RU2093975C1 - Seeding unit - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: seeding unit has cylindrical casing 1 mounted on bearing 2, immovable cylinder 3 with vertical channels 4 on its outer surface, lock valve 5 with inclined channels 6, which are joined at their upper ends with channels of cylinder 3 and at their lower ends with seed discharge unions 7, hopper 8, drive 9 and frame 10. Lock valve 5 is made in the form of cylindrical washer and is secured from below to immovable cylinder 3 by lock screw. Channels 4 of cylinder 3 and inclined channels 6 of lock valve 5 have different sizes and semicircular section. Immovable cylinder 3 has upper part made in the form of paraboloid of rotation. EFFECT: increased efficiency by uniform distribution of seeds along furrow during advancement of drill. 3 cl, 1 dwg

Description

 The invention relates to agricultural machinery, specifically to sowing machines of sowing machines.

 Known sowing devices of screw type, (ed. St. USSR N 324973, MKI A 01 C 7/16, 1970, N 1061728, MKI A 01 C 7/16, 1982, etc.).

 These machines have low productivity, are complex in design and are suitable mainly for single-row seeders, since when used for multi-row seeders they require a complex drive unit.

 Known sowing apparatus of a selection seeder (ed. Certificate N 1660604, MKI A 01 C 7/02, 1989) containing a hopper, a rotating screw in the form of a double-sided truncated cone with multi-thread in the form of grooves on the outer surface of the lower cone, a stationary case with an inner conical surface, mating with the conical surface of the screw and dividing washer with sowing windows, and the grooves of the lower cone have a triangular profile with a right angle at the base.

 When the screw rotates, the seeds, moving along the upper cone, fill the helical grooves bounded by the conical surface of the body, along which, under the action of gravity and friction, move downward, while leaving the grooves the seeds form a movable ring stream, which, falling on the dividing surface of the washer, divided by its ribs into portions and further along the vas deferens.

The disadvantages of the metering unit:
dividing washer does not provide uniform division of the annular stream of seeds, which leads to a large uneven distribution of seeds along the vas deferens;
the manufacture of a screw with helical grooves is expensive and special machine equipment;
the productivity of the apparatus does not change in proportion to the change in the speed of rotation of the auger, which complicates the stepless regulation of seeding rates.

 Known sowing apparatus of a selection seeder (ed. St. USSR N 1442104, MKI A 01 C 7/16, 1987 prototype), comprising a rotating cylindrical housing located inside the housing a stationary cylinder with inclined grooves on the outer surface, mating with it from the bottom of the nozzle for exit seed, hopper and rotation drive.

 The disadvantage of the apparatus is the large unevenness of the seeding of seeds between the individual outputs (vas deferens) that does not meet the initial requirements.

 The invention is aimed at eliminating the disadvantage of the known sowing apparatus and the following technical result can be obtained from its use: increasing the uniformity of seed distribution along the vas deferens, due to the rotation of the casing, which eliminates the influence of centrifugal forces on the nature of the movement of seeds; elimination of the influence of the height of the column of seeds in the hopper on the uniformity of seeding; universality of the device due to the introduction of a removable shut-off valve; reducing the complexity in the manufacture of the working bodies of the apparatus.

 The specified technical result is achieved due to the fact that the metering device contains a rotating cylindrical body, inside which there is a stationary cylinder with vertical grooves on its outer surface, on which a shut-off valve with inclined grooves is attached from below, mating from above with the grooves of the fixed cylinder, and from below with fittings for the release of seeds.

 A feature of the invention lies in the fact that the shut-off valve with inclined grooves located at an angle less than the angle of repose of the seeds eliminates the expiration of seeds when loading the hopper and the drive stops and ensures uniform division of the seeds into the grooves under the action of gravity and the acting force from the rotation of the housing, overcoming the friction forces of seeds on the surface of the groove.

 The rotation of the body, and not the cylinder, eliminates the negative influence of centrifugal forces and not the outflow of seeds with increasing rotation speed.

 The presence of vertical grooves on the surface of the cylinder, mating with the grooves on the shut-off valve, provides the preparation of equal amounts of seed mixture, which also contributes to a more uniform division of seeds along the vas deferens.

 The drawing schematically shows a sowing apparatus.

 The sowing apparatus consists of a cylindrical housing 1, which is mounted on a support bearing 2, a stationary cylinder 3 with vertical grooves 4 on the outer surface, a shut-off valve 5 with inclined grooves 6, mating on top with the grooves of the cylinder, and on the bottom with fittings 7, seed hopper 8 , actuator 9 and frame 10. The shutoff valve 5 is made in the form of a cylindrical washer and is attached from below to the stationary cylinder 3 using, for example, a locking screw.

 The vertical grooves 4 of the cylinder 3 and the inclined grooves 6 of the shut-off valve 5 are made equal and in cross section have the shape of a semicircle.

 The fixed cylinder 3 in its upper part is made in the form of a paraboloid of revolution. The geometric dimensions of the grooves 6 of the shut-off valve 5 and the angle of their inclination to the horizon for individual crops are determined depending on the size of the seeds and the angle of repose on the material of which the valve is made.

 The metering device operates as follows.

 Seeds from the hopper 8 come by gravity along the surface of the paraboloid, filling the vertical grooves 4 of the cylinder 3 and partially inclined grooves 6 of the shut-off valve 5, in which the seeds are kept from spilling due to friction forces about from the wall. When the housing 1 rotates, the seeds under the influence of gravity and their adhesion to the surface of the housing 1 move down and are thrown into the nozzles 7 and then into the seed tubes.

 The seeding workflow is carried out if the rotation of the housing 1 (when viewed from above) is parallel to the side, the inverse angle to the horizon of the grooves 6 of the shut-off valve 5.

Claims (3)

 1. The sowing apparatus comprising a rotating cylindrical body, a stationary cylinder located therein with inclined grooves on the outer surface, mating with it from the bottom of the seed outlet, a hopper and a rotation drive, characterized in that the lower part of the stationary cylinder is made in the form of a shut-off valve, and the grooves above the shut-off valve are arranged vertically and are conjugated with the inclined grooves of the shut-off valve, the latter being made at an angle smaller than the angle of repose of the seeds along a curved surface awn grooves.  2. The apparatus according to claim 1, characterized in that the inclined grooves of the pressure valve are made in the form of a semicircular section with a smooth surface and geometric parameters determined by the sizes of certain seeds.  3. The apparatus according to claim 1, characterized in that the surface of the stationary cylinder in the upper part is made in the form of a paraboloid of revolution.