SU1655329A1 - Pneumatic seeder - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to single-grain pneumatic seals. The purpose of the invention is to simplify the apparatus apparatus, increase the reliability of uniform single-grain seeding, and / reduce air flow. The metering device contains a hopper 1, a branch pipe 2. a metering valve 3, a seed chamber 4. a seed disk 5, a cell 6. a tedder 8. an apparatus body with a cylindrical part 13, an overlay 14 of elastic material, a discharge pipe 15, a housing cover and a shut-off valve rear ends of the cells. The axis of symmetry of the cell is inclined along the rotation of the disk, and the bottom is inclined to the rear end of the disk. When the disk 5 rotates, the seeds are captured by the cells 6 and transported to the seed zone, where they are sown in the furrow under the influence of gravity. Due to the inclined arrangement of the axis of symmetry of the cells and their bottom, the seizure of seeds is improved. 1 hp f-ly, 4 ill. O YO O O SP (L CJ Yu Yu

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to single-grain pneumatic seals.

The purpose of the invention is to simplify the design of the apparatus, increase the reliability of uniform single-grain seeding, and reduce air consumption.

FIG. 1 shows a sowing unit, side view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a seed cell configuration; in fig. 4 - sowing unit, rear view.

The apparatus comprises a hopper 1 with a nozzle 2, a metering valve 3, a seed chamber 4, a seed disc 5, cells b, a protrusion 7, a agitator 8 seeds with a groove 9 and blades 10, an axis 11 of rotation with an eccentric 12, an apparatus body with a cylindrical part 13, the lining 14 of elastic material, dropping the nozzle 15, the housing cover 16 with the nozzle 17, the flap 18, the notch 19 in the housing, the sprocket sprocket 20 and the stand 21.

Cells 6 are made in the form of through grooves, the side walls of which are parallel to the longitudinal plane of symmetry of the groove, and the bottom has the shape of a part of a concave cylindrical surface, while the plane of symmetry and the bottom of the cell are inclined to the disk end located in the seed chamber: the plane of symmetry is under the directional top the direction of rotation of the disk with an angle of 50-55 °, and the generators - under the directed vertex towards the periphery of the disk with an angle of 60-65 °.

The device works as follows.

Seeds from the hopper 1 are fed into the seed chamber 4, where the sowing disc 5 with cells 6 is located. At the same time, overpressure is supplied to the hopper 1 through the nozzle 2 and into the seed chamber through the nozzle 17, to which end the seed box and the output of the part of the sowing disc 5 in the discharge nozzle 15 are sealed.

When the seed disc 5 rotates with the help of the sprocket 20, the protrusion (carrier) 7 of the disk 5 and the groove 9, as well as the tedder 8 seeds, freely set on the stationary eccentric 12. The tedder blades 10 in the area of the seed intake tells the seeds a linear speed. equal to the linear speed of the cells 6 of the disk 5. Due to the fact that the air from the internal cavity of the apparatus passes through the cells partially shielded by the gate 18 into the atmosphere, aerodynamic lift is formed in the cells, filling the cells with overcoming seeds tangential forces of inertia. This is ensured by the equality of the linear velocities of the seeds and the cells, as well as in a large way (0.25 turns of the seed disc) filling the cells with seeds. Then, the cells filled with seeds move in the direction of rotation of the disk 5 and enter the seed transportation zone to the dropping port 15. The body of the apparatus shields the air escaping through the cells to the atmosphere along the whole transportation path of the seeds. Due to this, there is no aerodynamic lift force of the cells. As a result, the excess seeds under the action

their masses and centrifugal forces self-detach from cells. The remaining seeds, one in each cell, are held in the cell by the component force of the force driving the seeds and the component forces of their mass. After being freed from excess seeds, the cells enter the zone of their shielding with an elastic lining 14, which increases the reliability of the failure of the seeds to fall out of the cells. The seed cells are then fed to nozzle 15, where they are unloaded from the seeds into the vomer. Upon further movement of the cells, up to the beginning of the entrance to the window of the seed chamber 4, air cannot escape through the cells, since their rear ends are shielded by the body of the apparatus. Upon entry into the window of the seed chamber 4 and throughout its entire length, the pressurized air passes through the cells and they are again filled with seeds. This process is then repeated many times. Superfluous

the seeds separated from the cells and the seeds set in motion by the agitator 8. by the overlay 14 are directed to the lower part of the apparatus cavity. Due to the equality of the linear speeds of movement of the cells of the sowing disk 5 and the seeds fed to it by the agitator 8, the device can operate with high linear speeds of the sowing disk. Thanks to the fact that the air passes through the cells into the atmosphere only

in the seed intake zone, and the number of cells decreases in proportion to their linear velocity, in the proposed apparatus there is also a decrease in air flow.

FORUMAWLAH AND ISLANDS

Claims (2)

1. A pneumatic sowing machine containing a hopper, a housing, a seed chamber, a sowing disk with symmetrical open-loop cells evenly located on its cylindrical surface, a seed agitator, a sowing window and a source of compressed air, characterized in that simplifying the design of the apparatus, improving the reliability of uniform single grain seeding, and reducing air consumption; each cell is made in the form of a through groove, the side walls of which are parallel to the longitudinal symmetry plane of the groove, and the bottom has the shape of a part of a concave cylindrical surface; the cylindrical surface of the cell bottom is inclined to the end of the disk located in the seed chamber: the plane of symmetry is under the directed apex in the direction of rotation of the disk with an angle of 50-55 °, and Aa five the generators are under a directed apex toward the periphery of the disk with an angle of 60-65 °, with the damper mounted radially behind the disk opposite the seed pickup zone to block part of the groove cross section area. 2. An apparatus according to claim 1, characterized in that in the seed chamber in the seed transportation zone opposite to the path of movement of the grooves there is an arched pad adjacent to the disc face, the height of which is greater than the depth of the groove. G sixteen