DE1283589B - Precision seeder - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

AOIc

German class: 45 b -7/04

Number: 1283 589

File number: P 12 83 589.1-23 (K 58642)

Filing date: March 4, 1966

Opening day: November 21, 1968

The invention relates to a precision seeder with a wheel running on the ground and on the same axis arranged cell ring.

It is known that single grain planters by the limited ability of the cell or Gripper rings, at higher speeds a single grain from one with exactly no defects To be able to take stock, are limited in the driving speed. Therefore, it is often used for the Cell movement selected a speed that is significantly lower than the driving speed. Even then, however, you cannot increase the driving speed arbitrarily, because that would the risk of the grain rolling in the furrow increases considerably. It is true that there are versions - »5 knows who eliminate the last-mentioned disadvantage with the help of controlled grippers in that the Rotate the gripper at approximately driving speed. However, these previously known designs are a consequence the necessary control quite complex. Admittedly, there is no horizontal relative movement here between the gripper and the floor, but there are possible variations for the placement distances quite limited. There are also known designs in which drop cells run faster than the Cell ring taking individual grains from the supply. In addition, there are versions in which the shape of the seed pipes in interaction with gravity accelerates the grain or that achieve this acceleration effect through air pressure. These funds make it possible however, no precise control of the grains.

The state of the art also includes a precision seeder with a rotating cell ring has, the equiaxed and rigidly connected to a depositing device and from this by a Fixed cover is separated. The grains taken up by the cells become with this Execution by means of an ejector through one provided in the upper quadrant of the cover plate Passage opening to the side released into the depositing device, the several on the circumference a circle arranged and each assigned to a cell has seed lines which are derived from the Feed rows of discharged grains into the discharge opening. However, this known device has Disadvantage that a flat disk in the width of the cell is used, with the cells radially and laterally are open to the seed supply, so that either a rotating ejector with ejector pins is attached must be or must be accepted with a rigid ejector that Precision seeder

Applicant:

Dr. Wilhelm Knolle, 3440 Eschwege

Named as inventor:

Dr. Wilhelm Knolle, 3440 Eschwege

this cannot penetrate the whole area of the cells, so that there is a risk of grain damage exists when the grains lying loosely in the cells are not fully grasped by the ejector. At this known device also impairs the narrow seed box the free running the grain with the surrounding flat cell disc. The shape of the sowing channels also requires a second radial ejector at the deposit point, which hinders tangential ejection and thus an undesired braking of the grains is caused, which causes a horizontal relative movement to the furrow.

The object of the invention is now to eliminate the aforementioned disadvantages and, moreover, a To create precision seeders that not only work precisely at high working speeds made possible, but is also characterized by simple structure and economic efficiency. To solve this problem, the invention is based on a precision seeder, which consists of frames, Trailer hitch, seed hopper, coulter, pressure roller and furrower as well as one next to the Flocked main wheel with a rotating cell ring and a depositing device consists, and in the case of the cell ring and depositing device, equiaxed and rigidly connected to one another, but through a fixed cover plate are separated, which has a passage opening for the in the upper quadrant Having grains from the cells to the laying device, and each individual cell having a sowing channel is assigned, the outlet opening is on the circumference of a circle, the diameter of which is larger than that of the cell ring and its surface is perpendicular. The new device is now in accordance with the invention of this type, characterized in that the cell ring on one end face of a hollow cylinder is arranged. According to a preferred embodiment of the invention, this hollow cylinder has its end face located in the area of the cells one

809 638/1194

3 4

ring-shaped ejector groove, which is deeper than the walls not radially, but from the inside to the outside

Width with which the cells develop in the direction of the zy- leading against the radial of the hollow cylinder

extend the axis of the leash. speaking of the center line 8 α are inclined. Same-

The cells arranged according to the invention on one end face of the cell walls opposite the jacket hollow cylinder are designed in such a way that double fillings are avoided. According to an embodiment of the invention that is advantageous opposite to the direction of movement of arrow A , they are positioned obliquely to this both against the direction of rotation and against the second center line 8 b. The one provided with the cell ring is arranged obliquely around the end face of the hollow cylinder. The inner surface of the hollow cylinder jacket is expediently equipped with an annular ejector groove 9 and moderately roughened or provided with flat, rounded by the fixed cover plate 11 on the driver strips. Cell ring side closed. The cover plate carries

The invention is based on the in FIGS. I to IX their grain entry opening 12 approximately at the lowest point

illustrated embodiments explained in more detail. In the hollow cylinder and its outlet opening 13,

15 shows the individual grains in the cells

F i g. I the overall view of a single grain seeding means of the attached to the cover plate 11, in

Machine according to the invention schematically of the ejector 14 engaging the ejector groove

Page, borrowed to be pushed out. The effective ejector

F i g. II shows a cross section through the in F i g. I edge is approximately at right angles to the

device shown, in the view from the front, as seen in the direction of the rear cell wall to

F i g. III a detail of FIG. Π, namely the clamps between the ejector and the cell wall

hollow cylinder provided with cells, to be avoided in perspek. The outlet opening 13 is in the left

tivischer representation, upper quadrant of the disc 11 with respect to their

Fig. IV a further detail of Fig. II, and arranged horizontal center line. This will

Although the cover, also in perspective 35 achieved that a grain position as a result of the handle

Representation, cell after crossing the horizontal center line

F i g. V a schematic representation of the demand cannot yet fall down, while an over-

movement course of the grains in the device lying grain rolls down from the cell edge.

according to Fig. II, which consists of the grains in the hollow cylinder

F i g. VI shows a cross section through the course of movement carried out with the lead-off 30 in FIG. V through the

Covered, cell-provided arrow ring BCD illustrated. The branch CD of this

Hollow cylinder, arrow ring indicates how the excess of grains

F i g. VII is a top view of the seeder rolling. With this arrangement, there is no need for any cell

with a transparent cover disc and sowing cover or any scraper inside the

duct disc. 35 hollow cylinder, whereby the completely free movement of the

The in F i g. I illustrated precision seeder is grain inside the cylinder is made possible. Due to the loose, pressure-free movement with known attachment elements for fastening, the filling is fitted to a tool rail at D. She shows the cells standing on the handle secured. Since the Abweiter a main wheel 2 and a seed box 3. place much too high from the ground, below the seed box and to the side of the main 4 ° when the grains rad from the outlet opening 13, a coulter 4 is provided. If the grains would be thrown off immediately behind the main wheel, there is a pressure roller S, which is initially connected to each cell 10 opposite the stringer 6. With the main wheel attached and with the cell revolving seams the axis 7 rotates coaxially a sowing mechanism, the channel 15 is pushed. These sowing channels are, as is firmly coupled with the main wheel. 45 Fig. VII illustrates on the disk-shaped

The seeding mechanism, which is shown in more detail in FIG the sowing channels 15 each have a provision and are equipped with cells 10. The opening that is larger than the exit opening of the inner surface of the jacket of the hollow cylinder can be 5.degree. 13 of the cover plate 11. It is also recommended that the inlet openings of the sowing channels be equipped with roughened or missing carrier strips. The hollow cylinder is to be kept slightly larger than its outlet openings, cover disk 11 is covered, which - as shown in FIG. IV The latter are again shown somewhat larger than the largest - a seed inlet opening 12 suitable for the respective cell type, and a single-grain outlet opening 13 with an ejector 14 which is marked for a better understanding of the course of movement. In FIG. VII, the cover disk 11 is attached to the cover disk 11 of the grains, which also closes around the axis 7 and the disk-shaped depositing device 16 is designed as a rotatable disk made of glass and provided with sowing channels 15. Immediately after the shaped depositing device 16, the circumference of which pushes a grain out of the cell of the cell ring, open sowing channels through a stationary, circular ^6o , it is covered by the outlet opening 13 in the cover 17. ordered, in the illustrated embodiment

The aim of the invention is to provide a complete filling of kinked sowing channel 15 and thrown through

of cells without double fillings. Gravity and centrifugal force by leaps and bounds

For this purpose, as shown in Fig. ΙΠ, the gripping cover 17 is thrown until it is then out

Cells 10 can emerge at the edge of the sowing opening 18 arranged around the horizontal axis 7 65,

rotatable hollow cylinder 8 so arranged that the

Enter grains from within. For this purpose, an intervening speed has a diameter ratio

Arrangement of the cells provided, d. This means that their coverage from cell ring to cover is 1: 2, each

however, any other ratio can also be used, expediently not more than about 1: 3, for example also about 1: 1 can be used. A particular advantage of the arrangement is the possibility of each to achieve any desired spacing after division. This turns out to be particularly good for large ones Seeds, e.g. B. beans, corn or peas as beneficial. The seeds should be placed at a distance of 8 cm the distance between the circumference of the cell ring and the circumference of the sowing channel is 1: 2 of the cells in the cell ring 4 cm, so that there is enough space for the semen to classify from cell to cell remains, with a simultaneous cell length of, for example, 12 mm. In known designs with a ratio of cell speed to driving speed of e.g. B. 1: 5 remains between the Cells no longer have sufficient space for the bar to separate the cells. With a spacing of z. B. 20 mm in the furrow, however, according to the invention, there is still a cell spacing of 10 mm, so that convenient 4 mm cells, e.g. B. for vegetable pills or for cereal grains remain. A sufficiently wide bridge between the cells is important for the filling. Otherwise the already filled cell will hinder the next, as the front sight cannot arrange itself and a skipping of the previous front sight over the subsequent cell can be the result.

To replace the cell ring shown in FIG. II, the hollow cylinder 8 and the sowing channel 16 are made two parts made. To exchange, the adjusting ring 19 (Fig. II) is loosened and the main wheel along with it Hollow cylinder with cell ring removed. The sowing channel disk 16 and the cover disk 11 remain on the axle 7. The new hollow cylinder with cellular ring is pushed onto the axle along with the main wheel, whereupon the collar is fastened again. Preferably 24 sowing channels are provided. The exchange of only the hollow cylinder with cell ring enables the use of hollow cylinders with 24, 12, 8, 6, 4, 2 or just one cell, depending on the spacing for the Grains are chosen. A conversion of the distances to double or triple is also possible without Cylinder exchange through the use of a cover element arranged in the hollow cylinder for the Cells not to be occupied are conceivable.

According to the invention, experience has shown that circumferential speeds can be achieved depending on the condition of the soil of the cells up to about 1.5 m / s - corresponding to twice the driving speed of 3 m / s or about 11 km / h - reach when completely filled. The grains roll in the furrow the rolling movement of the Säkanalscheibe on the ground as a result of the coupling with the support or Main wheel avoided, which has about the same diameter as the Säkanalscheibe.

Claims (8)

Patent claims: 1. Precision seeder, consisting of frame, trailer hitch, seed hopper, Share, pressure roller and closer, carried by a main wheel running next to the share with a rotating cell ring, whereby the cells absorb the grains from the inside and from one side first and then with them With the help of an ejector to one side, and a depositing device that removes the picks up individual grains emerging from the cells, with cell ring and depositing device in the form of a Säkanalscheibe equiaxed and rigidly connected to each other, but by a Fixed cover plate are separated, a passage opening for in the upper quadrant the grains from the cells to the laying device, and each individual cell having a sowing channel is assigned, the outlet opening of which lies on the circumference of a circle, the diameter of which is larger than that of the cell ring and whose surface is perpendicular, characterized in that that the cell ring is arranged on one end face of a hollow cylinder (8). 2. Precision seeder according to claim 1, characterized in that the hollow cylinder (8) has an annular groove (9) on its end face located in the area of the cells (10). 3. Precision seeder according to claims 1 and 2, characterized in that the Cells (10) in a manner known per se both against the direction of rotation and against the face of the hollow cylinder (8) are arranged obliquely. 4. Precision seeder according to claims 1 to 3, characterized in that the Inner surface of the shell of the hollow cylinder (8) roughened or with flat, rounded driver strips is provided. 5. Precision seeder according to claims 1 to 4, characterized in that the Sowing channels (15) have inlet openings which are larger than the passage opening (13) of the cover disc (11) are. 6. Precision seeder according to claims 1 to 5, characterized in that the The outlet openings of the sowing channels (15) are smaller than their inlet openings. 7. Precision seeder according to claims 1 to 6, characterized in that the The diameter of the outlet opening circle of the sowing channels (15) is only slightly larger than the outer diameter of the hollow cylinder (8). 8. Precision seeder according to claims 1 to 7, characterized in that the Hollow cylinder (8) against a hollow cylinder, which on cells (10) only half, third, quarter or eighth number, such as seed lines (15) are present, or against a cylinder with different sized cells is interchangeable. Considered publications:
French Patent No. 1 204 655. For this purpose 2 sheets of drawings 809 638/1194 11.68 © Bundesdruckerei Berlin