RU2764194C1 - Device for pre-sowing seed treatment - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular to crop production and seed production, and can be used as a device for pre-sowing treatment of agricultural crop seeds. The device contains a loading hopper, a conveyor belt connected to an electric drive, which are fixed to the frame. A calibration grid for seed separation is reinforced at the entrance of the hopper. At the outlet of the loading hopper, above the conveyor belt of the upper two-level conveyor, there is a gear spreader. Above the conveyors of the upper and lower levels, laser emitters are installed on guides, inside dust-proof compartments with transparent diagnostic windows. In the lower part of the dust-proof compartments there are groups of scattering lenses. At the outlet of the upper-level conveyor there is a grain flipper located at the beginning of the lower-level conveyor. The control unit is electrically connected to the electric drive and laser emitters.

EFFECT: use of the invention will ensure an increase in the quality of the processed seed material, as well as an increase in reliability.

6 cl, 1 dwg

Description

The invention relates to the field of agriculture, in particular to crop production and seed production, and can be used as a device for pre-sowing treatment of crop seeds.

A device for laser treatment of seeds and plants is known (RU 75530, IPC A01C 1/00, publ. 20.08.2008, bull. No. 23), which contains a base, a laser generator unit, a control unit, a turntable with an electric motor and a system of mutually perpendicular mirrors , with the help of which the laser beam, when the turntable rotates, scans the surrounding space in all directions over which this device is installed.

The disadvantage of the device is the low quality of seed processing, since it is designed for stationary processing of the grain pile, over which it is installed, while only the top layer of the pile is processed. For uniform processing, agitation of the grain pile will be required, which will lead to injury to the grain. Also, the device is characterized by low reliability, due to the presence of a system of mirrors that are subject to dusting during seed treatment.

A known method of pre-sowing treatment of seeds and a device for its use (RU 2407264, IPC A01C 1/00, publ. 27.12.2010, bull. No. 36), which contains a frame with a pitched surface, installed at an angle, on which gutters are made, along which , aligned along the axis of the gutter, rolling down, the treated seeds are exposed to laser irradiation from a source mounted on a bracket perpendicular to the gutter.

The disadvantage of this method is the low quality of laser seed treatment, due to the inability to accurately control the radiation dose received by the treated material, and maintain it, with large volumes of material processing.

It is also known a scanning device for controlling a laser beam for presowing seed treatment (RU 2321032, IPC A01C 1/06, G02B 6/12, publ. into a horizontal plane, from which, with the help of polyhedral prisms, it transforms into several vertical ones crossing the conveyor.

The disadvantage of this device is the low quality of laser seed treatment, since during operation the device is subject to heavy dusting, which can affect the operation of multifaceted prisms that perceive the laser beam, as well as the low reliability of the device.

The closest in technical essence to the proposed invention is a device for laser treatment of seeds before sowing (RU 2328847, IPC A01C 1/00; publ. 20.07.2008, bull. No. 20). The device contains a loading hopper, a conveyor for moving seeds, an optical quantum generator and a line scanning prism of the generator beam. The device is equipped with a roller with prisms spaced apart from each other to convert the beam into several vertical planes. The roller has a horizontal axis of rotation. The horizontal scanning prism of the generator beam has a vertical axis of rotation. The roller with prisms is installed on the opposite side of the conveyor relative to the location of the horizontal scanning prism of the generator beam. The axis of rotation of the roller is located above the horizontal radial plane of the development of the specified prism to reflect the rays coming from it onto the plane of the conveyor. The roller prisms are made removable, in the amount of 2 to 12 prisms. The horizontal scanning prism of the generator beam is shifted relative to the generator beam line in the horizontal plane.

The disadvantage of the prototype is the low quality of laser seed treatment, since the system of multifaceted prisms is subject to dust during operation of the device, as a result of which the degree of reflection of the laser beam is reduced, which leads to inefficiency in processing the material, as well as design complexity due to the presence of a large number of moving elements.

The objective of the invention is to improve the quality of laser treatment of seeds due to the possibility of uniform placement of seeds on the conveyor belt and their double-sided laser treatment with a strictly maintained and reproducible dose of radiation.

The technical result from the use of the invention is to improve the quality of the processed seed material, as well as to increase the reliability of the device.

The task is achieved by the fact that, in comparison with the known technical solution containing a conveyor belt connected to an electric drive, which are fixed on the frame, the proposed technical solution contains a loading hopper, at the inlet of which a calibration grid-separator of grain is fixed, a gear spreader located at the outlet of the loading hopper above the conveyor belt of the upper two-level conveyor, laser emitters mounted on guides inside dust-proof compartments with transparent diagnostic windows, and groups of diffusing lenses are located in the lower part of the dust-proof compartments, while laser emitters are located above the upper and lower level conveyors, at the exit of the upper conveyor level there is a grain turner located at the beginning of the lower level conveyor, a control unit electrically connected to the electric drive and laser emitters, and the control unit is made on the basis of mi a crocontroller, laser emitters are made in the form of a group of parallel laser radiation sources, a gear spreader is made in the form of a cylindrical gear, a grain turner is made in the form of a bent rectangular sheet, and a belt drive connects the electric drive with a two-level conveyor and a gear spreader.

In FIG. 1 shows a device for pre-sowing seed treatment.

The device for pre-sowing seed treatment contains a hopper 1, which contains a calibration mesh-separator 2. To evenly distribute the grain, a gear spreader 3 is used, after which the seeds fall onto the conveyor belt 4. The gear spreader 3 and the conveyor belt 4 are driven by an electric drive for 5 seconds using a belt drive 6. Above the conveyor belts 4 there are dust-proof compartments with transparent diagnostic windows 8, to protect the laser emitters 10 from dust, in which guides 9 are installed for laser emitters 10, the laser beams of which pass through a group of diffusing lenses 11 installed below the dust-proof buildings 8. For uniform irradiation of seeds, two laser emitters 10 are used, as well as a two-level system of conveyors 4 and a grain turner 7. To control the technological cycle of irradiation of seeds, a control unit 12 is used based on a microcontroller, an electric connected with the electric drive 5 and laser emitters 10. To prevent the seeds from falling off the conveyor belt 4, it has beads (not shown in the figure). All elements of the installation are fixed on the frame 13.

The device for pre-sowing seed treatment works as follows.

Previously, in the control unit 12, using the microcontroller, the exposure time corresponding to the given radiation dose is set. The duration of irradiation is calculated in advance and consists of two components: the time of movement of the seeds along the conveyor belt under the sources of laser radiation and the exposure time of the seeds under the sources of laser radiation. In this case, the microcontroller, depending on the required dose of radiation and the width of the spot formed by the laser beam on the conveyor belt 4, selects the speed of the conveyor belt 4 by sending commands to the electric drive 5, and, if necessary, stops the movement of the conveyor belt 4 for a specified time. 1 seeds intended for sowing are poured. With the help of the calibration mesh-separator 2, the seeds are sized. On command from the microcontroller, the electric drive 5 is turned on, which drives the gear spreader 3 and the conveyor belt 4. The seeds after the hopper fall on the gear spreader 3 and are evenly distributed on the conveyor belt 4. The seeds, moving along the conveyor belt 4, are irradiated with the help of laser emitters 10 , the rays of which pass through a group of diffusing lenses 11. Seeds, having passed through the first conveyor 4, with the help of a grain turner 7 fall on the second conveyor 4 and are irradiated by a second laser emitter 10 through a group of diffusing lenses 11. As a result, the seeds from both sides receive a strictly specified dose irradiation.

Thus, by ensuring the uniform arrangement of seeds on the conveyor belt and their double-sided laser irradiation at a precisely specified and reproducible dose of irradiation, the quality of irradiation increases, which leads to an increase in the sowing qualities of seeds. The irradiation procedure implemented by the proposed device makes it possible to reproduce it, providing a precisely specified dose of irradiation for various batches of seeds. In addition, the reliability of operation is increased by eliminating the moving optical elements of the device.

Claims (6)

1. A device for pre-sowing seed treatment, containing a conveyor belt connected to an electric drive, which are fixed on a frame, characterized in that it has a loading hopper, at the inlet of which a calibration grid-seed separator is fixed, a gear spreader located at the outlet of the loading hopper above the conveyor belt upper two-level conveyor, laser emitters mounted on rails inside dust-proof compartments with transparent diagnostic windows, control unit, while groups of diverging lenses are located in the lower part of the dust-proof compartments, laser emitters are located above the upper and lower level conveyors, a flipper is located at the output of the upper level conveyor seeds, which is at the same time at the beginning of the lower level conveyor, and the control unit is electrically connected to the electric drive and sources of laser radiation. 2. A device for pre-sowing seed treatment according to claim 1, characterized in that the control unit is based on a microcontroller. 3. A device for pre-sowing treatment of seeds according to claim 1, characterized in that the gear spreader is made in the form of a cylindrical gear. 4. A device for pre-sowing treatment of seeds according to claim 1, characterized in that the laser emitters are made in the form of a group of parallel laser radiation sources. 5. A device for pre-sowing treatment of seeds according to claim 1, characterized in that the grain turner is made in the form of a bent rectangular sheet. 6. A device for pre-sowing seed treatment according to claim 1, characterized in that it has a belt drive connecting the electric drive with a two-level conveyor and a gear spreader.

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