RU2760704C2 - Seeding machine for encapsulated seeds of row crops - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: invention relates to agricultural engineering, in particular to seed drills for precise seeding of seeds in capsules during the cultivation of row crops. A seeding machine for encapsulated seeds of row crops includes a case, a distribution chamber, a cellular seeding disc, a stirrer, an ejector remote from the unloading point of cells, and a rubberized roller-reflector. The width of the distribution chamber and the thickness of the cellular seeding disc are the same in size and exceed the diameter of capsules by more than three times. The elastic stirrer with an increased coefficient of friction has the shape of a truncated cone with a finely toothed surface, and it is pressed onto the entire cell-free part of the seeding disc with a smaller diameter close to cells. An annular row of cells is placed on the edge of the seeding disc in close proximity to a wall of the distribution chamber.

EFFECT: invention will ensure high quality of seeding by the accuracy of the distribution of encapsulated seeds along the seeding furrow.

1 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular, to seeders for precision seeding of seeds in capsules for the cultivation of row crops.

Known device for planting seeds in capsules, containing a hopper with a distribution chamber for capsules, a housing in which a cylindrical disc with cells and turners is installed on the horizontal axis of rotation. The set of the device also includes a rubberized roller to reflect excess capsules that did not fall into the cells, and a reflector that cleans the roller from breakaway fragments of capsules (Pat. RF No. 2475012 А01С 7/04). This device provides an even single-piece distribution of the capsules along the sowing furrow due to the fact that one capsule enters each cell of the disc, the disc rotates evenly, and the capsules fall into the furrow at regular intervals.

The disadvantage of the known device is the low quality of work due to the deterioration of the uniformity of the distribution of the capsules along the sowing furrow due to the unstable filling of the cells of the cylindrical disc. Gaps in filling the cells are possible for the following reasons. Firstly, the design of the sowing device is copied from the SST-12B seeder, designed for seeds up to 5 mm in size. They enter the distribution chamber with a wide front from the hopper, contact the disc along the entire length of its generatrix (at least five seeds per one generatrix), and this allows intensive selection of seeds by cells with practically no gaps. In the opposed device for planting seeds in capsules, the thickness of the cellular disc, the diameter of the capsule and the width of the distribution chamber are comparable in size, therefore, on the disc and in the distribution chamber, the capsules will be located not in five, but in only one layer. In the variant with a wider distribution chamber, bridging will appear in it, making it difficult for the capsules to access the cells. When the speed of the unit is 6 km / h and the seeding rate of seeds (for example, sugar beet) is 7 pieces per running meter, the consumption of capsules should be 12 pieces per second. Secondly, the cells can become clogged with adhering capsule fragments damaged by turners, a roller or by mutual friction. As a result, the selection of capsules by the cells can exceed the intake rate.

Known seeding device, including a seeding element installed in the housing in the form of a disc with cells for seeds and annular grooves, a pad that rises above the seeding disc by the thickness of one layer of seeds, and ejectors installed in the annular grooves (Pat. 2108703 RF, IPC ⁴ А01С 7 / 04). In this device, the pad on each side forms one organized row of seeds in their disorderly mass, which increases the likelihood of favorable encounters with cells running exactly under these rows, and this increases the percentage of filled cells even at an increased rotational speed of the seeding disc.

The disadvantage of the known device is the scale factor, that is, for sowing capsules with a diameter of 20-25 mm in two rows of cells with the preliminary formation of two organized rows above the trajectories of the cells, the dimensions of the device are required that go beyond the rational design.

Known seeding apparatus for pelleted seeds, containing a housing, a seed hopper, a reflecting roller, a cellular disc with an annular groove and conical cells, a wedge ejector installed outside the trajectory of the free exit of seeds. The conical shape of the cells facilitates the free exit of seeds without the action of the ejector, therefore the ejector plays a secondary role in cleaning the cells from the remaining dust and possible adhering fragments of the seed shell. Free exit of seeds eliminates their crushing and significantly improves the identity of flight paths. In addition, the trajectories are directed against the course of the seeder, which reduces the horizontal component of the flight speed, and the seeds roll out less along the furrow (Certificate for useful model No. 24333 RF А01С 7/04).

The disadvantage of the known apparatus is that the seeds are not collected in an organized row in front of the entrances to the cells, their favorable encounters with the cells are random and this reduces the filling factor of the cells, the sowing quality deteriorates.

The technical result of the invention is to improve the quality of the seeding apparatus.

The technical result is achieved by the fact that in the proposed design of the seeding apparatus for encapsulated seeds of row crops, including a housing, a distribution chamber, a cellular seeding disc, a turner, a pusher remote from the unloading point of the cells, and a rubberized reflector roller, the width of the distribution chamber and the thickness of the cellular seeding discs are the same in size and exceed the diameter of the capsules by more than three times, an elastic agitator with an increased coefficient of friction has the shape of a truncated cone with a fine-toothed surface and is pressed onto the entire cellless part of the seeding disc with a smaller diameter close to the cells, and an annular row of cells is placed on the edge of the seeding disc in close proximity to the wall of the distribution chamber.

FIG. 1 shows a fragment of a sowing device for encapsulated seeds of row crops, front view; in fig. 2 is a general view of the same apparatus, section AA in FIG. one; in fig. 3 - turner in two projections.

The sowing device for encapsulated seeds of row crops includes a housing 1 with a distribution chamber 2, a sowing disc 3 with cells 4, in the center of which an annular groove 5 is made to a depth exceeding the depth of the cells. The width of the distributor chamber and the thickness of the seeding disc are the same and four times the diameter of the coarse granule. The diameter of the cells is 20-25% larger than the diameter of a large capsule, the depth is equal to the diameter of the capsule, and the diameter of the bottom of the cell is reduced, giving a conical shape to its lower half. A rotary agitator 6 made of elastic material with a high coefficient of friction (rubber) is pressed onto the sowing disc 3. The agitator is made in the form of a bevel gear with fine teeth. The larger base of the conical agitator 6 is located in the plane of the end surface of the seeding disc 3, and the smaller base is located close to the annular row of cells. The annular row of cells 4 of the seeding disc 3 is located on its edge with the minimum possible distance from the edge of the cell to the wall of the distribution chamber 2 of no more than 2 mm. In the lower part of the body 1 there is an ejection window 7. A pusher 8 is inserted into the annular groove 5 and is attached to the body 1 outside the zone of the capsules free falling out of the cells. In the front part of the distribution chamber 2 there is a rubberized reflector roller 9. It is not in contact with the seeding disc 3, the gap between them is equal to 0.10-0.15 of the capsule diameter.

The sowing apparatus for encapsulated row crops operates as follows. The encapsulated seeds from the hopper (not shown) enter the distribution chamber 2. The agitator 6, rotating together with the seeding disc 3 in the direction of the seeder's motion, having an increased coefficient of friction and a fine-toothed surface, activates the capsules lying on it, giving them vibration and dragging them into a circular motion ... This activity does not allow the formation of bridging, reduces the relative speed of movement of the capsules on the seeding disc, and the conical shape of the agitator displaces the capsules to the annular row of cells. The likelihood of bridging in the distribution chamber is also negligible because more than three spherical capsules are located in it along the width of the chamber. The arrangement of the annular row of cells directly near the wall of the distribution chamber 2 provides one hundred percent probability of favorable meetings of the capsules with the cells, since near the wall of the capsules they line up in an organized row, and the cells pass exactly under this row. As a result, the filling of the cells increases to absolute, which has a positive effect on the accuracy of the placement of the granules along the sowing furrow. The capsules fall out of the cells through the ejection window 7 under the action of gravity and centrifugal force, therefore the ejector 8 is removed from the ejection window and acts as a cleaner of the cells from adhered fragments that have broken off from the capsules. The deflector roller 9 has a peripheral speed of 2-3 holes greater than the seeding disc, also rotates in the direction of the seeder and, due to the high coefficient of friction of its rubberized surface, throws excess capsules that did not fall into the cells into the upper part of the distribution chamber. This prevents the capsules from jamming between the sowing disc and the housing, and also maintains the circular movement of the capsules in the distribution chamber. Thus, the claimed design of the seeding apparatus for encapsulated seeds of row crops ensures high sowing quality in terms of the accuracy of the distribution of encapsulated seeds along the sowing furrow.

Claims (1)

A sowing device for encapsulated row crops, including a housing, a distribution chamber, a honeycomb sowing disc, a tedder, a pusher, remote from the unloading point of the cells, and a rubberized deflector roller, characterized in that the width of the distribution chamber and the thickness of the honeycomb sowing disc are the same in size and exceed the diameter of the capsules by more than three times, the elastic agitator with an increased coefficient of friction has the shape of a truncated cone with a fine-toothed surface and is pressed onto the entire cellless part of the seeding disc with a smaller diameter close to the cells, and an annular row of cells is made on the edge of the seeding disc in close proximity to the wall distribution chamber.

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