RU151627U1 - SPRAY SOWING UNIT - Google Patents

Abstract

A coil metering device comprising a half-cylinder-shaped hopper with a bottom, a metering flap, a metering coil with grooves, characterized in that, in order to reduce damage to the particles between the wall of the bottom with the coil, and also to eliminate the stickiness of the grooves and increase the uniformity of unloading of bulk material through the metering the hole of the hopper, cavity and protrusions of the coil along its profile are made in the form of an involute on which inclined grooves are located along its length, so that the sum of the lengths along the diameter of the cavity and mortar should be equal 2d relative to the diameter D over the length of the circumference of the axis and the involute must be multiples of the diameter with respect to forming.

Description

The utility model relates to agricultural engineering, in particular, to apparatus for sowing grain, solid mineral fertilizers and other bulk materials of various industries.

Known coil metering device in the form of a coil with grooves and an upper valve (patent SU No. 1759277, class AC 7/12).

The disadvantage of this technical solution is the low quality of sowing, due to the instability of the receipt of the active layer from the hopper, the low quality of filling the grooves of the coil and, consequently, the accuracy of metering at the rate of sowing.

Also known is a sowing apparatus comprising a housing and a coil with grooves (ed. Certificate. USSR No. 127918, class A01C 7/12).

The disadvantage of this sowing apparatus is the design complexity and the fact that if seeds or particles of fertilizer get between the sharp edge of the grooves top and the body, they may jam, with violation of the integrity of the sowing materials, and it is possible to press fertilizer particles into the groove cavity during operation and, accordingly, violation dosing process, and tuning to the seeding rate.

The closest to this invention in terms of technical nature and the achieved technological result (prototype) is the known spool metering device (copyright certificate RU No. 1097220, class А01С 7/12), including a seed box, a spool with grooves, a socket and a cover with a safety window and the bottom of the exhaust window.

The disadvantage of this solution (prototype) is the design complexity, the indefinite amount of materials sown by the grooves, in the case of adhesion of particles of the material to the surface, to inferior and uniform discharge from the grooves, the inability to move materials along the grooves and their self-cleaning during operation, which leads to complexity of setup the design of the apparatus at the rate of seeding without damaging the particles.

The objective of the proposed utility model is to reduce the destruction of large particles when they are sown by a metering coil, creating conditions for the movement of particles inside its groove to eliminate the process of adhesion of particles to the walls of the grooves

The proposed utility model is aimed at improving the technological capabilities of the sowing apparatus by creating conditions during the rotation and unloading of the coil, to reduce damage to the particles of the sowing material and to create conditions for filling and moving bulk materials through the grooves due to the pressure of the overlying active layer.

Achieving the task of reducing damage to particles of bulk material, eliminating the process of sticking it to the walls in the grooves of the coil and increasing the uniformity of discharge through the metering hole of the hopper is ensured by the fact that the grooves of the coil are made obliquely to the axis of rotation, and the grooves in the cross section of the coil are made with a profile in the form involutes. In this case, the axial diameter of the circumferential circle of the involute of the coil D must be equal to two circumferences with the diameter of the protrusion and the depression of the grooves of the coil equal to 2d and a multiple of the length of the generatric diameter of the coil D, and the bottom of the hopper must be made in the form of a half cylinder with a coil diameter larger by the size of the smallest particles bulk material.

In FIG. 1 shows a general view of a hopper with a coil and a metering hole with a slide gate.

The metering device consists of a hopper 1 with a bottom in the form of a semicircle, with an unloading window 2, equipped with a metering device in the form of a gate 3 and an involute coil profile 4.

In FIG. 2 shows a general view of a coil with inclined grooves.

In FIG. 3 shows a diagram of the interaction of the coil 4 with the particle 5 and the walls of the hopper.

The metering device operates as follows.

Fertilizers from the hopper 1 under the action of active gravity forces present in the bulk material fill the upper part of the inclined grooves of the coil 4. When it is rotated, in the lower position of the groove of the groove above the hole, particles self-unload, through window 2 in the lower cylindrical part of the hopper equipped with a metering shutter 3. When approaching large particles of material 5 (figure 3), when its size is smaller than the size of the gap between the wall of the hopper 1 and the protruding part of the coil 4, the latter is rolled around the surface of the groove and receives a rotator Noe movement until the particle size is equal to the size of the gap between the hopper wall 1 and the projecting coil portions of the groove 4, thereby preventing the destruction of the particle and facilitates its movement in the groove due to repackaging under gravity of the overlying layer.

The dose of fertilizers is controlled by the opening of the metering flap 3. When particles exit the discharge zone, the remaining part in the groove of the coil rises up and due to gravitational forces and due to the pressure of the overlying active layer, the particles move from the upper part to the lower part along the inclined plane of the coil groove creating movement inside the groove. Further, when the coil is rotated and, accordingly, by the rotation of each groove above the discharge window, the unloading process is repeated.

Claims (1)

A coil metering device comprising a half-cylinder-shaped hopper with a bottom, a metering flap, a metering coil with grooves, characterized in that, in order to reduce damage to the particles between the wall of the bottom with the coil, and also to eliminate the stickiness of the grooves and increase the uniformity of unloading of bulk material through the metering the hole of the hopper, cavity and protrusions of the coil along its profile are made in the form of an involute on which inclined grooves are located along its length, so that the sum of the lengths along the diameter of the cavity and mortar should be equal 2d relative to the diameter D over the length of the circumference of the axis and the involute must be multiples of the diameter with respect to forming.

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