 7 .

In Fig. 2 shows a schematic representation of a plan view of the soil cultivation tools 2 and the sowing coulter 3 of the sowing device 1 according to the invention. The tillage of the soil 9 takes place by means of the tillage tools 2 arranged one after the other in the direction of travel 7 . When the sowing device 1 is used as intended, the soil preparation tool 10 can be brought into engagement with the soil 9 exclusively in a first soil preparation area 17 and is designed in such a way that the soil preparation tool 10 can be used to create a 2 dam 16 (not shown) is raised in a second soil processing area 18 adjacent to the first soil processing area 17 with soil 25 from the first soil processing area 17 . The compacting tool 8 is offset perpendicularly to the direction of travel 7 to the soil preparation tool 10 such that the dam 16 is compacted exclusively in the second soil working area 18 by means of the compacting tool 8 . A furrow 19 is produced in the second soil working area 18 by means of the cutting blade 11 and the skid 12 of the sowing coulter 3 . The emerging from the Saatgutauslassöf fnung 13 in FIG. 2 seed 21 , not shown, is placed in the furrow 19 .

The seed 21 is pressed into a furrow base 22 of the furrow 19 by means of the trailing pressure roller 14 . By means of the harrow tool 15, the seed 21 with soil 25 from a between the first tillage area 17 and the third soil processing area 23 extending over the second soil processing area 18 .

In Fig. 3 is a schematic representation of a sectional view of the soil 9 tilled by means of the sowing device 1 according to the invention. The means of in Fig. 3 tillage tools 2, not shown, tilled soil two by the paddle-shaped soil preparation tool 10 dams 16 on. The dams 16 thrown up in the second tillage area 18 consist of soil 25 from the first tillage area 17 . A dam tip 24 of the dam 16 is compacted and leveled by means of the compaction tool 8 . The seed 21 is placed in the furrow 19 created by the cutting disk 11 and the skid 12 by means of the sowing coulter 3 . The seed 21 pressed into the bottom of the furrow 22 by means of the pressure roller 14 is covered with soil 25 from the third tillage area 23 by means of the harrowing tool 15 .

In Fig. 4 is a schematic representation of a plan view of the soil working tools 2 and the sowing coulter 3 of the sowing device 1 according to the invention with different distances between the soil working tools 2 . The fact that the tillage tools 2 on the in Fig. 4 frame 4, not shown, are arranged to be displaceable in a direction perpendicular to the direction of travel 7, the distances between the tillage implements 2 can be adjusted variably. In the exemplary embodiment shown, the coulters 3 are arranged in two rows in the direction of travel 7 one behind the other. In the exemplary embodiment from each are two coulters 3 to two arranged one behind the other in the direction of travel and in FIG. 4 bars, not shown, are arranged on the frame 4 .

As a result, the sowing device 1 can be designed to be particularly short and compact.

Claims

PATENT CLAIMS

1. Sowing device (1) for use with an agricultural vehicle (6), the sowing device (1) having tillage tools (2) and a sowing coulter (3) for seed placement, the sowing device (1) being detachable on the agricultural vehicle (6) can be fixed, with the tillage tools (2) and the sowing coulter (3) being arranged one behind the other in a direction of travel (7) of the agricultural vehicle (6) when used as intended with the agricultural vehicle (6), with the tillage tools (2) being one in the Compression tool (8) arranged in the direction of travel (7) in front of the sowing coulter (3), with the compaction tool (8) being able to compact soil (9) to be worked, characterized in that the soil cultivation tools (2) have a preceding compaction tool (8). Include soil preparation tool (10), wherein the soil preparation tool (10), the compaction tool (8) and the coulter (3) a tool Form a ug arrangement, wherein the soil preparation tool (10) when the sowing device (1) is used as intended can be brought into engagement with the ground (9) exclusively in a first soil working area (17) and is designed in such a way that a dam ( 16) in a second soil processing area (18) adjacent to the first soil processing area (17) with soil (25) from the first soil processing area (17) can be thrown up, wherein the compacting tool (8) transverse to the direction of travel (7) is at a distance from the Soil preparation tool (10) is arranged and designed in such a way that the compaction tool (8) can only be brought into engagement with the dam (16) within the second soil cultivation area (18), with the seed coulter (3) being aligned in the direction of travel (7) with the Compression tool (8) is arranged so that with the sowing coulter (3) seed (21) on the compacted dam (16) in the second tillage area (18) can be deposited.

2. Sowing device (1) according to claim 1, characterized in that the soil preparation tool (10) and the compaction tool (8) are designed as passive and non-driven tools.

3. Sowing device (1) according to claim 1 or 2, characterized in that the coulter (3) has a cutting disc (11), a runner (12), a seed outlet opening (13) and a pressure roller (14).

4. Sowing device (1) according to claim 3, characterized in that the cutting disc (11), the skid (12), the seed outlet opening (13) and the pressure roller (14) in the direction of travel (7) are arranged in alignment.

5. Sowing device (1) according to one of the preceding claims, characterized in that the sowing device (1) has a harrowing tool (15) which is arranged behind the sowing coulter (3) in the direction of travel (7) and with which a covering of the seed (21) in the second soil processing area (17) with soil (25) from between the first soil processing area (17) and the second soil processing area (18) running third soil processing area (23).

6. Sowing device (1) according to claim 5, characterized in that the tool arrangement consists of the soil preparation tool (10), the compaction tool (8), at least one coulter (3) and the harrow tool (15).

7. Sowing device (1) according to one of the preceding claims, characterized in that the compaction tool (8) is designed as a prism star, as a rubber tire with a semi-pneumatic or fulling structure, as a Crosskill roller, as a spring stamp roller, as a wedge ring roller or as a corrugated washer.

8. Sowing device (1) according to any one of the preceding claims, characterized in that the soil preparation tool (10) is designed as a paddle-shaped tool.

9. Sowing device (1) according to one of the preceding claims, characterized in that the sowing device (1) has a plurality of tool arrangements arranged on a frame (4) of the sowing device (1) and perpendicular to the direction of travel (7) spaced apart from one another.

10. Sowing device (1) according to claim 9, characterized in that a distance between the plurality of tool assemblies is adjustable.

11. Sowing device (1) according to any one of claims 9 or 10, characterized in that the frame (4) on a Device receiving device (5) of the agricultural vehicle (6) can be recorded hanging.

12. Sowing device (1) according to any one of claims 9 to 11, characterized in that the frame (4) is at least partially transferable from a horizontal working position into a vertical transport position.

13. Sowing device (1) according to any one of claims 9 to 12, characterized in that the frame (4) is made of hollow profiles and / or in a lattice construction.

14. A method for tilling the soil and for placing seed with an agricultural vehicle (6), with soil tillage using tillage tools (2) being carried out one after the other, with a soil to be tilled (9) being compacted in a soil compacting step and the seed (21) being planted in a subsequent sowing step is deposited, characterized in that in a soil preparation step preceding the soil compaction step, a dam (16) is raised in a second soil processing area (18) adjacent to a first soil processing area (17) with soil (25) exclusively from the first soil processing area (17), wherein in the compression step of

The dam (16) is compacted exclusively in the second soil processing area (18), a furrow (19) being produced on the dam (16) produced and compacted within the second soil processing area (18) by means of a coulter (3), in a subsequent furrow production step, wherein in a subsequent sowing step the seed (21) in the furrow (19) is deposited, the seed (21) being pressed into a furrow base (22) of the furrow (19) in a subsequent pressing step.

15. The method according to claim 14, characterized in that in a covering step that follows the pressing step, the seed (21) is covered with soil (25) from a third soil working area (23) running between the first soil working area (17) and the second soil working area (18). will.