RU2533906C1 - Air operated seeder unit - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: air operated seeder unit comprises housing, overpressure nozzle and seeder disc. Working edge of seeder disc features the factor of friction of seed over 0.7. Housing top part on the side abutting on seeder disc accommodates proportioning disc to run therein. Working surface of said proportioning disc features friction factor over 0.7. Seed feed duct is secured at housing flat surface on the side abutting on seeder disc, duct cross-section features the shape of rectangle with sides larger than one and a half of the seed maximum size. Seed duct pipe in arranged in the housing so that its top edge is located above seed level in seed chamber.

EFFECT: higher quality of seeding.

1 dwg

Description

The invention relates to agricultural machinery, in particular to machines for sowing seeds of agricultural crops.

Known pneumatic jet metering device containing a source of compressed air, a hopper for seeds, a guide channel, seed tube, perfodisk with supply and receiving nozzles. The hopper is connected to the seed accumulation channel and a tedding chamber, which communicates with the output of the pneumatic pulse generator, and the perfodisk receiving nozzle is connected to the pulse shaper input, the output of which is connected to the seeding nozzle and the guide channel cut-off nozzle, the length of the duct connecting the pulse shaper output to the cut-off nozzle more than the length of the duct connecting the output of the pulse shaper to the seeding nozzle / RF Patent No. 2322595, IPC A01C 7/04, publ. 06/10/2008 /.

The disadvantage of this invention is its low quality of seeding.

The closest to the proposed technical solution, known, is a pneumatic sowing device containing a housing, an overpressure nozzle, a sampling device and a sowing disk equipped with a working edge with a coefficient of friction against seeds of more than 0.7 and mounted on the drive shaft in the annular groove of the housing. The sowing disk is made in the form of a truncated circular straight cone, the smaller base of which is facing the housing of the metering device, and the annular groove of the housing is also made in the form of a conical surface facing the large base of the metering disk, while the angles of inclination of the generators of the metering disk and the annular groove of the housing to the planes of the base of the sowing disk are the same / RF Patent No. 2335113, IPC A01C 7/04, publ. 10.10.2008 /.

The disadvantage of this invention is that the sowing apparatus cannot provide a uniform piece feed of seeds.

The objective of the present invention is to improve the quality of sowing seeds by ensuring uniform piece feeding of seeds.

This object is achieved in that the pneumatic metering device comprises a housing, an overpressure nozzle and a metering disk equipped with a working edge with a coefficient of friction against seeds of more than 0.7, and in the upper part of the housing, on the side adjacent to the metering disk, is mounted for rotation a metering disk having a working surface with a coefficient of friction of more than 0.7, and on the flat surface of the body, on the side adjacent to the metering disk, the tube of the vas deferens is attached, the cross section of which has the form of a straight line golnik with sides greater than one and a half maximum seed size, while the tube of the vas deferens in the housing is installed so that the upper edge is located above the level of seeds in the seed chamber.

Figure 1 shows a diagram of a pneumatic metering device.

The pneumatic metering device (Fig. 1) includes a housing 1, a metering disk 2 containing a working edge 3, mounted on the shaft of the drive electric motor 4 in such a way that an outlet slot 5 is formed between the housing 1 and the metering disk 2. The seed chamber 6 communicates with environment with an outlet slot 5, and with an airtight hopper 7, an inlet window 8. Air is supplied through the overpressure nozzle 9 to the seed chamber 6. On the flat surface of the housing 1, from the side adjacent to the seed disk 2, the tube of the vas deferens 10 is attached, the cross section of which has the shape of a rectangle with sides larger than one and a half maximum seed size. In the upper part of the housing 1, on the side adjacent to the metering disk 2, a rotating metering disk 11 is mounted, driven by an electric motor 12.

Pneumatic metering device operates as follows.

From the sealed hopper 7, the seeds by gravity through the inlet window 8 enter the seed chamber 6 of the housing 1. There, air is also supplied from the overpressure nozzle 9. Penetrating through the outlet slot 5 into the atmosphere, an air stream presses the seeds against the working edge 3 of the sowing disk 2, the coefficient of friction of which on the seeds is more than 0.7. During rotation of the sowing disk 2, due to the emerging friction force of the seeds against the working edge 3, the seeds are involved in movement and transported to the surface of the metering disk 11, which has a coefficient of friction against seeds of more than 0.7. As a result of rotation of the seed disk 2, a row of seeds is formed along the outlet slot 5. When the metering disk 11 is rotated, a seed is removed from a row of seeds, which is in contact with its surface. As a result, the carried-out seed enters the air stream moving from the seed chamber 6 into the branch pipe of the vas deferens 10 and is transported by this stream to the furrow prepared by the opener. To ensure better capture of seeds by the air flow moving from the seed chamber 6 into the tube of the vas deferens 10, the tube of the vas deferens 10 is in close proximity to the metering disk 11 and the sowing disk 2. In order to ensure the necessary fit of the tube of the vas deferens 10 to the flat surface of the housing 1, s on the one hand, and to the sowing disk 2, on the other hand, the cross section of the tube of the vas deferens 10 has the shape of a rectangle. To reduce the likelihood of clogging the duct tube with 10 seeds, the geometric dimensions of its sides should be more than one and a half maximum seed size. The upper edge of the tube of the vas deferens 10 is located above the level of seeds in the seed chamber 6, to prevent spontaneous ingress of seeds into the tube of the vas deferens 10.

Changing the seeding rate is carried out by adjusting the angular velocity of rotation of the metering disk 11.

Claims (1)

A pneumatic sowing apparatus comprising a housing, an overpressure nozzle and a sowing disk having a working edge with a coefficient of friction against seeds of more than 0.7, characterized in that a metering disk is mounted to rotate in the upper part of the casing from the side adjacent to the sowing disk, having a working surface with a coefficient of friction of more than 0.7, moreover, on the flat surface of the casing from the side adjacent to the sowing disk, a tube of the vas deferens is fixed, the cross section of which is in the form of a rectangle with sides more than one and a half maximum seed size, while the tube of the vas deferens in the housing is installed so that its upper edge is located above the level of seeds in the seed chamber.

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