RU222062U1 - CELLULAR DISC OF SEEDING UNIT FOR SEEDS IN UNCALIBRATED CAPSULES - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to seeders for precision sowing of encapsulated seeds when cultivating row crops. The technical result of the utility model is the emergence of the possibility of high-quality sowing of seeds in uncalibrated capsules. The technical result is achieved due to the fact that the disk has a removable hub, the disk holes are made in three stages, the upper stage has a cross-sectional diameter equal to 1.6 and a depth of 0.3 of the average diameter of the seed capsules of the sown crop, the middle stage has a cross-sectional diameter equal to 1.2, and a depth of 0.8 of the average diameter of the seed capsules of the sown crop, and a washer with an internal hole with a diameter equal to 0.8 of the average diameter of the seed capsules of the sown crop is pressed into its bottom, the lower through step has a diameter equal to 1.0 of the average diameter capsules of the sown crop, each lower step of the hole has a freely inserted metal rod inside with a length equal to 1/3 of its depth, with a pointed end directed towards the washer hole. A cellular disk of a sowing apparatus for seeds in uncalibrated capsules, containing radial cylindrical holes of a stepped shape, and the disk has a removable hub, the holes of the disk are made in three stages, the upper stage has a cross-sectional diameter equal to 1.6 and a depth of 0.3 of the average diameter of the seed capsules being sown crops, the middle stage has a cross-sectional diameter equal to 1.2 and a depth of 0.8 of the average diameter of the seed capsules of the sown crop, and a washer with an internal hole with a diameter equal to 0.8 of the average diameter of the seed capsules of the sown crop is pressed to its bottom, the lower through stage has a diameter equal to 1.0 of the average diameter of the capsules of the sown crop, each lower step of the hole has inside a freely inserted metal rod with a length equal to 1/3 of its depth, with a pointed end directed towards the washer hole.

Description

The utility model relates to agricultural engineering, in particular to seeders for precision sowing of encapsulated seeds when cultivating row crops.

A device for planting seeds in capsules is known [Copyright certificate RU patent No. 2475012, IPC class. А01С 7/04, 2013], containing a hopper with a distribution chamber for capsules, a housing in which a rod disk with cells and agitators is installed on the horizontal axis of rotation. The device also includes a rubberized roller to reflect excess capsules that do not fall into the cells, and a reflector that cleans the roller from broken fragments of capsules. This device ensures uniform individual distribution of capsules along the seed furrow due to the fact that one capsule falls into each cell of the disk, the disk rotates evenly, and the capsules fall into the furrow at regular intervals.

The disadvantage of the known device manifests itself at increased speeds of rotation of the cellular disk, which improve the accuracy of seed placement in the furrow by aligning the speeds of rotation of the disk and the translational movement of the seeder as much as possible. But at the same time, the percentage of filled cells decreases; the diameter of the cells must be increased. However, a large diameter leads to partial entry of the second seed into the cell, which will be pinched and destroyed by the reflector roller. This deficiency leads to a decrease in the quality of sowing.

The closest analogue to the claimed one, chosen as a prototype, is the cellular disk of the sowing apparatus for encapsulated seeds [Copyright certificate RU patent No. 217809, IPC class. A01C 7/04, 2023], containing cylindrical cells, characterized in that the cells are stepped, and their upper half has a diameter equal to 1.8 capsule diameters, and the lower half - 1.1 capsule diameters.

The disadvantage of the prototype is the insufficient quality of sowing seeds in uncalibrated capsules. The dimensions of the prototype cells are tied to the exact same geometric size of the seed capsules. In practice, capsules with seeds inside are compressed from a mixture of cattle manure and bird droppings [Sukhov A.A. Improving the processes of production and use of seed capsules based on livestock and poultry waste. Abstract of the dissertation for the degree of candidate of technical sciences - Michurinsk-Naukograd, 2013], have high roughness and significant deviations in geometric dimensions when drying. For high-quality seeding of such capsules, according to A.A. Sukhov. a calibration process is required, which increases the cost of encapsulated seeds. When sowing uncalibrated seed capsules, two small capsules may fall into the cells of the prototype, and large capsules may be pinched and damaged by the reflective roller. In addition, individual rough capsules can become stuck in the cells, causing skips in the row.

The technical result of the utility model is the emergence of the possibility of high-quality sowing of seeds in uncalibrated capsules.

The technical result is achieved due to the fact that the disk has a removable hub, the disk holes are made in three stages, the upper stage has a cross-sectional diameter equal to 1.6 and a depth of 0.3 of the average diameter of the seed capsules of the sown crop, the middle stage has a cross-sectional diameter equal to 1.2, and a depth of 0.8 of the average diameter of the seed capsules of the sown crop, and a washer with an internal hole with a diameter equal to 0.8 of the average diameter of the seed capsules of the sown crop is pressed into its bottom, the lower through step has a diameter equal to 1.0 of the average diameter capsules of the sown crop, each lower step of the hole has a freely inserted metal rod inside with a length equal to 1/3 of its depth, with a pointed end directed towards the washer hole.

This set of essential features ensures that the inventive cellular disk of a sowing apparatus for seeds in uncalibrated capsules has new properties that differ from the prototype.

Thus, the declared features of the utility model meet the “novelty” criterion.

Figure 1 shows a diagram of a cellular disk of a sowing apparatus for seeds in uncalibrated capsules, front view with a cutout;

figure 2 - section A - A in figure 1 in interaction with the capsules;

Fig. 3 is a diagram of removing excess capsules from the upper stage of the radial hole of the disk during sowing.

A cellular disk of a sowing apparatus for seeds in uncalibrated capsules, containing radial cylindrical holes 11 of a stepped shape, characterized in that the disk 3 has a removable hub 10, the holes 11 of the disk 3 are made three-stage, the upper stage 4 has a cross-sectional diameter equal to 1.6, and a depth of 0.3 of the average diameter of capsules 1 of the seeds of the sown crop, the middle stage 5 has a cross-sectional diameter equal to 1.2, and a depth of 0.8 of the average diameter of the capsules of the seeds of the sown crop, and a washer 8 with an internal hole with a diameter equal to 0.8 of the average diameter of the capsules of the seeds of the sown crop, the lower through stage 6 has a diameter equal to 1.0 of the average diameter of the capsules of the sown crop, each lower stage of the hole has a freely inserted metal rod 7 inside with a length equal to 1/3 of its depth, with a pointed end , directed towards the hole of washer 8.

The cellular disk of the sowing apparatus for seeds in uncalibrated capsules works in interaction with other components of the sowing apparatus as follows.

When assembling, disk 3 is placed on a horizontal surface and rods 7 are inserted into the lower steps of 6 radial holes 11 with their pointed ends towards washers 8. Then a hub 10 with a square hole 9 is pressed into the axial hole of the disk. The assembled cellular disk is put with a square hole 9 onto the square step of the shaft sowing unit and secure with a cover and nut.

During operation, the cellular disk 3 with radial holes 11 and the reflector roller 12 rotate counterclockwise. Capsules 1 enter the cells from the seed box located above the disk. First, the next capsule 1 falls into the cell and is fixed by the middle step 5 of the radial hole 11. The upper step 4 of the radial hole 11, having a larger diameter, leaves space for the entry of the extra capsule 13. But this space is small, since the next capsule 1 is fixed in the center of the radial hole 11, it leaves only an annular slot for the excess capsule 13, into which this excess capsule will sink slightly and will be thrown back by the reflector roller 12 without pinching. In turn, increasing the diameter of the upper stage 4 radial holes to 1.6 times the average diameter of capsules 1 allows faster rotation of the cellular disk, comparable to the speed of the seeder, and this eliminates the rolling of capsules in the seed furrow, and thereby improves the accuracy of seed distribution. The rods 7, which fall into its upper quadrants when the disk 3 rotates, are lowered in the lower steps of the 6 radial holes down to the stop in the hub 10 and free up the space of the middle step 5 for collecting seeds in the area of the seed box. When moving to the lower quadrants, the rods 7 slide under the influence of gravity towards the washers 8, pass with their pointed end through the hole of the washer into the area of the middle stage 5 and push the capsule 1 into the area 2 of the receiving bell of the opener. At the same time, the ejection of all capsules 1, including rough, non-circular ones and pinched by fragments damaged by the reflector roller 12, excess capsules 13, is reliably ensured.

Thus, the stated technical result is achieved.

Information sources:

1. Copyright certificate RU patent No. 2475012, IPC class. A01C 7/04, 2013.

2. Copyright certificate RU patent No. 217809, IPC class. A01C 7/04, 2023.

3. Sukhov A.A. Improving the processes of production and use of seed capsules based on livestock and poultry waste. Abstract of the dissertation for the degree of candidate of technical sciences - Michurinsk-Naukograd, 2013.

Claims (1)

A cellular disk of a sowing apparatus for seeds in uncalibrated capsules, containing radial cylindrical holes of a stepped shape, characterized in that the disk has a removable hub, the disk holes are made in three stages, the upper stage has a cross-sectional diameter equal to 1.6 and a depth of 0.3 of the average diameter capsules of seeds of the sown crop, the middle stage has a cross-sectional diameter equal to 1.2 and a depth of 0.8 of the average diameter of the capsules of the seeds of the sown crop, and a washer with an internal hole with a diameter equal to 0.8 of the average diameter of the capsules of the seeds of the sown crop is pressed to its bottom , the lower through step has a diameter equal to 1.0 of the average diameter of the capsules of the sown crop, each lower step of the hole has a freely inserted metal rod inside with a length equal to 1/3 of its depth, with a pointed end directed towards the washer hole.