RU205431U1 - Sowing unit - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to the seeders' seeding devices. an unloading plate is installed, which forms an air cavity in the lower part of the hopper with a wall made in the form of an elastic plate made of electrical steel with a bent end, providing periodic overlap of the hopper slot when exposed to vibrations with a frequency that brings the seeds into a fluidized state, while along the entire slot, under it contains a distributor made in the form of a parallelepiped, divided in a vertical plane into sections, each of which is made in the form of a hollow rectangular prism and has a through hole connected to the seed tube, and all through holes of the sections are located wives relative to each other in a checkerboard pattern.

Description

The utility model relates to agricultural machinery, in particular to the seeding devices of seeders.

Known seeding device containing a hopper and a bottom with calibrated seeding holes, made in the form of a movable vibrating disk. The bottom is connected to the hopper by flexible connection. (Kuznetsova RG Research of a universal vibration apparatus for work on slopes. Proceedings of VASKhNIL. - M .: Kolos, 1969, pp. 169-172).

Its disadvantage is the presence of calibrated holes in the movable vibrating disc, which leads to the need to replace the latter when sowing various crops. In addition, due to the jamming of the seeds with a movable vibrating disc, injury to the seed is observed.

Known seeding devices containing a hopper with an outlet slot and installed underneath the tray. Under the action of a vibrator, the tray makes an oscillatory movement, due to which the seeds are sown (Buzenkov GM and others. Machines for sowing agricultural crops. - M., 1976, p. 59).

The disadvantage of these devices is the sensitivity of the device to the slopes of the terrain and the complexity of the design.

Known seeding device equipped with an inclined plate with perforation, driven in oscillatory motion by a movable flap through a two-arm lever, which drops seeds onto the same perforated plate (Patent RU 2481762 C1, class A01C7 / 04, 2013).

However, this sowing device has a high design complexity and does not provide sufficient uniformity of seeding in a difficult field landscape.

Also known is a seeding device, which is based on the principle of electronic dosing of sowing seeds synchronized with the speed of the seeder movement (Ed. St. SU 826987, class A01C7 / 04, 1981, - prototype), including a seed hopper with a slot, an electromagnetic mechanism drive, synchronized with the speed of the drill through the electronic control unit

The disadvantage of the known seeding apparatus is that at the time of release of seeds, a one-step discharge of seeds occurs, leading to thickening of seedlings in one interval, followed by skipping of seedlings in a row until the next seed discharge, which reduces yield and increases seed consumption. Also, due to the large contact area of the flap surface with the seeds, there is an increased risk of injury to the seeds, as well as the risk of large seeds getting stuck between the wall of the chute and the flap when it is closed, which leads to uneven seeding.

The technical result is to increase the efficiency of sowing seeds due to their uniform distribution during sowing.

The technical result is achieved in that the seeding device, including a hopper for seeds with a slot, an electromagnetic drive mechanism synchronized with the speed of the seeder through an electronic control unit, according to the utility model, has a discharge plate that forms an air cavity with a slot in the lower part of the hopper with a wall made in in the form of an elastic plate made of electrical steel with a bent end, while along the entire slot, under it there is a distributor made in the form of a parallelepiped, divided in a vertical plane into sections, each of which is made in the form of a hollow rectangular prism and has a through hole connected to the seed tube , and all through holes of the sections are located relative to each other in a checkerboard pattern.

The novelty of the proposed technical solution is due to the fact that due to the design features, an increase in the efficiency of sowing seeds is ensured due to their uniform distribution during sowing.

The operation of the inventive sowing device is based on the same principle as the prototype, namely, electronic dosing of the sown seeds synchronized with the speed of the seeder, but the seeds do not completely fill the lower part of the hopper with a slot due to the discharge plate, which creates an air pocket. Due to the created limited volume of seeds, before they are dumped from the slot, their fluidized state is created due to vibrations with a certain frequency, imparted by the wall of the hopper formed by the elastic plate. The same resilient pad does metering by periodically opening the sowing slot. Then the metered flow of seeds enters the distributor, dividing them into equal parts by separate seed lines.

This gives the seed mass the properties of a liquid, allowing it to flow freely and evenly in the form of a laminar flow from the hopper at the moments when the slot is opened during the vibrations of the elastic plate, allowing fine adjustment of small seeding rates, while maintaining high uniformity of seed distribution in the row.

The sections, made in the form of a hollow rectangular prism and a distributor, in turn, divide the flow of seeds into equal portions, each of which corresponds to separate vas deferens, besides, one row of portions outflow into the vas deferens a little earlier than the other due to the staggered arrangement of the holes, as a result of the distributor allows the use of one sowing unit for several seed tubes and provides high uniformity of seeding between rows.

All of the above differences make it possible to ensure high seeding uniformity in general, especially at low seeding rates for small-seeded crops.

The essence of the utility model is illustrated by a drawing, where in FIG. 1 schematically shows the proposed metering device, side view; in fig. 2 - section A-A of Fig. one; in fig. 3 - distributor in axonometric projection; in fig. 4 - section of the distributor in section in axonometric projection.

The sowing device consists of a seed hopper 1, inside which there is a bent unloading plate 2. The wall of the lower part of the hopper, adjacent to the bottom of the seeding slot, is formed by an elastic plate 3 made of electrical steel, driven by an electromagnet 4 controlled by an electronic unit 5. Elastic plate 3 with its bent edge overlaps the seeding slot 6 in the rest position. Under the slot along its entire length, there is a distributor 7 in the form of a parallelepiped, divided in a vertical plane into sections 8, each of which is made in the form of a hollow rectangular prism and has a through hole 9 connected to the seed tube (not shown in Fig. 1), all the through holes of the sections are staggered relative to each other.

The electronic unit 5 includes a set of all master and executive devices that provide pulses of the opening duration of the slot 6 in proportion to the seeding rate, with a frequency synchronized with the speed of the seeder, as well as due to bringing the seeds in the lower part of the hopper into a fluidized state.

The work of the sowing device is carried out in the following sequence.

The seeds in the hopper 1 enter its lower part through the unloading plate 2, which forms an air pocket, allowing to limit the mass of seeds accumulating near the wall of the hopper, which is an elastic plate 3, driven in oscillatory motion by an electromagnet 4, powered by pulses sent by the control unit 5 a certain duration and frequency, due to the seeding rate and the speed of the seeder, respectively.

The elastic plate 3 alternately opens and closes the seeding slot 6 in the course of forced vibrations, and also at the same time imparts its vibrations to a limited volume of seeds in the lower part of the hopper, bringing them into a fluidized state, giving them the properties of a liquid, thereby allowing them to flow freely and evenly from the hopper at the moment of opening the seeding slot 6, in the form of a laminar flow, which then enters the distributor 7, the sections 8 of which divide the flat flow of seeds into several uniform portions that fall into separate holes 9 leading to the corresponding seed pipes, and then into the openers, and one a number of portions flow into the vas deferens a little earlier than the other due to the staggered arrangement of the holes.

Claims (1)

The sowing device, characterized by the fact that it has a seed hopper with a slot, an unloading plate that forms an air cavity with a slot in the lower part of the hopper with a wall made in the form of an elastic plate made of electrical steel with a bent end, an electromagnetic mechanism for its drive, synchronized with the speed of the seeder through the electronic control unit, while along the entire slot, under it there is a distributor made in the form of a parallelepiped, divided in a vertical plane into sections, each of which is made in the form of a hollow rectangular prism and has a through hole connected to the seed tube, and all through holes sections are staggered relative to each other.

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