DE4333288A1 - Direct-sowing seed drill - Google Patents

Abstract

Direct-sowing seed drill with a frame and with an associated supply container or containers, there being arranged on the frame coulters, such as tine coulters, chisel coulters, band-chisel coulters, cultivator coulters or, offset relative to one another in at least three transverse rows one behind the other, chisel coulters or disc coulters, and there being arranged behind the seed coulters a rotor currycomb motor-driven about a horizontal axis. The rotor currycomb consists of a plurality of parts arranged vertically movably relative to one another.

Description

The invention relates to a direct seed drill according to the preamble of claim 1.

In the main patent. . . (... registration P 43 30 555.5), is a direct seeder with one Frame, wheels and assigned storage container described. Are on the frame Coulters arranged. A rotor harrow is arranged behind the shares.

The invention has for its object, a good even on uneven floor surfaces To cover the seed in the seed furrows.

This object is achieved by the characterizing measure of claim 1 solved. As a result of this measure, the rotor harrow divided into parts can move against each other move and adapt themselves in sections to the ground contour. Here the rotor harrow is divided into at least two parts. These parts of the rotor harrow can move independently of each other in the height direction. In one embodiment, that the individual parts of the rotor harrow via folding joints, their axes in the direction of rotation run, are movable to each other.

In another embodiment it is provided that each part of the rotor harrow by means of own bracket is attached to the frame. The individual parts of the rotor harrow are thus complete arranged independently of one another in the vertical direction.

The rotor harrow according to the invention can be used for direct seeders with all types of shares, such as Chisel, cultivator, tine shares, band chisel shares, disc shares etc. used become. These coulters can be guided individually or in groups on the frame in height. The coulters are preferably individual height guide rollers or in groups Height guide rollers assigned to the frame on which the coulters are arranged.

The parts of the harrow are preferably divided into equal distances from the frame the direct seed drill, so that the parts of the rotor harrow with the assigned Frame parts can be folded together from its working position into a transport position.  

The rotor of the rotor harrow is adjustable such that the rotor bottom parts in the sowing furrow promotes so that the seed furrow is closed and / or the seeds deposited in the seed furrow be covered with floor parts. Thus, in conjunction with the independent Height flexibility of the rotor harrow parts ensures that even under the most difficult Conditions on heavy soils ensure that the seeds with soil parts be covered. The rotor pushes straw or green mass mixed with soil parts in front of it forth, the rotor separating the mixture in a surprisingly simple manner takes place so that essentially only the bottom parts are conveyed into the sowing furrow while the Straw and green mass fractions of this mixed pile are picked up by the rotor and in be placed in a similar manner above the deposited seeds. In advantageous This mass is conveyed overhead by the rotor. This can proceed as follows: The seed is first in the from the seed coulters generated seed furrows stored in the ground. After placing the seeds in the soil become those on the surface of the soil and partly in piles and / or piles existing plant and plant residues partly mixed with soil parts from the Tines or tine-like elements of the harrow rotor added and then again placed in a similar manner above the bottom of the deposited seed. By picking up these piles an at least partial separation of the Plant parts from the bottom parts. By means of the above-mentioned method steps, also with large quantities of plants and plant residues (straw) covered soils, which are partly too Are stacked together, a good result of seed placement and covering in the Soil as well as optimal germination and growth conditions created. Through this rotor are the previously mentioned piles in a surprising and unpredictable way separated and the piles are placed on the Stored floor surface.

The tines or tine-like elements of the rotor are much smaller Distance arranged as the seed furrow distance to each other. This will be surprising Achieved better uniformity of the plant and soil parts. Has been advantageous proved that the tines are arranged on the rotor such that at least one prong in the In the middle between the seed furrows. This results in a relatively close arrangement of the Tines reached towards each other, so that the plants and plant remains in a similar manner the floor surface can be stored.

In a preferred embodiment it is provided that in the area between each sowing furrow at least two prongs are arranged. This means that at least twice the number of tines as the number of coulters is arranged on the rotor.  

Further details of the invention can be found in the example description and the drawings remove. Show here

Fig. 1, the direct seed drill with sowing coulters rotatingly driven behind the rotor tines, in side view and in basic representation,

Fig. 2 shows the direct seed drill in rear view with the side frame and harrow folded in the transport position and raised seed coulters in the transport position in a schematic diagram and

Fig. 3 shows the direct seed drill in rear view with the side frame and harrow folded out in the working position.

The direct seeder is intended for sowing seeds in soils that have not been prepared for sowing. The direct seed drill has the base frame 1 . The base frame 1 has a width transverse to the direction of travel 2 of max. 3 m. The wheels 5 are arranged on the base frame 1 on the rear side 3 at a distance from one another via the two support arms 4 . On the front 6 of the base frame 1 there is the drawbar 7 , which is to be connected to the trailer coupling of an agricultural tractor or, via a special coupling device, to the lower links of the three-point linkage of a tractor.

The two side arms 8 are articulated laterally on both sides of the base frame 1 by means of the folding joints 9 . These folding joints 9 are designed as double joints or toggle joints, so that the side frames 8 can be pivoted through 180 ° from the working position shown in FIG. 3 as shown in FIG. 2, the side frames 8 then being located above the base frame 1 . For this purpose, between the hinged joints 9 and the side frame 8 and the base frame 1 in each case a hydraulic cylinder 10 is arranged, so that to bring about this hydraulic cylinder 10, the side frames 8 from the position shown in Fig. 3 working position shown in Fig. Transport position shown 2 and flipped are.

Both on the side frame 8 and on the base frame 1 , coulter holding frames 11 are provided, on which the coulters designed in the exemplary embodiment as chisel coulters 12 are arranged so as to be movable in the height direction by means of parallelogram links 13 . The seed coulters 12 are arranged in 4 transverse rows one behind the other with a gap between them. Depth guide and pressure rollers 14 are arranged behind the coulters 12 , which determine the depth of penetration of the coulters 12 into the ground. Due to the seeding coulters 12 , which can be moved individually in the vertical direction, a uniform placement depth of the seed in the soil is always achieved.

On the rear side 3 of the direct seed drill, an area for arranging the pneumatic metering tank is provided above the impellers 5 . This metering tank has a known metering system, which is therefore not shown in detail. The transport lines lead from this metering system to the distributor heads 15 , which are arranged on the front 6 in front of the base frame 1 . From these two distributor heads 15 , a seed line 16 leads to each seed coulter 12 , so that the seed can be deposited in the seed furrows torn into the ground by the seed coulters 12 .

The rotor harrow 16 is arranged behind the coulters 12 . This rotor harrow 16 consists of several, in the exemplary embodiment of the three parts 17 , 18 , 19th The parts 17 , 18 , 19 of the rotor stem 16 are arranged such that they can be moved relative to one another. In the exemplary embodiment, the outer frames 20 of the rotor harrow 16 are connected to the middle frame 21 of the rotor harrow 16 via hinged joints 22 , so that the outer parts 17 , 18 of the rotor harrow 16 pivot relative to the middle part 19 about the axis 23 extending through the hinged joints 22 in the vertical direction can. The rotor harrow 16 is articulated on the base frame 1 by means of the holder 24 and the swivel joints 25 , so that the rotor harrow 16 can move in the vertical direction relative to the frame 1 of the seed drill. However, it is also possible for each individual part 16 , 17 , 18 of the rotor harrow 16 to be arranged such that it can be moved vertically in the vertical direction by means of its own holder on the base frame 1 or the side frame 8 , so that the individual parts 17 , 18 , 19 of the rotor harrow 16 can move individually in height in accordance with the ground contour, so that a good adaptation of the rotor harrow 16 to the ground contour is achieved. It is also possible that the rotor harrow 16 in the central region 19 also consists of several parts which are arranged such that they can be moved relative to one another. The length of the individual parts is to be measured according to whether the direct seed drill with the rotor harrow 16 is used on relatively flat or extremely uneven floors.

Each individual part 17 , 18 , 19 of the rotor harrow 16 has its own motor drive device, which is designed as a hydraulic motor 26 in the exemplary embodiment.

In the exemplary embodiment, the width of the individual parts 17 , 18 , 19 of the rotor harrow 16 corresponds approximately to the working widths or widths of the individual frame parts 1, 8 of the frame of the direct seed drill arranged in front of it. The rotor harrow 16 can be folded from the working position shown in FIG. 3 into the transport position shown in FIG. 2.

The rotor of the rotor harrow 16 is adjustable in such a way that the rotor 16 conveys soil parts into the seed furrow, so that the seed furrow is closed and / or the seed grains deposited in the seed furrow are covered with soil parts. The rotor harrow 16 has tines 27 or tine-like elements which are arranged at a much smaller distance than the sowing groove distance from one another. Here, the tines 27 of the rotor 16 are arranged so that at least one prong 27 is located in the middle between the seed furrows. At least two tines 27 are arranged in the area between each sowing furrow, so that at least twice the number of tines 16 as the number of coulters 12 are assigned to the rotor 16 .

The storage container 28 can be arranged at various points on the distribution machine.

The operation of the rotor harrow 16 is as follows:

The straw and / or plant parts partially contracted or moved by the coulters 12 are gripped by the prongs 27 of the rotor harrow 16 . Here, the rotor harrow 16 pushes a small wall in front of it, which contains straw or possibly soil parts mixed with the straw. The prongs 27 of the rotor harrow 16 capture the straw and the plant parts in this small wall and throw them in the direction of rotation 28 against the direction of travel 2 over the rotor harrow 16 onto the ground surface behind the rotor harrow 16 . In this case, the straw and plant parts are picked up by the tines 27 of the rotor harrow 16 from the wall, and the straw and plant parts are separated from the soil parts which may be contained therein. The straw and the plant parts are gripped by the prongs 27 , thrown backwards and deposited on the ground surface in a uniformly loose layer, while the ground parts located in the straw or in the plant parts pass under the rotor harrow 16 . Furthermore, the rotor harrow 16 closes the seed furrows and covers the seeds deposited in the seed furrows with soil. The rotor harrow 16 at the same time distributes the soil parts which have passed under the rotor harrow 16 as well as the soil parts thrown backwards evenly on the soil surface directly on and in the sowing furrows which have not been sufficiently closed by the rollers 14 arranged behind the coulters 12 . The sowing furrows are thus closed again with base parts by this rotor harrow 16 .

Claims (9)

1.Direct seeder with a frame and assigned storage container or containers, with coulters, such as tine coulters, chisel coulters, band chisel coulters, cultivator coulters or in at least three transverse rows of chisel coulters or disc coulters arranged one behind the other in a row, and one behind the coulters horizontal axis motor-driven rotor harrow ( 16 ) is arranged, according to the main patent. . . (.. application P 43 30 555.5), characterized in that the rotor harrow ( 16 ) consists of several parts ( 17 , 18 , 19 ) which are vertically movable relative to one another. 2. Direct seed drill according to claim 1, characterized in that the frame has a base frame ( 1 ) and on this by means of folding joints ( 9 ) hinged side frame ( 8 ) with coulters ( 12 ) arranged thereon, behind the coulters ( 12 ) on the Frame ( 1 ) is arranged around a horizontal axis and preferably motor-driven rotor harrow ( 16 ), the width of which at least approximately covers the frame parts ( 1, 8 ) of the frame located in front of it, and that the parts ( 17 , 18 , 19 ) of the rotor harrow ( 16 ) are arranged in relation to one another in a vertically movable manner. 3. Direct seed drill according to claim 2, characterized in that the parts ( 17 , 18 , 19 ) of the rotor harrow ( 16 ) with the frame parts ( 8 ) assigned to them can be folded together from a working position into a transport position. 4. Direct seed drill according to one or more of the preceding claims, characterized in that the rotor harrow ( 16 ) and / or the parts of the rotor harrow ( 17 , 18 , 19 ) are articulated in the height direction by means of brackets ( 24 ). 5. Direct seed drill according to one or more of the preceding claims, characterized in that the rotor ( 16 ) is adjustable in such a way that the rotor ( 16 ) conveys soil parts into the seed furrow, so that the seed furrow is closed and / or the seed grains deposited in the seed furrow be covered with floor parts. 6. Direct seed drill according to one or more of the preceding claims, characterized in that the rotor ( 16 ) arranged behind the coulters ( 12 ) has tines or tine-like elements which are arranged at a substantially smaller distance than the seeding groove distance from one another. 7. direct seeder according to one or more of the preceding claims, characterized in that the tines of the rotor are arranged such that there is at least one prong in the middle between the seed furrows. 8. direct seeder according to one or more of the preceding claims, characterized in that at least in the area between each sowing furrow two tines are arranged. 9. direct seeder according to one or more of the preceding claims, characterized in that at least twice the number of tines than that Number of coulters are assigned to the rotor.