RO118163B1 - Distributor meant for high precision seeders - Google Patents

Abstract

The invention relates to a distributor meant for high precision seeders, employed in agriculture. According to the invention, the distributor comprises a seed distributing disk (1) whose movements are correlated with the movement of the seed conveying disk (10) so as to make the axes of the peripheral cells of the distributing disk (1) coincide with the axes of the peripheral cells of the conveying disk (10) in a certain point (A), at this moment the seed attached to the suction inlet passing into the cell, wherefrom it is conveyed and then released when the cells reach a certain point (B).

Description

The invention relates to a seed distributor, for very precise stepping machines used in agriculture.

Currently, the distribution devices, pneumatic type with discs with holes, are used exclusively for precision sowing of sowing crops.

The operation of the distribution devices, pneumatic type, in most constructions, consists of a depression, near the holes of the distributor disk, in the area where it passes through the seed box, and the evacuation of the seeds driven by the disk in its rotational movement, takes place. when they reach the seed tube or coulter, by their free fall under their own weight, due to the interruption in this area of the depression near the holes in which the grains are retained.

The main body of the device is a disk with circular holes, holes arranged at equal distances, on the circumference of the disk, the size of the holes being determined by the size of the seeds. The disc has a vertical position, having on one side its feeding chamber, in which the seeds are located, and on the other side is the depression chamber from which air is drawn. The seeds are driven by the disk, due to the fact that they are pressed on the disk, near the holes by a force P, created under the action of air depression. Seed evacuation is accomplished by detaching them from the disc, near the area where the air depression is interrupted and where the force P = 0 and the seeds fall into the open coulters (Tractors and Agricultural Machines, Toma Dragoș et al, 1981).

This dispensing device achieves a good distribution of the seeds, but by patinating the pressing wheel or the supporting wheel, which acts the distribution disk and through the long road through the seeds, in the fall, it is a disadvantage that has, as a result, the decrease of the precision of the step. to sow.

The technical problem, which is solved by the invention, is to respect the optimal distance between grains, in turn, at the sowing of pasture crops.

The distribution apparatus, according to the invention, solves this technical problem and removes the disadvantages of the known solutions, by the fact that the movement of the distributor disk is correlated with the movement of the seed conveyor disk, so that the axes of the peripheral alveoli of the distributor disk coincide with the axes of the peripheral transport alveoli. , at one point, when the grain attached to the suction hole passes into the alveolus, from where it is transported and then released when the alveoli reach a point.

By applying the invention, the following advantages are obtained:

- very good uniformity and stability of the seeds, one at a time;

- seed economy;

- economics of chemical fertilizers;

- the labor force for the thinning of plants is reduced;

- decreases the degree of soil embolization.

The following is an example of an embodiment of the invention, in connection with FIGS. 1 ... 4, which represents:

- fig.1, cross section, through the distribution apparatus;

- Fig. 2, longitudinal section through the distribution apparatus;

- fig. 3, longitudinal section, through the distribution device, in the coulter area;

- Fig. 4, longitudinal section, through the fertilizer distributor disc.

The distribution apparatus, intended for very precise stepping machines according to the invention, is pneumatic and consists of a seed distributor disk 1, which receives rotational motion, by means of a cardan transmission 2 and a pair of wheels. gears 3. On shaft 4 of the distributor disk 1, a stirrer 5 is located inside the seed box 6, and on the outside, there is a gear 7 which, through

RO 118163 unei1 to a gear wheel 8, transmits the movement of a shaft 9 which actuates a seed conveyor disc 10. So that at each suction port of the distributor disc 1 there remains only 50 a single grain, the surplus of seeds is returned inside the box of seeds 6, with the help of the grain grinder 11. The conveyor disc 10 and the gear wheel 8 are mounted inside the sides of the coulter 13 for incorporating seeds. Also, a dispensing disc 14 of granular chemical fertilizers is mounted inside a housing 15 which is mounted between the sides of a coulomb 16 for incorporated chemical fertilizers and provided with a feed chamber 17 which is fed through hoses. 18 of the feed hopper 19, provided with a stirrer 20 and a dispenser 21, for the primary dosing, a dispenser which is provided with some peripheral alveoli, with variable volume, volume that can be modified by changing the position of a limiter 22, thus achieving the final dosing, in steps, of the granulated chemical fertilizers and receives the rotational movement, through 60 by means of a cardan transmission and two pairs of conical gears 23 from shaft 4 of the distributor disk 1 of seeds. In order that, at a point A, always coinciding successively the axes of the suction holes of the distributor disk 1 and the axes of the peripheral alveoli of the disc 10, the ratio between the number of teeth of the gear wheel 8 and of the gear wheel 7 must be correlated with the ratio of the number of peripheral alveoli of the conveyor disc 10 and 65, the number of suction holes of disk 1, namely: the number of alveoli / number of holes = z8 / z7, and the mounting should proceed as such. Also, the number of alveoli of disk 14 and the transmission ratio between the speed of disk 1 and its speed are chosen, so that always the axes of the peripheral alveoli of disk 10 reach point B and the axes of peripheral alveoli of disk 14 reach point C 70

Operation: The grains in the seed box 6, under the influence and cumulative action of the gravitational force, the agitator 5 and the attraction force arising from the depression created by the exhaust and the transmission of the disk 1, through hoses and the depression chamber 24, are oriented. and attach themselves to the suction holes of disc 1. The surplus of seeds is removed by the grain grinder 11, so that on each suction hole, 75 remains a single grain. By rotating the disk 1 in the direction of the arrow, the suction port reaches point A, where the action of the force created by the depression ceases, at the same time as the alveola of the disk 10 and where, under the cumulative action of the gravitational force, the centrifugal force and the deflector 25, the bob passes into the alveolus of the disc 10, where it is transported to point B. Also, during the rotation of the disc 10, the dispenser-dispenser disc 14 80 is rotated, whose peripheral alveoli are fed at the passage through the feed chamber 17, the fertilizers being thus transported to point C. But due to the correlation of the movement of the disk 10 with the movement of the disk 1, the alveoli of the disk 14 reach the point C and the alveoli of the disk 10 reach the point B, at which time both the granulated chemical fertilizers and the seeds are released, by where they still have to cross, in the fall, a space of 2-10 mm, factor 85 essential in the growth precision of the sowing step. The coulombs 16 for incorporated fertilizers are in number two for each row of plants, they are positioned and fixed in front of the coulomb for embedded seed 13, so that the distance between points B and C is an integer number of steps L _BC = nxp, where n = integer and positive, and p = sowing step, being able to move laterally towards it, on one side and on the other, and possibly below 90. The fertilizer is thus incorporated, after which, when the aggregate is moved forward, the seed is also incorporated in the same nest. In order to eliminate the step errors due to the roller wheel or the support wheel, the drive 1 is driven from the tractor power shaft in synchronous operating mode. The exhaust is operated from the power outlet in independent operating mode.

Claims (1)

Distribution device, for very precise stepping machines, consisting of a seed distributor disc, driven by a cardan transmission and 100 pairs of gear wheels, a seed conveyor disc and a fertilizer dispenser disc. chemical, characterized in that the movement of the disc (1) distributor is correlated with the movement of the disc (10) seed carrier, so that the axes of the peripheral alveoli, of the disc (1) distributor coincide with the axes of the peripheral alveoli, of the disc (10) conveyor, at a point (A), when the grain attached to the suction hole passes into the alveolus, 105 where it is transported and then released when the alveoli reaches a point (B).