LINE UNIT FOR A PLANTING DEVICE, AS WELL AS A PLANTING DEVICE

DE602011075741T2Active Publication Date: 2026-07-01VAEDERSTAD HOLDING AB

Patent Information

Authority / Receiving Office
DE · DE
Patent Type
Patents
Current Assignee / Owner
VAEDERSTAD HOLDING AB
Filing Date
2011-03-22
Publication Date
2026-07-01

AI Technical Summary

Technical Problem

Existing seeders face issues with seed knife wear, plant residue sticking, and operational disturbances due to seed knife contact with obstacles, which affect precision and reliability.

Method used

A seeder design that eliminates the seed knife by using a seed distributing device with a seed discharging tube and a resilient press surface, where the seed flow direction intersects or is tangent to the press surface, positioned between sowing discs, ensuring precise seed placement and protection from ground obstacles.

Benefits of technology

The design reduces seed knife wear, minimizes operational disturbances, and enhances precision sowing by allowing the seeder to follow ground contours better, while being cost-effective and less prone to malfunctions.

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Description

Technical Field

[0001] The invention relates to a row unit and a precision seeder or planter for sowing seeds to obtain a predetermined number of plants per unit of length, and more specifically to a precision seeder of the kind that uses an excess air pressure to feed seeds from the seed distributing device to a seed outlet. The invention further concerns a method for precision sowing.Background Art

[0002] When sowing crops such as maize, sunflowers and soya beans it is desirable to plant, in each row, single seeds at a predetermined distance from each other. This requires a device for singling out single seeds from a hopper containing many seeds. An example of such a seed distributing device is disclosed in EP-0 216 057 B1. The distributed seeds are fed by means of an excess pressure in the hopper through a tube to a seed knife, which creates a furrow in the ground into which the seeds are dropped.

[0003] In many practical applications, a seed knife is not enough to provide optimal conditions for the seed.

[0004] A seeder known in the art, which is marketed by Amazonen-Werke H. Dreyer GmbH under the name Amazone EDX and which has a seed distributing device according to EP-0 216 057 B1 mentioned above, uses a pair of sowing discs, which operate at a forwardly oriented acute angle so as to make a furrow, and where the seed knife is located partly between the sowing discs. Arranged after the seed knife is a press wheel, whose function is to apply pressure on the seed to ensure satisfactory contact between the seed and the soil, and a pair of wheels, which operate at a rearwardly oriented acute angle relative to each other to cover the seed with soil.

[0005] Other known seeders are disclosed in US5603269 and EP1461988A1. Document EP 1461988 A1 describes a machine for sowing comprising rollers and a plough section. The rollers consist of a rim with an elastic material on it in the form of a tire element. The latter has a hollow section with at least two side flanks and a lateral slat which forms the running surface.

[0006] In seeders where the seeds are fed by means of an excess air pressure the seeds usually travel at a relatively high speed as compared with seeders where the seeds are singled out using a vacuum technique and are then allowed to drop by gravity through a seed discharging tube. Speeds of up to 15 m / s are not uncommon. The seed knife ensures here that the seed lands in the intended spot in the furrow and does not bounce off before the succeeding press wheel is able to press it down.

[0007] However, the seed knife is a wearing part, which needs to be replaced a number of times during the life of the seeder. Furthermore, when using a seed knife there is a risk that plant residues get stuck, eventually causing malfunctioning. There is also a risk that the seed knife is damaged by obstacles, such as stones, in the ground, thus causing operating disturbances.

[0008] There is therefore a need to provide a seeder that solves the above problems while maintaining its precision.Summary of the Invention

[0009] An object of the present invention is to provide a seeder that eliminates or reduces the drawbacks of prior-art seeders.

[0010] A further object is to provide a seeder that eliminates or reduces the problem associated with seed knife wear.

[0011] Yet another object is to provide a seeder that eliminates or reduces the problem of plant residues sticking to the seed knife.

[0012] The invention is defined by the appended independent claim 1. Optional features of the claimed invention are described in the dependent claims 2-14. Embodiments of the invention will be apparent from the dependent claims and from the following description and the appended drawings.

[0013] According to a first aspect, a row unit is provided for precision sowing of seeds to obtain a predetermined number of plants per unit of length. The row unit comprises a distributing device, which is connected to a seed hopper and adapted to feed single seeds from the seed hopper via a seed discharging tube to a seed outlet, wherein the seed distributing device is configured to single out seeds from the seed hopper so that a line of seeds spaced apart a predetermined distance is obtained, the line of seeds being successively fed towards an inlet of a seed discharging tube, a seed discharging tube adapted to feed said seed by means of an excess air pressure from a seed distributing device to a seed outlet, a seed furrow opener comprising two sowing discs arranged at an angle relative to each other, and a resilient press surface for pressing the seed into the soil. The press surface is designed such that a direction of flow of the seeds at the seed outlet intersects or is substantially tangent to at least a portion of the press surface. The seed outlet is located between the sowing discs and, as seen in the transverse direction, inside or immediately adjacent to the periphery of at least one of the sowing discs. The seed discharging tube has the form of a pipe that extends straight down from the seed distributing device and is terminated by a rearwardly curved portion immediately upstream of the seed outlet (14).

[0014] By "feeding single seeds" is meant feeding of the kind that enables control of each individual seed, so that a predetermined distance between the seeds can be obtained. In practice, a large number of seeds are discharged in series from the seed hopper.

[0015] By "is substantially tangent to" is meant that the direction of flow of the seeds should be such that a discharged seed is highly likely to engage with the press surface before touching the soil. The expression also covers seed flow directions where the seed touches the soil before the press surface, but where it is sufficiently close to the press surface so as not to bounce out of the seed furrow before it is pressed down by the press surface.

[0016] The fact that the press surface is designed in such a way that a seed flow direction at the seed outlet intersects or is tangent to at least a portion of the press surface ensures that the seed discharged by means of the excess air pressure, despite its high velocity, ends up in the right position in the furrow. By arranging the seed outlet inside or immediately adjacent to the periphery of at least one of the sowing discs it can be protected from damages that could otherwise occur as a result of contact with hard portions of soil and / or objects in the ground.

[0017] Thus, the seed knife can be eliminated altogether, which eliminates the problem associated with seed knife wear. By eliminating the seed knife, the problem with plant parts sticking to the seed knife is also eliminated. Finally, the seed knife as a component is eliminated, which is advantageous both from a logistics perspective and from the perspective of production costs. The advantages for the user are that the seeder will be cheaper and less sensitive to operational disturbances. Since the seed knife has been eliminated, the seed furrow is formed essentially by the seed furrow opener. Moreover, by eliminating the seed knife the press surface can be positioned closer to the 4 seed furrow opener. As a result, a more compact row unit can be obtained, which offers a better ability to follow the contour of the ground, less sensitivity to irregularities and more reliable seed placement since the time between the opening of the seed furrow and the placing of the seed in the furrow is reduced. The seed outlet, as seen in a plane perpendicular to the direction of flow of the seeds, can have substantially the same cross section as the seed discharging tube. The seed outlet and the seed discharging tube can, for example, be formed in one piece from a pipe, which offers a cheap and simple component.

[0018] The seed outlet as a whole can be positioned in front of a vertical plane, which is tangent to one of the sowing discs and perpendicular to a main operating direction of the row unit.

[0019] The seed outlet can be located at a distance from a horizontal plane that is tangent to a lower edge of one of the sowing discs.

[0020] The direction of flow of the seeds at the seed outlet can be at least 45 degrees relative to a vertical plane, at least 60 degrees relative to said vertical plane or at least 75 degrees relative to said vertical plane.

[0021] The press surface can be formed by a press wheel.

[0022] The press wheel can have a press part and at least one side wall, a material thickness of the side wall being smaller than a material thickness of the press part, preferably approximately 20% smaller, approximately 30% smaller, approximately 40% smaller, or approximately 50% smaller.

[0023] Alternatively, the press surface can be formed by a substantially rigid body, which is connected to said precision seeder by means of a spring element. Said substantially rigid body makes it possible to supply, in a controlled manner, for example fertilizer and / or pesticides.

[0024] As a further alternative, the press surface can be formed by an elastically resilient body. Such a solution can be achieved at a comparatively low cost.

[0025] The seed discharging tube can comprise a substantially straight portion, whose length is greater than a radius of at least one of the sowing discs.

[0026] The straight portion can be substantially vertical.

[0027] The seed distributing device can be integrated with the row unit. Consequently, a row unit of this kind can have a seed distributing device which feeds seeds to that row unit only. A row unit of this kind can also have a seed hopper of its own from which the seeds are fed.

[0028] According to a second aspect, a precision seeder comprising at least two row units according to the above is provided.

[0029] According to a third aspect, a precision seeder comprising at least two row units according to the above and a seed distributing device adapted to feed seeds to both row units is provided.

[0030] Each row unit can be designed to operate substantially independently, possibly using a compressed air supply common to all row units.Brief Description of the Drawings

[0031] Fig. 1 is a schematic perspective view of a precision seeder. Fig. 2 is a schematic perspective view of a row unit that can be used in the precision seeder in Fig. 1. Fig. 3 is a plan view of a part of the row unit in Fig. 2. Fig. 4 is a plan view of a part of the row unit in Fig. 3, where one of the sowing discs has been removed to expose a seed discharging tube. Fig. 5 is a plan view of an alternative row unit, where one of the sowing discs has been removed to expose a seed discharging tube. Fig. 6 is a plan view of yet another alternative row unit, where one of the sowing discs has been removed to expose a seed discharging tube. Fig. 7 is a cross-sectional view of a press wheel. Fig. 8 is a cross-sectional view showing a detail of the press wheel in Fig. 7. Description of Embodiments

[0032] Fig. 1 shows an embodiment of a seeder 1 comprising a plurality of row units 10, each of which has a seed distributing device 11, which is connected to a seed hopper 12 and adapted to feed single seeds from the seed hopper via a seed discharging tube 13 (Figs 2, 3) to a seed outlet 14.

[0033] The seed distributing device singles out seeds from the seed hopper so that a line of seeds spaced apart a predetermined distance is obtained, the line of seeds being successively fed towards the inlet (not shown) of the seed discharging tube 13, whereupon they are forced through the seed discharging tube 13 by means of compressed air.

[0034] The seed discharging tube 13 is in the form of a pipe that extends substantially straight down from the seed distributing device 11 and is terminated by a rearwardly curved portion, immediately upstream of the seed outlet 14. The pipe can thus have a substantially straight portion, which is longer than a radius of at least one of the sowing discs 15a, 15b. The curved portion can be designed in such a way that a direction of flow F of the seeds at the seed outlet 14 is at least 45 degrees relative to a vertical plane, at least 60 degrees relative to said vertical plane or at least 75 degrees relative to said vertical plane.

[0035] The seed outlet 14 is located between the sowing discs 15a, 15b and, as seen in the transverse direction, inside or immediately adjacent to the periphery of at least one of the sowing discs 16, 16', 16". In one embodiment, at least a part of the orifice of the seed outlet is located on or inside the periphery of the sowing disc.

[0036] In one embodiment, the seed discharging tube 13 and the seed outlet 14 form an integrated unit. They can, for example, be formed from one and the same piece of pipe, one end of the pipe piece forming the seed outlet 14. The pipe can be made of a polymer material, for example plastic or rubber, or of metal.

[0037] In any case, the seed outlet 14 can be located in front of a vertical plane V, which is perpendicular to the main operating direction of the row unit and which is tangent to one of the sowing discs 15a, 15b. In one embodiment, the seed outlet 14 is located at a horizontal distance from the vertical plane V that corresponds to at least approximately 10% of the radius of at least one of the sowing discs 15a, 15b, alternatively at least approximately 20% or at least approximately 30% of the radius of at least one of the sowing discs.

[0038] Moreover, the seed outlet can be located at a vertical distance above a horizontal plane H, which is tangent to a lower part of one of the sowing discs 15a, 15b. The vertical distance can correspond to at least approximately 10% of the radius of at least one of the sowing discs, at least approximately 15% of the radius of at least one of the sowing discs, at least approximately 20% of the radius of at least one of the sowing discs or at least approximately 25% of the radius of at least one of the sowing discs.

[0039] The row unit 10 further comprises a seed furrow opener 15, which can comprise a pair of mutually angled sowing discs 15a, 15b and one or several wheels 15c, which limit the depth of sowing. Furthermore, the row unit 10 can comprise a press wheel 160, which has a press surface 16 the purpose of which is to apply pressure on the seed to ensure satisfactory contact between the seed and the soil.

[0040] Seed furrow openers having two sowing discs are known, for instance, from US4590869A, and comprise a pair of discs or wheels, which are adapted to rotate about their respective axes of rotation, which form an obtuse angle, so that the discs themselves form an acute angle with each other. At the edge opposite to the acute angle there is a space between the discs in which, for example, a seed outlet can be arranged.

[0041] Moreover, the row unit can comprise a seed furrow covering means 17, which can comprise a pair of angled wheels or discs 170. The wheels or discs 170 can be arranged at an angle opposite to that of the sowing discs, in such a way that they scrape or press soil down on top of the seed so that the seed furrow is covered.

[0042] As shown in Fig. 4, the seed outlet is adapted to discharge the seed in an outlet direction F, which is tangent to or intersects the press surface 16. A seed that is discharged at a high speed (often nearly 15 m / s) will thus bounce off the press surface 16 and onto the ground, where it is pressed down by the press surface 16.

[0043] Referring now to Figs 7 and 8, the press wheel 160 can be provided in the form of an annular tube with an inwardly oriented flange 165, which is adapted to engage with a periphery of a rim 164. With reference to Fig. 8, the press wheel 160 can have a press part 161 that forms the press surface 16, which has a first material thickness Tt that is greater than a second material thickness Ts of a side wall 162a, 162b of the press wheel. The tube of the press wheel can be made of an elastic material such as rubber or a rubberlike material. The material thickness Ts of the side wall 162a, 162b can be smaller than a material thickness Tt of the press part 161, for example approximately 20% smaller, approximately 30% smaller, approximately 40% smaller, or approximately 50% smaller.

[0044] With reference to Fig. 5, an alternative embodiment of a row unit 10' is shown, where the press surface 16' is formed by a substantially rigid body 160', which is arranged in a resilient manner relative to the row unit 10' by way of an elastic element 163. The rigid body 160' can be made of a polymer material or metal and the elastic element 163 can be made of a resilient material, for example spring steel. The elastic element 163 can in turn be mounted on the frame 167 of the row unit 10' by means of a spacer part 166.

[0045] Alternatively, the rigid body and the elastic element can be formed in one piece and of the same material, where the rigid body 160' and the elastic element 163 have different material thicknesses, thereby giving them different stiffness.

[0046] In this kind of embodiment, the rigid body can be provided with one or several ducts with an associated orifice (not shown) adapted for fertilizer and / or pesticides. Such ducts can be connected to a container for fertilizer and pesticide, respectively, of which there may be one for each row unit or a single one that is common to all row units of the seeder.

[0047] With reference to Fig. 6, an alternative embodiment of a row unit 10" is shown, in which the press surface 16" is formed by an elastic element 160". The elastic element 160" can in turn be mounted on the frame 167 of the row unit 10' by means of a spacer part 166. The elastic element 160" can be made of metal, for example spring steel. Alternatively, a polymer material such as plastic or rubber can be used.

[0048] In the embodiment shown in Fig. 6, the elastic element can be formed from a composite material, which may include metal and a polymer material in combination.

[0049] In both of the embodiments shown in Fig. 5 and Fig. 6, the press surface 16', 16" can be modified in order to obtain a durable surface, for example by applying a cemented carbide coating.

[0050] As illustrated in the drawings, the precision seeder can comprise a plurality of row units, which each have their own seed hopper, seed discharging device, etc.

[0051] The solution can be used in conjunction with a precision seeder where, for example, one or more seed hoppers and / or seed discharging devices are common to two or more row units, and where the seeds are fed from the respective seed discharging device via pipes or tubes, which are connected to the seed discharging device 13.

[0052] The sowing discs 15a, 15b can be of the same size and relatively offset in a longitudinal direction of the row unit. Alternatively, the sowing discs can be of different size. The sowing discs can be made of different materials, for example one made of metal and one made of a polymer material, such as rubber or plastic.

[0053] There is also disclosed a method for precision sowing of seeds to obtain a predetermined number of plants per unit of length, comprising feeding single seeds from a seed hopper 12 by means of a seed distributing device 11, feeding said seed by means of an excess air pressure via a seed discharging tube 13 from the seed distributing device 11 to a seed outlet 14, opening a seed furrow by means of a seed furrow opener 15, comprising two sowing discs 15a, 15b arranged at an angle relative to each other, and pressing the seed into the soil by means of a resilient press surface 16, 16', 16", wherein the seeds are fed through the seed outlet in such a way that a direction of flow F of the seed at the seed outlet 14 intersects or is substantially tangent to at least a portion of the press surface 16, 16', 16", and the seeds are discharged from the seed outlet 14 at a position between the sowing discs 15a, 15b and, as seen in the transverse direction, inside or immediately adjacent to the periphery of at least one of the sowing discs 15a, 15b.

Claims

1. A row unit for precision sowing of seeds to obtain a predetermined number of plants per unit of length, comprising a seed distributing device (11), which is connected to a seed hopper (12) and adapted to feed single seeds from the seed hopper via a seed discharging tube (13) to a seed outlet (14), wherein the seed distributing device is configured to single out seeds from the seed hopper so that a line of seeds spaced apart a predetermined distance is obtained, the line of seeds being successively fed towards an inlet of a seed discharging tube (13), whereupon they are forced through the seed discharging tube (13) by means of compressed air, the seed discharging tube (13) adapted to feed said seed by means of an excess air pressure from the seed distributing device (11) to a seed outlet (14), a seed furrow opener (15), comprising two sowing discs (15a, 15b) arranged at an angle relative to each other, and a resilient press surface (16, 16', 16") for pressing the seed into the soil, wherein said press surface (16, 16', 16") is designed such that a direction of flow (F) of the seeds at the seed outlet (14) intersects or is substantially tangent to at least a portion of the press surface (16, 16', 16"), and wherein the seed outlet (14) is located between the sowing discs (15a, 15b) and, as seen in the transverse direction, inside or immediately adjacent to the periphery of at least one of the sowing discs (15a, 15b), and wherein the seed discharging tube (13) has the form of a pipe that extends straight down from the seed distributing device (11) and is terminated by a rearwardly curved portion, immediately upstream of the seed outlet (14).

2. A row unit according to claim 1, wherein the seed outlet (14), as seen in a plane perpendicular to the direction of flow (F) of the seeds, has substantially the same cross section as the seed discharging tube (13).

3. A row unit according to claim 1 or 2, wherein the whole of the seed outlet (14) is located in front of a vertical plane (V) that is tangent to one of the sowing discs (15a, 15b) and perpendicular to a main operating direction of the row unit.

4. A row unit according to any one of claims 1-3, wherein the seed outlet (14) is located at a distance from a horizontal plane (H) that is tangent to a lower edge of one of the sowing discs (15a, 15b).

5. A row unit according to any one of the preceding claims, wherein the seed outlet (14) is designed such that the direction of flow (F) of the seeds at the seed outlet (14) is at least 45 degrees relative to a vertical plane, at least 60 degrees relative to said vertical plane or at least 75 degrees relative to said vertical plane.

6. A row unit according to any one of the preceding claims, wherein the press surface (16, 16', 16") is formed by a press wheel (160).

7. A row unit according to claim 6, wherein the press wheel has a press part (161) and at least one side wall (162a, 162b), a material thickness (Ts) of the side wall (162a, 162b) being smaller than a material thickness (Tt) of the press part (161), preferably approximately 20% smaller, approximately 30% smaller, approximately 40% smaller, or approximately 50% smaller.

8. A row unit according to any one of claims 1-5, wherein the press surface (16, 16', 16") is formed by a substantially rigid body (160'), which is connected to said precision seeder by means of a spring element (163).

9. A row unit according to any one of claims 1-5, wherein the press surface is formed by an elastically resilient body (160").

10. A row unit according to any one of the preceding claims, wherein the seed discharging tube (13) comprises a substantially straight portion, whose length is greater than a radius of at least one of the sowing discs (15a, 15b).

11. A row unit according to claim 11, wherein the straight portion is substantially vertical.

12. A row unit according to any one of the preceding claims, wherein the seed discharging tube (13) and the seed outlet (14) form an integrated unit.

13. A row unit according to claim 1,wherein the pipe is made of a polymer material, for example plastic or rubber.

14. A precision seeder comprising at least two row units according to any one of the preceding claims.