RU2845664C1 - Pneumatic sowing device - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: pneumatic sowing device consists of seed hopper (1), divided by partition (2) into compartments, sowing device (3) with two side covers (4) and a pair of rings with conical half-cells, open on one side, installed with possibility of displacement relative to each other, air nozzle (13) and skid-like ploughshare (14 and 15). One of the rings is provided with a fastening strip in the centre and a mounting hole for the axis of the rings. Pneumatic sowing device is equipped with an additional pair of rings with half-cells put on the axle. Each pair of rings is provided with an independent drive. Half-axle of one pair of rings is connected through the bearing with the half-axle of the other pair. Width of one pair of rings exceeds that of the other pair by 1.25 times. In the centre of each conical semi-cell there is a horizontal through slot, the width of which is equal to 1/4 of its larger diameter, and height of 1.5 mm. For one pair of rings ratio of lower half-cell diameter to upper one, to width of this pair of rings and to outer diameter of the ring is equal to 1:5:8:60. For the second pair ratio of half-cell diameters to width and diameter of rings is 1:5:7.2:36, accordingly. Ratio of mounting hole square side for axis of fastening strap to its width is 1:1.25.

EFFECT: improved quality of seeds sowing.

1 cl, 9 dwg

Description

The invention relates to agricultural engineering, in particular to pneumatic seeding devices that can be used in seeders, primarily for single-grain seeding.

A pneumatic seeding device is known, which includes a seed hopper, a seeding disk with through holes and a nozzle for supplying air to the cells, the seeding disk is equipped with a ring, coupled with its inner surface, which is installed with the possibility of longitudinal movement relative to the axis of rotation of the disk, and is made in the form of a cylinder, along the length of which several rows of through cells are located. (USSR Author's Certificate, 818524, IPC A 01C 7/04, 1981).

The disadvantages of the known seeding apparatus are:

a) the seeding device is used only for nest sowing and does not allow sowing two different crops simultaneously in a combined manner;

b) the device does not have a seed ejector, which leads to disruption of the seed sowing process.

The closest in technical essence to the claimed device is a pneumatic seeding apparatus selected as a prototype, comprising a seed hopper divided by a partition into compartments, a seeding device with two side covers and a pair of rings with conical half-cells open on one side, installed with the possibility of displacement relative to each other, wherein one of the rings is made with a fastening strip in the center and a mounting hole for the axis of the rings, an air nozzle and a skid-shaped coulter, that the apparatus is equipped with an additional pair of rings with half-cells mounted on the axis, each pair of rings is made with an independent drive, the axis of one pair of rings is connected through a bearing to the axis of the other pair, the width of one pair of rings is 1.25 times greater than the width of the other (RU Patent No. 2823817, IPC A01C 7/04, 2024).

The known device has disadvantages:

- Under the influence of the air flow, all seeds should be blown out except for one, pressed to the bottom of the half-cell, however, the probability of all seeds being blown out of the half-cell is high, and this ultimately leads to a decrease in yield, which is unacceptable.

The technical objective of the invention is to improve the quality of seed sowing.

The stated technical task is achieved in that in a pneumatic seeding device consisting of a seed hopper divided by a partition into compartments, a seeding device with two side covers and a pair of rings with conical half-cells, open on one side, installed with the possibility of displacement relative to each other, wherein one of the rings is made with a fastening strip in the center and a mounting hole for the axis of the rings, an air nozzle and a skid-shaped coulter, the pneumatic seeding device is equipped with an additional pair of rings with half-cells mounted on the half-axis, each pair of rings is made with an independent drive, the half-axis of one pair of rings is connected through a bearing to the half-axis of the other pair, the width of one pair of rings is greater than the width of the other by 1.25 times, characterized in that in the center of each conical half-cell a horizontal through slot is made, the width of which is equal to 1/4 of its larger diameter, 1.5 mm high, for one pair rings, the ratio of the lower diameter of the half-cell to the upper, to the width of this pair of rings and to the outer diameter of the ring is 1:5:8:60, for the second pair the ratio of the diameters of the half-cell to the width and diameter of the rings is 1:5:7.2:36, accordingly, the ratio of the side of the square of the mounting hole for the axis of the fastening strip to its width is 1:1.25.

The invention is illustrated by drawings.

Fig. 1 shows a pneumatic seeding apparatus in 3D design; Fig. 2 - the same, from the side, in vertical section; Fig. 3 - the same, section of two pairs of rings and half-axles; 4 - the same, section of two pairs of rings in the vertical plane; Fig. 5 - two pairs of rings on half-axles with an offset for combined seeding; Fig. 6 - the same, without ring offset for dotted seeding; Fig. 7 - two pairs of rings on half-axles, section in the vertical plane; Fig. 8 - pneumatic seed sowing system; Fig. 9 - runner coulter.

The pneumatic seeding device consists of a seed hopper 1 divided into sections by three removable partitions 2, a seeding device 3 with two side covers 4 and two pairs of rings 5 and 6 with conical half-cells 7 and 8 open on one side. Rings 5 and 6 are installed with the possibility of displacement relative to each other.

In each pair of rings 5 and 6, one ring is made with a fastening strip 9 and 10, in the center of which a landing square hole is made for the semi-axles 11 and 12, respectively. The seeding unit contains an air nozzle 13 and skid-shaped coulters 14 and 15, fixed under each pair of rings 5 and 6.

Two pairs of rings 5 and 6 with bars 9 and 10 are placed on both sides of the axial line of the apparatus with a gap between them less than the minimum seed size. Each pair of rings 5 and 6 is made with an independent drive. The half-shaft 11 of one pair of rings, for example 5, is connected through a bearing 16 to the half-shaft 12 of the other pair 6. A horizontal through slot is made in the center of each conical half-cell, the width of which is equal to 1/4 of its larger diameter, and the height is 1.5 mm. The width of one pair of rings, for example 5, is greater than the width of the other pair, for example 6, by 1.25 times.

For one pair of rings, for example 5, the ratio of the lower diameter of the half-cell 7 to the upper 8, to the width of this pair 5 and to its outer diameter is 1:5:8:60. The ratio for the second pair of rings 6 is 1:5:7.2:36, respectively.

If these ratios are not observed, the design of the dosing device may be damaged, for example, if the outer diameters of rings 5 and 6 are different, the operability of the seeding device will be damaged; if the parameters of the cells and the width of the rings are not observed, this will lead to an unjustified overspending of material.

The ratio of the side of the square of the mounting hole for axle shafts 11 and 12 to the width of the fastening strips 9 and 10 of rings 5 and 6 is 1:1.25. Increasing the side of the square of the mounting place leads to an increase in the width of strips 9 and 10 and, consequently, to an increase in the metal content.

The air nozzle 13 is provided with two sleeves 17 and 18. In the lower part of each side cover 4, an opening is made for the sleeves 17 and 18. In the upper part, each sleeve 17 and 18 is provided with two pairs of pipes 19, 20 and 21, 22 for supplying air to the joint of the rings 5 and 6 from the side of the half-cells 7 and 8 of a larger diameter. The lower part of each sleeve 17 and 18 of the nozzle 13 is connected to the lower part of one of the pairs of rings 5 and 6 from the side of the half-cells 7 and 8 with a small diameter.

Each axle shaft 11 and 12 is equipped with a bearing 23 and 24, a sprocket 25 and 26 and a fastening nut 27 and 28. Bunker 1 is equipped with a valve 29 of the unloading window.

Each coulter 14 and 15 is designed with the possibility of shifting its parts relative to each other in the vertical plane, for this purpose each fastening place of the coulter 14 and 15 is provided with an additional hole. This allows sowing seeds at different depths. The width of each coulter 14 and 15 is equal to the width of the corresponding pair of rings 5 and 6.

The pneumatic seeding device works as follows.

Before starting work, seeds of various crops (from one to four types) are loaded into the compartments of bunker 1. Coulters 14 and 15 are set to the required seed placement depth.

During operation, compressed air is supplied by means of an exhauster (not shown in the figure) through a nozzle 13 and sleeves 17 and 18 to air supply pipes 19, 20 and 21, 22 to the joint of rings 5 and 6 in their upper part from the side of cells 7 and 8 with a larger diameter. Rings 5 and 6, mounted on half-axles 11 and 12, rotate by means of a chain transmission from the press wheel of the seeder section.

Seeds of various crops fall by gravity into the through conical half-cells 7 and 8 from the corresponding sections of the bunker 1. Under the influence of the air flow, all seeds except for one, pressed to the bottom of the half-cell 7 and 8, should be blown out, but the probability of all seeds being blown out of the half-cell is high due to the unpredictability of the trajectory of the seeds at the moment of exposure to the air flow. This can lead to the removal of all seeds from the half-cell, in which case voids appear in the sown row of seeds, and this is a direct violation of the established seed sowing standards, which leads to a decrease in the yield of the produced crop, and this is unacceptable. Therefore, in order to increase the degree of reliability of preserving one seed pressed to the bottom of the conical half-cells and removing the rest, a slot is made on their side surface, where part of the air stream passes from the pipes 19, 20 and 21, 22, installed above the end part of the pair of rings 5 and 6, thereby creating an obstacle to removing all the seeds from the half-cells 7.

When the half-cells 7 of two rings 5 or 6 are connected, whole cells 7 with two slits located opposite each other are obtained. In this case, the seeds located in the whole cells are affected by an additional air flow from the slit of the second ring 5 or 6, which reduces the percentage of blowing out all the seeds and gaps in the row.

Rings 5 and 6 together with the seeds located in half-cells 7 and 8, performing a rotational movement, reach their lower position, where the seeds are blown by an air stream from pipes 30 and 31 at the end of sleeves 17 and 18 into the nests opened by coulters 14 and 15. Then the soil with seeds is compacted using a rolling wheel.

The pneumatic seeding unit allows for easy transition from combined seeding to dotted seeding and vice versa. Other seeding options are also possible.

The use of the proposed dosing device will improve the quality of seed sowing.

Claims (1)

A pneumatic seeding unit consisting of a seed hopper divided by a partition into compartments, a seeding device with two side covers and a pair of rings with conical half-cells open on one side, installed with the possibility of displacement relative to each other, wherein one of the rings is made with a fastening strip in the center and a mounting hole for the axis of the rings, an air nozzle and a skid-shaped coulter, the pneumatic seeding unit is equipped with an additional pair of rings with half-cells mounted on the half-axis, each pair of rings is made with an independent drive, the half-axis of one pair of rings is connected through a bearing to the half-axis of the other pair, the width of one pair of rings is greater than the width of the other by 1.25 times, characterized in that a horizontal through slot is made in the center of each conical half-cell, the width of which is equal to 1/4 of its larger diameter, 1.5 mm high, for one pair of rings the ratio of the lower diameter of the half-cell to the upper, to the width of this pair of rings and the outer diameter of the ring is 1:5:8:60, for the second pair the ratio of the diameters of the half-cell to the width and diameter of the rings is 1:5:7.2:36, respectively, the ratio of the side of the square of the mounting hole for the axis of the fastening strip to its width is 1:1.25.