RU174064U1 - PNEUMATIC SOWING UNIT - Google Patents

Abstract

The utility model relates to agricultural engineering. The pneumatic sowing device includes a housing 1, in which an eccentric axis 2 is fixed, on which an outer disk 3 with a rim 4 and an inner disk 5 are mounted. A suction slot 6 is formed between the annular part of the disk 3 and the cylindrical part of the disk 5 with a gap δ that prevents suction seed. A disk-lead 7 is rigidly fixed on the disk 3 to drive the internal disk 5. A seed hopper 8 is adjacent to the internal disk 5. The disk 5 has an elongated hole 9, in which the finger-lead 7 moves when the disks 3 and 5 rotate. The vacuum is transmitted to the working part of the slot 6 through the openings 10 and 11 from the vacuum chamber 12. A jumper 13 is fixed between the disks 3 and 5 with an axis 2 separating the suction part of the gap 6 from the atmospheric pressure zone. The coulter 15 is adjacent to the sowing apparatus. In the zone of increased clearance δ, a brush 16 is installed to clean the slit 6. The technical result of the utility model is to eliminate the clogging of the suction slit 6 when sowing small-seeded crops. This is achieved by the fact that the disks 3 and 5 rotate around different, eccentrically located O and O axes, due to which the gap 6 in the seed trapping zone decreases by the amount of eccentricity, this eliminates the possibility of seeds sucking in, and in the gap unloading zone 6 it increases by the same amount eccentricity to size δ. An increase in the size of the suction gap in the seed ejection zone to a value of δ and the presence of a brush 16 leads to the release of even clamped elastic particles.

Description

The utility model relates to agricultural engineering.

Known pneumatic sowing devices, including a housing, a seed chamber, a vacuum chamber, between which there is a rotating disk with suction holes for removing seeds from the seed chamber to the opener (Valyanov D.G., Petrenko A.E. Slotted suction devices // Mechanization and electrification of agriculture. 1977, No. 10, C 49-50).

When sowing small-seeded crops in order to avoid leakage of seeds, the diameter of the holes must be selected in the range of 0.3-0.8 mm. Such openings are often clogged, and cleaning them even with a stream of compressed air is not always effective.

The closest technical solution is a pneumatic apparatus, including a seed container, a vacuum chamber and a sowing disk between them, consisting of two disks, one of which adjoins the seed chamber and the other to the vacuum chamber and has openings evenly spaced around the circumference for message slots between disks with vacuum. The discs are separated by a gasket, by changing which the size of the slit for sucking the seeds is regulated. In the zone of dropping seeds, the gap is cleaned with a scrubber-ejector installed between the disks (copyright certificate No. 452293, class A01C 7/04, publ. 1974).

The disadvantage of this device is the almost impossibility of ensuring reliable operation of the ejector-scraper, placed in a slot measuring 0.3 ... 0.8 mm.

The technical result of the utility model is the elimination of clogging of the suction gap when sowing small seeds.

The essence of the utility model is that the disk adjacent to the vacuum chamber is provided with an outer rim, and the suction gap is organized between the inner side of this rim and the cylindrical part of the second disk placed eccentrically in this rim.

The drive of the internal disk is carried out with the help of a finger-leash, mounted on the external disk. Both discs rotate relative to the eccentric axis fixed in the casing; therefore, the gap between the discs changes by the amount of eccentricity. In the seed capture zone, the working gap is small, eliminating the suction of seeds, and in the discharge zone it increases by the size of the eccentricity.

In FIG. 1 is a schematic side view of a metering apparatus, and in FIG. 2 - section along aa. The device is arranged as follows.

An eccentric axis 2 is fixed in the housing 1, onto which the outer disk 3 with the rim 4 and the inner disk 5 are mounted. When the disks 3 and 5 rotate around the axes O ₁ and O ₂ , a gap of 6 s is formed between the rim of the outer disk 3 and the cylindrical part of the inner disk 5 the gaps δ ₁ and δ ₂ .

A finger-lead 7 of the drive of the internal disk 5 is fixed on the external disk 3. A seed hopper 8 is adjacent to the internal disk 5 and on the same disk 5 there is an elongated hole 9, which includes the finger-lead 7. In the case 1 and the external disk 3 are made openings 10 and 11 for connecting the working part of the slit 6 with the vacuum chamber 12. Between the disks 3 and 5 there is a jumper 13 separating the vacuum chamber 12 from the atmospheric pressure chamber 14, rigidly connected to the axis 2. A coulter 15 is fixed in the lower part of the housing 1. B increased clearance δ ₂ is placed brush 16 Pts stki slit 6.

The device operates as follows. When the outer and inner disks 3 and 5 rotate and there is a vacuum between them due to air suction through the hole 10, the seeds from the hopper 8 are sucked into the slot 6 and move together with the disks 3 and 5. The gap δ_one the entire suction area should be less than the thickness of the seeds in order to avoid their suction. As soon as the seeds cross the jumper 13, they are in the zone of atmospheric pressure, detached from the gap 6 and fall into the coulter 15.

In view of the fact that the maximum gap size is 6 δ ₂ greater than δ ₁ , even seeds stuck in the suction zone will fall out under the action of the brush 16 into the coulter 15.

Claims (1)

Pneumatic sowing apparatus, comprising a housing, a container for seeds, a discharge chamber and a sowing disk between them, consisting of two disks, one of which adjoins the seed chamber, and the other - the discharge chamber and has openings evenly spaced around its circumference for supplying vacuum to the suction slits, characterized in that the disk adjacent to the vacuum chamber is provided with an outer rim, and a suction gap is formed between the inner side of this rim and the cylindrical part of the second disk, the disks being mounted on and the eccentric axes, and the drive of the internal disk is carried out by a finger-lead from the external disk.

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