RU2737974C1 - Pneumatic sowing device with universal dosing system - Google Patents

Abstract

FIELD: agriculture; machine building.SUBSTANCE: invention relates to the agricultural machine building. Disclosed is a pneumatic sowing apparatus with a universal dosing system consisting of a seed bunker, a ventilator, an air duct, sowing discs with holes mounted on axes, connecting bush, agitators and driving sprockets, two-level skid-shaped ploughshare, rarefaction chamber. Holes of sowing discs are made threaded for bushings with holes. For tilled crops number of holes on bushings is at least not more than three, ratio of thickness of sowing disk to bushing diameter is 1:3. For fodder crops, number of holes on bushings is at least not more than six, and ratio of thickness of sowing disk to bushing diameter is 1:4.EFFECT: apparatus provides high efficiency during operation.1 cl, 10 dwg

Description

The invention relates to agricultural engineering, in particular to seeding devices that can be used for the simultaneous sowing of seeds of various crops.

Known pneumatic sowing device for sowing seeds of two crops, containing a hopper, divided by a partition into two insulated chambers, a housing with a vacuum chamber, a sowing element in the form of a vertically located disc, on the cylindrical and end surface of which there are suction holes-cells communicated by channels with a vacuum chamber , a tedder and a scraper (not shown), (USSR inventor's certificate No. 803888, IPC A01C 7/04, 1981).

The disadvantage of this sowing device is that:

a) the seeding disc is too bulky, it takes a lot of metal to manufacture it, which leads to high costs;

b) on the side of the sowing disc, to remove excess sucked seeds, a mechanical scraper is used, which damages the seeds, and on the end side of the scraper there is no scraper at all, which disrupts single-grain sowing, since several seeds can stick to the hole;

c) in the lower part of the sowing disc, the seeds fall only with their own weight, which does not allow increasing the forward speed of the seeder, and some seeds generally get stuck in the holes and disrupt the sowing pattern;

d) seeds of two crops are placed at the same planting depth, which is unacceptable according to agricultural rules;

The closest in technical essence to the claimed device is a pneumatic sowing device selected as a prototype, consisting of a seed hopper, divided by a partition into two parts, a fan, an air duct, a vacuum chamber, a coulter, sowing discs with holes installed on the axles, a connecting sleeve, a tedder and drive sprockets, a two-level skid-shaped opener, the vacuum chamber is made in the form of an arc with slots on the sides, to the outside of which an air duct is connected, into which two nozzles are built to counter the movement of the air flow, and on the outside of the air duct from each nozzle, two hoses with different sections (patent RU No. 2567028, IPC A01C 7/04, 2015).

The known device has several disadvantages:

a) the device does not sow seeds in the nesting way with different numbers of seeds in the nest with different steps;

b) to adjust the seeding pattern by changing the number of holes on the seeding disc, it must be replaced with the required number of holes.

The technical objective of the invention is to expand the technical capabilities and improve the operational reliability of the pneumatic seeding device.

The technical task is achieved by the fact that a pneumatic sowing device with a universal dosing system, consisting of a seed hopper divided by a partition into two parts, a fan, an air duct installed on the axes of the seeding discs with holes, a connecting sleeve, tedders and drive sprockets, a two-level skid opener, a chamber vacuum, made in the form of an arc with slots on the sides, to the outside of which an air duct is connected, into which two nozzles are built, directed against the movement of the air flow, from the outside of the air duct from each nozzle, two sleeves with different sections are taken, according to the invention, the holes disks are made threaded for bushings with holes, while for row crops the number of holes on the bushings is at least not more than three, the ratio of the seeding disc thickness to the bushing diameter is 1: 3, for forage crops the number of holes on the bushings is at least no more than six, but with The ratio of the seeding disc thickness to the bushing diameter is 1: 4.

The invention is illustrated by drawings.

Fig. 1. presented a pneumatic sowing device with a universal dosing system (side view); in fig. 2 - the same, section A-A; in fig. 3 - vacuum chamber; in fig. 4 - the same, section B-B; in fig. 5 - seeding disc assembly; in fig. 6 - the same, seeding disc; in fig. 7 - the same, a bushing with two holes; in fig. 8 - the same, a bushing with four holes; in fig. 9 - the same, stub; figure 10 is a two-level skid opener.

A pneumatic sowing device with a universal metering system contains a seed hopper 1, divided by a partition 2 into two parts, a fan (not shown), an air duct 3, a vacuum chamber 4, a coulter 5, sowing discs 6 with suction holes 7 mounted on axles 8, a connecting sleeve 9, agitators 10, sprockets 11. The vacuum chamber 4 is made in the form of an arc, on the sides of which there are slots 12 for creating a vacuum and pressing the seeds of two crops to the holes 7 of the sowing discs 6 from different sides of the arc. Holes 7 are threaded.

To the air duct 3, connected to the outer side of the arc of the vacuum chamber 4, through holes 13, two branch pipes 14 are built, directed towards the air flow, one for each sowing disc 6. On the outer side of the air duct 3, two sleeves 15 are taken from each branch pipe 14 and 16 different sections. One sleeves 15 - to remove excess seeds sucked to the holes 7 in the upper part of the seeding discs 6, while the air flow is directed perpendicular to the holes 7. Other sleeves 16 - in the lower part of the discs 6, are installed at an angle of 6 - 8 ° to the vertical axis of the seeding device in the direction of movement of the seeder and serve to force the removal of seeds and give them acceleration.

The sowing device is equipped with a two-level, runner-shaped opener 5, which allows placing seeds into the furrow at different planting depths. The distance between the axes 17 L of the opener 5 is determined by the condition - L = 2a + b, mm, where a is the thickness of the disc mm, b is the width of the rarefaction chamber mm. The opener 5 is mounted on two axes 17 of the seeding unit.

Bushings 18 with different numbers of holes 19 are screwed onto the holes 7 of the seeding disc 6. For row crops, the number of holes 19 on the bushings 18 is at least three, and the ratio of the thickness of the seeding disc 6 to the diameter of the bushing 18 is 1: 3. For forage crops, the number of holes on the bushings is at least no more than six, and the ratio of the thickness of the seeding disc 6 to the diameter of the bushing 18 is 1: 4. In this case, it is possible to sow seeds using dotted combined and nesting methods.

Such ratios of the thickness of the seeding disc 6 to the diameter of the bushing 18 are explained by the fact that with an increase in the diameter of the bushing 18, it is necessary to increase the thickness of the seeding disc 6, since for reliable fastening of the bushing 18 in the hole 7 of the seeding disc 6 it is necessary to increase the number of threads with the required pitch. For example, it was experimentally established that for row crops with a disc thickness of 6 - 6 mm, a sleeve diameter of 18 - 18 mm, the ratio of these parameters will be 1: 3, i.e. the thickness of the disc 6 depends on the diameter of the sleeve 18. Similarly, for forage crops, with a disc thickness of 4 mm, a sleeve diameter of 18 - 16 mm, the ratio is 1: 4.

The diameter of the sleeve 18 depends on the parameters of the seeds of the sown crop, for example, for sowing corn seeds in an amount of 2 or 3 pieces, it is necessary that the diameter of the sleeve 18 with 3 holes 19 is 18 mm (for one seed, one hole), if the diameter of the sleeve 18 is less than 18 mm, then corn seeds in the amount of 3 pcs. will not fit if it is no longer appropriate.

The pneumatic sowing device works as follows.

During the operation of the sowing device, the seeds from the seed hopper 1, divided by a partition 2, go to the locations of the tedders 10, some of them are sucked on the way, to the holes 19 on the sleeve 18 of the rotating disc 6 and are transported to the discharge zone. With the help of a fan through the air duct 3, the vacuum chamber 4, which has slots 12 on the sides, creates a vacuum and presses the seeds of the two crops to the holes 19 on the sleeve 18 of the seeding discs 6 from different sides of the arc. Discs 6 are equipped with bushings 18 with a different number of holes 19, for sowing seed of different fractions.

Excess seeds adhered to the holes 19 in the upper half of the seeding discs 6 are removed by the air flow from the sleeve 15 coming from the air duct 3 through the branch pipe 14 perpendicular to the holes 19. When the flow is directed at an angle, it is likely that all seeds will be removed, which is not acceptable. Sleeves 16 - in the lower half of the disks 6, are installed at an angle α equal to 6 - 8 ° to the vertical axis 17 of the seeding device in the direction of movement of the seeder and serve to force the removal of seeds and give them acceleration. This angle of the direction of the air flow is necessary so that during the movement of the seeder the seeds removed by the air flow fall closer to the vertical axis. It was experimentally established that if the angle α> 8 °, then the seeds, after falling, roll forward in the direction of the seeder, if α <6 °, then - backward, which violates the sowing pattern.

The air duct 3 operates simultaneously in two modes, the first one provides a rarefaction of air in the chamber 4, and the other, with the help of the nozzle 14 built into it, pumping air, thereby ensuring the operation of the hoses 15 and 16.

The removed seeds in the lower part of the sowing disc 6 fall into a two-level runner-shaped opener 5, which places the seeds of two crops in the furrow at different planting depths, while the distance between the axes 17 L of the opener is determined by the condition L = 2a + b, mm, where a is the thickness disk, mm, b - rarefaction chamber width, mm.

The proposed pneumatic sowing device with a universal dosing system allows sowing seeds of row crops and forage crops with the required number for each of them at different planting depths. In the case of sowing seeds of two crops at the same depth, it is necessary to replace the opener with skids with the same seeding depth.

The sowing device allows you to change the seeding patterns and switch from dotted sowing to nest seeding, changing the number of holes on the sleeve, which is achieved by simply replacing them with sleeves with the required number of holes.

The use of the proposed pneumatic sowing device will expand technical capabilities and increase operational reliability.

Claims (1)

Pneumatic sowing device with a universal metering system, consisting of a seed hopper divided by a partition into two parts, a fan, an air duct, sowing discs with holes mounted on the axles, a connecting sleeve, tedders and drive sprockets, a two-level skid-shaped opener, a vacuum chamber made in the form arcs with slots on the sides, to the outer side of which an air duct is connected, into which two nozzles are built, directed against the movement of the air flow, from the outer side of the air duct, two sleeves with different sections are diverted from each nozzle, characterized in that the holes of the seeding discs are made threaded for bushings with holes, while for row crops the number of holes on the bushings is at least three, the ratio of the seeding disc thickness to the bushing diameter is 1: 3; for forage crops the number of holes on the bushings is at least six, and the ratio of the seeding disc thickness to diameter ru bushings 1: 4.

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