RU179017U1 - Pneumatic metering system - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to pneumatic sowing devices used in seeders, mainly for the combined sowing of two crops. The metering system of the pneumatic sowing device consists of a seed hopper 1, separated by a partition 2, a vertically located sowing disk, through conical cells 5, air nozzle 6. It is new that the lower end of the second pair of sleeves 8 is placed above the small diameter of the conical cells 5 at the place where the seeds flow into the furrow y and directed vertically downwards, wherein the ratio of the diameters of the sleeve 8 to the small diameter of the tapered cell 5 is d: d = 4: 3.Using proposed sowing apparatus can improve the performance of the sowing machine by increasing the translational speed of the seed unit and increase crop seeded culture. 2 ill.

Description

The utility model relates to agricultural engineering, in particular to pneumatic sowing devices used in seeders, mainly for combined sowing of two crops.

Known pneumatic sowing apparatus, including a hopper for seeds, sowing disc with through holes and a nozzle for supplying air to the cells. The sowing disk is equipped with a ring mating with its inner surface, which is mounted 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 the generatrix of which there are several rows of through cells. (USSR author's certificate, 818524, IPC A 01C 7/04, 1981)

A disadvantage of the known sowing apparatus is that the design does not provide a device for removing stuck seeds in the cells, which is not permissible.

The closest in technical essence to the claimed device is a pneumatic sowing device selected for use as a prototype for combined sowing, consisting of a seed hopper divided by a partition, a sowing disk with conical cells, an air nozzle, which at the outlet is divided into two pairs of nozzles, one pair for pressing one seed to the bottom of the through conical cell, and the second to push stuck seeds out of the cells. (Patent No. 155628, class A 01C 7/04, 2015).

The known device has several disadvantages:

a) to remove jammed seeds from the cells, the used sleeve for supplying air flow is located at the conical cells on the inside in the depth of the sowing disk, the so-called to the place where the seeds fall into the furrow and is directed down, where they are no longer affected by air flow and the seeds fall with the help of their own weight;

b) with such an apparatus it is not possible to increase the translational speed of the sowing unit.

The objective of the utility model is to increase the productivity of the sowing apparatus, due to the increase in the translational speed of the sowing unit, and to increase the yield of the sown crop.

The stated technical problem is achieved in that in a metering system of a pneumatic sowing device, including a seed hopper divided by a partition, a sowing disk with through conical cells, side walls, an air nozzle with two pairs of nozzles of the same cross section, one of which is for pressing one seed to the through bottom a conical cell, and the second for pushing stuck seeds out of the cells, while the second pair of nozzles is made in the form of sleeves enveloping the upper parts of the seed disk and x the air flow to the conical cells from the inside, the sowing disk is made double, and its parts are rigidly fixed to each other, the lower end of the second pair of sleeves is placed above the small diameter of the conical cells at the place where the seeds flow into the furrow and is directed vertically downward, while the ratio of the diameter of the sleeve to the small diameter of the conical cell is d ₁ : d ₂ = 4: 3.

The utility model is illustrated by drawings.

In FIG. 1 shows a pneumatic sowing device for combined sowing, side view; in FIG. 2 - the same, view A.

The metering system of the pneumatic sowing device contains a seed hopper 1, divided by a partition 2 into two parts, a double sowing disk, parts 3 and 4 of which are rigidly fixed to each other, for example, by means of bolts with the possibility of their displacement, the disk is made with through conical cells 5, and the air nozzle 6 is divided into two pairs of nozzles 7 and 8 with identical sections, one pair 7 - for pressing one seed to the bottom of the through conical cell, and the second 8 - for pushing stuck seeds from the cells. The lower end of the second pair of sleeves is placed above the small diameter of the conical cells in the place where the seeds flow into the furrow and is directed vertically downward, while the ratio of the diameters of the sleeve 8 to the small diameter of the conical cell 5 is d ₁ : d ₂ = 4: 3, otherwise, either excessive air flow, or its lack for blowing a seed stuck at the bottom of a conical cell.

The air nozzle 6 provides both the removal of excess seed from the conical cells and the blowing of seeds stuck in the cells 5.

The metering system of a pneumatic metering device operates as follows.

Seeds of two cultures, from two parts of the seed hopper 1, divided by a partition 2, by gravity fall into the through conical cells of 5 parts 3 and 4 of a double seed disc. A rotating sowing disk brings conical cells 5, filled with seeds, to the air nozzle 6, which, at the outlet, is divided into two pairs of nozzles 7 and 8 with different sections, the air flows of which are directed to the conical cells 5 of the corresponding parts 3 and 4 of the sowing disk. With nozzles 7, the air flow presses one seed to the bottom of the through conical cell 5, and blows the rest, and in nozzles 8, enveloping the upper part of the seed disk and leading to the inside of the conical cell 5, the same seed is blown, pressed by the air flow of nozzles 7, but already in the lower position of the sowing disk, at the place where the seeds flow into the furrow and is directed vertically downward with acceleration, which allows to increase the translational speed of the sowing device.

Parts of the disk 3 and 4 are rigidly fixed to each other by bolts with the possibility of their displacement and replacement of parts of the disk. This allows you to change the sowing patterns. Such a metering disc simplifies the design by eliminating additional chain transmission and is easy to operate.

The use of the proposed sowing apparatus allows to increase the productivity of the sowing apparatus, due to the increase in the translational speed of the sowing unit and to increase the yield of the sowing crop.

Claims (1)

Dosing system of a pneumatic sowing device, including a seed hopper divided by a partition, a sowing disk with through conical cells, side walls, an air nozzle with two pairs of nozzles of the same cross section, one of which is for pressing one seed to the bottom of the through conical cell, and the second for pushing out from cells of stuck seeds, and the second pair of nozzles is made in the form of sleeves, enveloping the upper parts of the sowing disk and supplying air flow to the conical cells from the inside ona, and the sowing disk is made double and its parts are rigidly fixed to each other, characterized in that the lower end of the second pair of sleeves is placed above the small diameter of the conical cells at the place where the seeds go into the furrow and is directed vertically downward, while the ratio of the diameter of the sleeve to the small diameter of the conical the cell is d ₁ : d ₂ = 4: 3.

Images