SU886784A1 - Sowing apparatus - Google Patents

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to precision sowing machines.

A sowing device is known, which includes a seed channel bunker, a disk with a sowing hole, and an additional disk mounted on a horizontal shaft with the formation of a cavity between their end surfaces 1.

A disadvantage of the known sowing apparatus is that at the moment of transfer of seeds from the cavity of the seed channel to the sowing cavity, as a result of interaction of seeds with impeller blades, seed crushing occurs, which leads to disruption of the sowing process and decrease in seed germination.

A seeding apparatus is also known, which includes a seed-canal bunker, a disk with a sowing hole, which is made with a glass having radial holes, and an additional cone-shaped disk, with the disks mounted on a horizontal shaft with the formation of a cavity between their end surfaces and axes the holes of the receiving disk are located in the direction of the side surface of the additional disk 2.

The filling of the cells with seeds in this apparatus is carried out by centrifugal forces with the relative movement of the moving disks. However, with a higher SRI of the sowing rate, the centrifugal force is insufficient to reliably fill all the sowing holes, which leads to uneven distribution of seeds in the furrow.

10 The aim of the invention is to improve the filling of the sowing holes with seeds.

This goal is achieved by the fact that in a well-known sowing apparatus on the inside

15, the end surface of the additional disk is fitted with blade-shaped guides, the surface of which is perpendicular to the axes of the sowing holes of the receiving disk.

20 In FIG. 1 shows the sowing unit, section; in fig. 2 is a view A of FIG. one.

The device consists of a bunker 1 with a seed channel 2 communicated with a glass

25 3 having radial holes 4. The glass 3 is located in the cavity 5 between the two disks — the receiving disk b with the sowing holes 7 and the additional cone-shaped disk 8. The axes of the 7 of the receiving 7 receiving disk 6 are located

in the direction of the side surface of the additional disk 8. On the inner end surface of the disk 8, there are guides in the form of blades 9, the surface 10 of which is perpendicular to the axes of the sowing holes 7. The receiving disk 6 and the cone-shaped disk 8 are mounted on a horizontal shaft 11 in the housing 12 and have an independent drive (not shown). A groove 13 is made on the inner side of the receiving disc, in which an ejector 14 is mounted, which is fixed to the housing in the area of seeding.

Sowing machine operates as follows.

Calibrated seeds from the hopper 1 through the seed channel 2 enter the cup 3. When the disks 6 and 8 rotate, the centrifugal forces drive the seeds through the holes 4 into the sowing cavity 5. Under the influence of these forces, the seeds are evenly distributed along the inner surface of the disc 8 and stick to the blade 9. By the surfaces of 10 blades 9, the seeds are directed into the sowing holes 7, the direction of the axes of which coincides with the direction of movement of the seeds. By moving along the sowing holes 7, the seeds interact with the ejector 14 and are fixed at the bottom of the furrow.

The use of a sowing unit allows you to reliably fill sowing

holes with small centrifugal forces, which improves the distribution of seeds in the furrow.

Claims (2)

1. USSR author's certificate No. 576983, cl. A 01 C 7/04, 1976. 2. USSR author's certificate No. 762774, cl. A 01 C 7/04, 1979 (prototype). //. &Ida AND x Crqf .-JUti $ fS,