CZ2017547A3 - A device for singling seeds - Google Patents

Abstract

The seed separation device, in particular the seed separation device (1) arranged on the seed drill, comprises a support disc (2) and a seed drain tube (3) in the seed compartment. The apparatus further comprises a rotatable spinning wheel (6) for high-speed transfer of seed (4) to the sowing space, with at least one sweeping surface (7) that abuts the support disc (2). The rotation of the spinning wheel (6) is synchronized with the rotation of the support disk (2) and is simultaneously arranged in the housing (14) with at least one guide wall (9).

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seed singling device, and more particularly to a seed singling device provided on a seed drill comprising a support means and a seed discharge tube towards the seed drill as part of a precision sowing machine.

BACKGROUND OF THE INVENTION

Presently, precision sowing machines are known which comprise a unifying means acting as a seed metering device. The union means may be in the form of a belt, a drum, a disc, or similar rotating geometries with a perforated surface. The seed attachment is due to the different air pressures on each side of the perforated surface. The seed is attached to the perforation in the direction of the pressure drop.

Also known in the art are solutions for conveying the seed from the unifying means towards the sowing space.

These designs include, for example, a disc vacuum uniting system where, when released from the uniting disk, the seeds typically fall by gravity into a short tube, referred to as a seed tube, and further into the soil. The disadvantage of this design solution is a significant decrease in accuracy at a higher seed dosing frequency and a decrease in accuracy due to the coulter vibrations when moving in the soil. The gravity system is not applicable for precise cereal sowing at higher frequency.

Further, the patent application WO 2010059101 A1 discloses a unifying system with a unifying disk, in which an overpressure is created on one side of the disk which causes air to flow through the openings in the disk. The resulting pressure drop is used to suck the seeds, which are then transported by the uniting disk to the place where the means for interrupting the air flow through the opening is located. Here the seeds are released from the uniting disc and fall into the mouth of the seed discharge tube located there. Some of the pressurized air escapes through the seed drain tube and creates an air flow there that transports the seeds through the tube to the soil. This solution partially eliminates the disadvantages of the gravity system described above, and is particularly suitable for sowing maize. It is unsuitable for sowing cereals, because the low initial kinetic energy given and the low initial seed speed result in significant inaccuracies in the distance of the seeds after they pass through the seed removal tube.

Another patent application DE 102007062967 A1 discloses a singling disc system where seeds are blown by a nozzle into a seed discharge tube in a radial direction perpendicular to the tangent of the singling disc. The disadvantage of this construction is a significant change in the direction of movement of the seed after release from the singling disc when the seed changes its direction of movement by approximately 90 °. This change in the direction of movement of the seed increases the inaccuracy of seed movement in the tube at a higher circumferential speed of the disc, and thus great inaccuracies in the final pitch of seed placement in the soil. A big disadvantage is also that at a certain speed of movement of the singling disc, due to the kinetic energy, the seed is not diverted into the seed discharge tube, but the seed is returned to the hopper, omitting a single sowing point.

From the patent document CZ 305159 there is known a seed singling device, arranged on a seed drill, comprising a support means and a tube for the seed discharge towards the sowing space, wherein the support means is in particular vacuum or overpressure containing at least one tube with compressed air of the carrier means into the seed discharge tube, wherein the pipe is adjacent to the carrier means through the compressed air and its axis closes with the tangent

A3 of the support means an angle β = ± 30 °, and the seed discharge tube abuts the support means, its axis forming an angle α = ± 30 ° with the tangent of the support means. This design, while providing very accurate sowing, has the great disadvantage of increased sensitivity to contamination, which can arise in difficult working conditions.

The precision sowing device is further known from EP 2747541. The device comprises a support disk with holes in which individual seed grains are carried by means of vacuum, which are transferred to the seed conveyor by means of a pair of feed wheels, which transports the individual grains with high precision into the sowing space. . The feed wheels are spaced with each other and transfer the grains to the seed conveyor at a low speed over a short distance. If the speed was higher, the grain would be returned by reflection and this would result in inaccurate sowing. A major disadvantage of this device is its relative structural complexity with a large number of individual parts. Due to the difficult conditions in which the device operates, this also entails high failure rates and high wear and the associated high service costs.

It is clear from the aforementioned prior art that the main disadvantage of the prior art is that the known seed drills do not guarantee very accurate sowing at high speeds, which disadvantage increases considerably under difficult working conditions.

It is an object of the present invention to design a seed singling device which will be able to guarantee accurate sowing at high speed even under difficult working conditions.

SUMMARY OF THE INVENTION

The aforementioned drawbacks are largely overcome and the objectives of the invention are met by a seed singling device, in particular a seed singling device provided on a seed drill, which comprises a support disc, in particular a vacuum or pressurized support disc with seed bearing openings and a seed discharge tube towards the seed chamber according to the invention, characterized in that it comprises a rotary metering wheel for the high-speed transfer of seed to the sowing space, with at least one metering surface adjoining the support disk, the rotation of the metering wheel being synchronized with the rotation of the support disk, housing, with at least one guide wall. The advantage is the very precise timing of the individual seed grains and the associated high sowing accuracy, and this device is also highly reliable even in difficult working conditions.

Advantageously, the spinning wheel has speeds which are x faster than the speed of the support wheel, whereby x is equal to the number of support wheel seed apertures divided by the number of the spreading wheel spreading surfaces. The advantage is the possibility of accurate timing of the movement of the support disc and the spreading wheel, which brings regularity into the movement of individual seed grains and thus further increases the sowing accuracy.

A further increase in sowing accuracy occurs when the rotation of the spreading wheel and the support wheel is synchronized so that at least one spreading surface of the spreading wheel intersects the axis of each seed wheel opening. The advantage is the maximum possible increase in the accuracy of seed grain blasting from the surface of the blasting wheel.

A further advantage is that the seed disc with the seed-bearing apertures has a tilted edge, most preferably the edge is tilted at an angle [alpha] = 0 [deg.] To 30 [deg.] Relative to the surface of the carrier disc. The advantage is easier assembly of all parts of the whole structure. The main advantage is the optimization of the settings of the areas influencing the precise operation of the seed grain.

In order to minimize disruption in the accuracy of seed grain blasting from the surface of the support disc, it is further preferred that the seed bearing openings are arranged at the edge of the transition to the folded edge.

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Furthermore, it is advantageous if the metering wheel is arranged parallel to the folded edge of the support disc, and a leading segment is arranged between the metering wheel and the support disc. The advantage is that the start-up segment minimizes disturbance of the seed grain movement due to the turbulence of air in the space just above the support disk.

According to a most preferred variant, the leading segment is attached to the housing. This design is optimal with regard to the simplicity of the overall spatial arrangement of all parts of the structure.

According to another possible variant, the leading segment is preferably attached to the surface of the support disc.

It is further preferred that the housing comprises an orifice for discharge of the seed.

It is further preferred that the sweep wheel comprises at least two sweep surfaces, wherein the inner edge of the first sweep surface is always connected by a spirally arranged rotating surface to the outer edge of the sweep surface. The smooth transition between the spreading surfaces provides stable pressure ratios, minimizing the potential for disturbance of the precise flight of seed grain.

Optimum seed grain blasting is achieved when the spreading surface is curved, ideally when the spreading surface is tilted against the direction of rotation of the spreading wheel. The curved design of the spreading surface allows the precise seed grain to be fired, in which the seed grain is brought into rotation, which brings the seed grain evenly through the seed discharge tube.

In order to optimize the flight of the seed grain, it is advantageous if the guide wall of the housing is designed as parabolically curved. The deflection compares the possible different velocities of the individual seed grains as they enter the seed discharge tube, thereby increasing the timing accuracy of the individual seed grains. In fact, the seed grains tend to slide along the tube wall in approximately the same manner and speed, while the parabolic deflection ensures that the required spacing is maintained.

With respect to the synchronization of the movement of the sweep wheel with the support disk, it is advantageous if the sweep wheel is connected to the support disk by transmission. The advantage is simple and accurate timing of individual functional moving parts.

The main advantage of the seed singling device according to the invention is, in addition to the high sowing accuracy at high speeds, mainly a significant increase in operational reliability over the prior art. The device allows to achieve high evenness of individual seeds and their correct placement behind the outlet of the seed discharge tube under the seed coulter pressure roller at the desired target spacing into the sowing space, especially at higher seed movement rate by the seed drill related to higher sowing speed. field machines. Another advantage is the relatively small number of parts that make up the device, which means not only lower production costs, but also lower service costs and overall greater wear resistance.

Clarification of drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional front view of a detail of the arrangement of the blasting wheel in the housing and the support disc; FIG. 2 is a cross-sectional perspective view of the apparatus of the leading segment; Fig. 4 shows a detailed side sectional view of the arrangement of the sweep wheel, the support disk and the run-on segment, and Fig. 5 shows a perspective view of the arrangement of the unifying device. seed on the seed drill.

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DETAILED DESCRIPTION OF THE INVENTION

Example 1

The seed singling device 4 (FIG. 1) is arranged on the seed drill (FIG. 5) and comprises a vacuum support disk 2 with seed bearing openings 15 and a seed discharge tube 3 towards the seed chamber.

The seed singling device 4 comprises a swiveling wheel 6 for high-speed transfer of seed 4 to the sowing space, with a pair of planting surfaces 7. The wheel 6 and the support wheel 2 are arranged parallel to each other, the wheel 6 abutting to the support wheel 2, and the rotation of the metering wheel 6 is synchronized with the rotation of the support disc 2. The metering wheel 6 is simultaneously arranged in a housing 14 having a guide wall 9.

Since the support disc 2 has 30 seed bearing holes 15 and the metering wheel 6 has a pair of metering surfaces 7, the metering wheel 6 has a speed that is 15 times faster than the speed of the support wheel 2.

The rotation of the metering wheel 6 and the support disk 2 is synchronized so that the metering surface 7 of the metering wheel 6 always intersects the axis 19 of each aperture 15 of the support disk 2 for carrying the seed 4.

The housing 14 comprises a mouth 5 of a seed discharge tube 3.

The metering surfaces 7, 8 are curved and diverted against the direction of rotation of the metering wheel 6. The inner edge 10 of the first metering surface 7 is connected by a spirally arranged rotating surface 11 to the outer edge 12 of the following metering surface 8. The inner edges 10 and the outer edges 12 are rounded.

The guide wall 9 of the housing 14 is parabolically curved.

The metering wheel 6 and the support disk 2 are connected to separate drives (not shown).

The seed singling device 1 operates in such a way that a vacuum is produced on one side of the carrier disc 2 at the location of the apertures 15, whereby air flows through the apertures 15 in the carrier disc 2 and produces a suction effect , which is arranged in an unfiltered scoop space. After the seed 4 has been sucked onto the seed disc 2, the seed 4 passes by rotating the seed disc 2 through a so-called comb area which combs the excess seed 4 so that only one seed grain 4 is sucked on each aperture 15. a vacuum interrupter (not shown) is located. After the vacuum has been interrupted, the seed 4 is released and at the same time directs the seed wheel 6 through the bent spreading surface 7 to the wall 9 of the housing 14, which guides the seed 4 into the mouth 5 of the seed discharge tube 3.

Example 2

The seed singling unit 1 (FIG. 1, FIG. 2, FIG. 3, FIG. 4) is arranged on the seed drill and comprises a vacuum support disk 2 with seed carrying openings 15 and a seed delivery tube 4 towards the seed. to the sowing space.

The seed singling unit 1 comprises a rotary sweep wheel 6, for high-speed transfer of seed 4 to the sowing space, with a pair of spreading surfaces 7.

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The seed plate 2 with the seed bearing holes 15 has a tilted edge 16 at an angle α = 15 ° to the surface 20 of the carrier plate 2. The seed carrier holes 15 are arranged at the edge 17 of the transition to the tilted edge 16.

The metering wheel 6 is arranged parallel to the folded edge 16 of the support disc 2, wherein a leading segment 18 is provided between the metering wheel 6 and the supporting wheel 2, which according to the first variant is fixed to the housing 14. to the surface of the support disk 2.

The metering wheel 6 abuts the support disc 2, the rotation of the metering wheel 6 being synchronized with the rotation of the support disc 2. The metering wheel 6 is simultaneously arranged in a housing 14 having a guide wall 9.

Since the support disc 2 has 30 seed bearing holes 15 and the metering wheel 6 has a pair of metering surfaces 7, the metering wheel 6 has a speed that is 15 times faster than the speed of the support wheel 2.

The rotation of the metering wheel 6 and the support disk 2 is synchronized so that the metering surface 7 of the metering wheel 6 always intersects the axis 19 of each aperture 15 of the support disk 2 for carrying the seed 4.

The housing 14 comprises a mouth 5 of a seed discharge tube 3.

The metering surfaces 7,8 are curved and inclined against the direction of rotation of the metering wheel 6. The inner edge 10 of the first metering surface 7 is connected by a spirally arranged rotating surface 11 to the outer edge 12 of the metering surface 8 following. The inner edges 10 and the outer edges 12 are rounded.

The guide wall 9 of the housing 14 is parabolically curved.

The metering wheel 1 is connected to the support disk 2 by a gear 13, the support disk 2 being connected to a drive (not shown).

The seed singling device 1 operates in such a way that a vacuum is produced on one side of the carrier disc 2 at the location of the apertures 15, whereby air flows through the apertures 15 in the carrier disc 2 and produces a suction effect , which is arranged in an unfiltered scoop space. After the seed 4 has been sucked onto the seed disc 2, the seed 4 passes by rotating the seed disc 2 through a so-called comb area which combs the excess seed 4 so that only one seed grain 4 is sucked on each aperture 15. a vacuum interrupter (not shown) is located. After the vacuum has been interrupted, the seed 4 is released and at the same time directs the seed wheel 6 through the bent spreading surface 7 to the wall 9 of the housing 14, which guides the seed 4 into the mouth 5 of the seed discharge tube 3.

Industrial applicability

The seed unification device according to the invention can be used on an agricultural machine for precision seed drilling.

PATENT CLAIMS

Claims (15)

A seed singling device, in particular a seed singling device (1) arranged on a seed drill, comprising a support disk (2), in particular a vacuum or pressurized support -5 2017 2017 - 547 A3 disc (2) with seed bearing holes (15) (4), and seed discharge tube (3) towards the seed drill, characterized by a swiveling wheel (6) ) for high-speed transfer of seed (4) to the sowing space, with at least one spreading surface (7) adjacent to the support disk (2), the rotation of the spreading wheel (6) being synchronized with the rotation of the support disk (2) arranged in the housing (14), with at least one guide wall (9). Seed singling device according to claim 1, characterized in that the spinning wheel (6) has a speed which is x faster than the speed of the support disc (2), where x is equal to the number of seed carrying holes (15) (15). 4) a support disk (2) divided by the number of spreading surfaces (7) of the spreading wheel (6). Seed singling device according to one of the preceding claims, characterized in that the rotation of the metering wheel (6) and the support disc (2) is synchronized such that at least one metering surface (7) of the metering wheel (6) intersects the axis (19) each hole (15) of the seed disc (2) for carrying the seed (4). Seed singling device according to one of the preceding claims, characterized in that the support disk (2) with the seed bearing openings (15) has a folded edge (16). Seed singling device according to claim 4, characterized in that the support disc (2) with the seed carrying openings (15) has a tilted edge (16) at an angle α = 0 to 30 ° with respect to the surface (20). ) of the support disc (2). Seed singling device according to one of Claims 4 and 5, characterized in that the seed carrying openings (15) are arranged on the edge (17) of the transition to the folded edge (16). Seed singling device according to one of Claims 4 to 6, characterized in that the spreading wheel (6) is arranged parallel to the folded edge (16) of the support disc (2), wherein between the spreading wheel (6) and the support disc (2) a leading segment (18) is provided. Seed singling device according to claim 7, characterized in that the infeed segment (18) is attached to the housing (14). A seed singling device according to claim 7, characterized in that the leading segment (18) is attached to the surface of the support disc (2). Seed singling device according to one of the preceding claims, characterized in that the housing (14) comprises a mouth (5) of the seed discharge tube (3). Seed singling device according to one of the preceding claims, characterized in that the sweep wheel (6) comprises at least two sweep surfaces (7), wherein the inner edge (10) of the first sweep surface (7) is always connected by a spirally arranged rotary a surface (11) with an outer edge (12) of the spreading surface (8) following. Seed singling device according to one of the preceding claims, characterized in that the planting surface (7, 8) is curved. Seed singling device according to one of the preceding claims, characterized in that the spreading surface (7,8) is inclined against the rotation direction of the spreading wheel (6). Seed singling device according to one of the preceding claims, characterized in that the guide wall (9) is parabolically curved. -6GB 2017 - 547 A3 Seed singling device according to one of the preceding claims, characterized in that the metering wheel (6) is connected by a transmission (13) to the support disk (2).