RU2335113C1 - Pneumatic seed distributor - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: distributor consists of frame, overpressure nozzle, intake and seed plate. The plate comprises leading edge with seeds friction coefficient more than 0.7. It is mounted on drive shaft in the circular groove of the frame. Seed plate is made in the form of truncated circular right cone; smaller base of the cone is directed to the seed distributor frame. Circular groove of the frame is also made as a cone surface with bigger cone base turned to the seed plate. Generatrices of seed plate and circular groove of the frame are sloped at equal angles to the plane of seed plate base.

EFFECT: invention ensures improving quality of seed sowing due to enhancement of aerodynamic characteristics of the distributor and providing possibility to adjust outlet slot for sowing seeds of different crops.

3 dwg

Description

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

Known pneumatic sowing apparatus, comprising a hopper, a housing, a sowing drum with a horizontal axis of rotation, with holes in the conical cells and a nozzle overpressure / 1 /.

The disadvantage of this invention is its low productivity.

Closest to the proposed technical solution, the known one is a pneumatic metering device comprising a housing, a metering disk equipped with a working edge with a coefficient of friction against seeds of more than 0.7, an overpressure nozzle and a suction device, the metering disk mounted on the drive shaft in the annular groove of the housing the diameter and depth of which is greater than the diameter and thickness of the sowing disk, respectively, by an amount not exceeding the minimum seed size / 2 /.

The disadvantage of this sowing apparatus is the low quality of seed sowing, due to the increased aerodynamic resistance of the outlet gap formed by the annular groove of the body and the edge of the seed disk, and the inability to adjust the size of this gap when sowing seeds of various crops requiring different air flow rates.

The objective of the present invention is to improve the quality of sowing seeds by improving the aerodynamic performance of the apparatus and providing the ability to control the size of the outlet gap when sowing seeds of various crops.

The problem is achieved in that in 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 a drive shaft in an annular groove of the housing, the sowing disk is made in in the form of a truncated circular straight cone, the smaller base of which faces the housing of the metering device, and the annular groove of the housing is also made in the form of a conical surface facing a large base towards the seed disk, while the angles of inclination of the generators of the seed disk and the annular groove of the housing to the plane of the base of the seed disk are the same.

Figure 1 shows a diagram of a pneumatic metering device, side view; figure 2 is a diagram of a pneumatic metering device, section aa in figure 1 in figure 3 shows a view B in figure 2.

Pneumatic sowing apparatus (1, 2) includes a housing 1, in which a sowing disk 3 is installed and fixed on the drive shaft 2, containing a working edge 4 on the end surface at the periphery of the sowing disk 3 from the side of the seed chamber 5 with a friction coefficient of more than seeds 0.7. The sowing disk 3 is made in the form of a truncated circular straight cone and is installed in a conical annular groove made in the housing 1 of the sowing apparatus. Moreover, the angles of inclination of the generators of the seed disk a and the annular groove of the housing P to the plane of the base of the seed disk are the same (Fig. 3). The seed disk 3 is mounted on the drive shaft 2 in such a way that an outlet slit 6 is formed between its conical surface and the conical surface of the annular groove of the housing 1, through which the seed chamber 5 communicates with the atmosphere. The non-working zone of the outlet slit 6 is closed by a gasket 7 in the form of a part of the ring that is pressed against the seed disc 3 by the cover 8. In the housing 1, an inlet window 9 and an outlet 10 of the intake device are also made. An overpressure nozzle 11 is installed in the upper part of the housing 1, supplying air to the seed chamber 5. The seed chamber 5 is connected to the hopper 12 through the inlet window 9. A nozzle of the vas deferens 13 is adjacent to the outlet 10 of the intake device.

Pneumatic metering device operates as follows.

From the hopper 12, the seeds by gravity through the inlet window 9 enter the seed chamber 5 of the housing 1. There, air is also supplied from the overpressure nozzle 11. Penetrating through the outlet slit 6 into the atmosphere, he presses the seeds to the working edge 4 of the sowing disk 3, the coefficient of friction of which about the seeds is more than 0.7. When the sowing disk 3 is rotated due to the arising friction force, the seeds are brought into motion and transported to the outlet 10 of the intake device, from where they then enter the vas deferens 13 and then into the furrow prepared by the opener. By moving the sowing disk 3 along the drive shaft 2, the size of the outlet slit 6 is changed, which makes it possible to select the most favorable parameters and operating modes of the pneumatic sowing device for seeds of specific crops. In addition, the conical configuration of the seed disk 3 and the annular groove of the housing 1 can reduce local resistance to air movement and, accordingly, reduce the air pressure created by the fan, necessary for high-quality seed capture.

Information sources

1. USSR author's certificate No. 410580, cl. A01C 7/04, 1974.

2. RU 2202872, cl. АСС 7/04, 2003 - prototype.

Claims (1)

A pneumatic sowing apparatus comprising a housing, an overpressure nozzle, a suction 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, characterized in that the sowing disk is made in the form of a truncated circular a straight cone, the smaller base of which is facing the body of the sowing apparatus, and the annular groove of the body is also made in the form of a conical surface facing a large base to the sowing claim, wherein the angles of inclination of the seed disc and forming an annular groove for housing the seed disc base plane identical.

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