SU1653572A1 - Apparatus for preplant electrochemical treatment of seeds - Google Patents

Abstract

The invention relates to the field of agriculture, namely, to plants for pre-sowing electrochemical treatment of seeds. The purpose of the invention is to increase. The invention relates to agricultural mechanical engineering, in particular to devices for treating seeds with protective and stimulating substances. The purpose of the invention is to improve the quality of treatment. In FIG. 1 is a schematic diagram of an installation for preseeding electrochemical treatment of seeds; Fil 2 drum sprayer: FMG 3 - reflector in the form of a dihedral clip; in fig. 4 - reflector in the form of cylindrical segment A unit for pre-sowing electrochemical treatment of seeds includes loading the equipment. A shrudor chamber for dressing the 19, j electrode and the 21 snorpas is located g / aspch chitgm 24 a drug in the form of a perforated hollow cylindrical btrabama, continuing the axis of which is located in the same plane with the line of contact barble 11 chad installed The R 34 is in the form of a two-sided segment of either a cylindrical segment. The seeds come in an E chamber 9 where they are dedusted, and get 1 in a chamber P where they are etched by the preparation coming from the nebulizer 24 on the opposite side of the charge G – chi and in chamber 19, the cross-interaction of the seeds with the drug is different; the opposite is the law of increasing the sedimentation of the particles of the drug HJ seeds 2 of the phyla 4 or the zone bunker 1 which contains the bunker of the inside of which are feeders 3 Bracket type gates 4 for adjusting seeds under the bottom of the metering hopper 2 dielectric plates 5. potential electrodes 6, grounded perforated electrodes 7 o & develop an electrostatic charging zone and dedusting the seed, therefore, the impurities are removed aspiration (shown) connected to the air line 8. Under the hopper 1 there is a separation chamber 9, which includes a cleaning and cleaning device 10, which consists of two oppositely rotated CA O

Description

grounded drums 11 and installed the corona electrodes 12. The drums 11 are installed along the side wall of the housing 13 installation. The separating planes 14 are installed under the drums 11, the waste receiver in the form of a screw 15 and brushes 16. The separating planes 14 are made of dielectric material and can be rotated around an axis up to 120 °. Plane 17 is also made of a dielectric, equipped with an elastic apron 18 made of rubber, and attached together with a dividing plane 14 on the same axis to the body of the auger of unloading waste, and from the front side to the body of the installation. The plane 17 together with the body of the waste discharge screw separates the cavity of chamber 9 from the etching chamber 19. The aprons 18 freely contact insulating pitched baffles 20 made of a dielectric protruding into the cavity of separation chamber 9 and fastened in the upper part to the installation body. A feature of their installation is that they are set at an angle of 20 ° to the vertical axis of the installation, as well as the fact that their lower part forms the upper part of the etching chamber 19. Thus, the side faces are a continuation of the straight linear insulated partitions 20 and have a parabolic form. Side faces, i.e. The baffles 20, in the middle part of the dressing chamber 19, have electrodes 21, which smoothly interface with them and form a common pitched surface. The side faces 20 of the dressing chamber 19 are connected to the end faces 22 of the same chamber by rigidly screws. In the lower part, the dressing chamber 19 through the insulators 23 is attached to the installation body. In the upper part of the volume of the treatment chamber 19, a dispenser 24 of the liquid preparation is installed symmetrically with respect to the side walls of the chamber. The atomizer 24 is a hollow cylindrical perforated drum 25 (FIG. 2) mounted in parallel with the drums 11 of the charging-cleaning device 10. The mesh drum 25 is fixed by screws to the end walls 26 of the atomizer 24, and the latter are connected to the shaft 27, which extends beyond the walls of the dressing chamber. Inside the drum 25, coaxially with it, an annular deflector 28 with holes 29 and a fixed hollow shaft 30 with holes 31 with a spring 32 and a ball valve 33 are inserted.

In order to reduce the irrigation zone and create a directional flow of the spray pattern, spray reflector 34 is located above sprayer 24.

FIG. 3 shows a reflector in the form of a cylindrical segment; FIG. 4 - in

as a dihedral wedge.

The pickled material is removed from the pickling chamber by means of an unloading screw 35, which is located under the pickling chamber 19.

0Installation works as follows.

Depending on the crop, the plant is initially calibrated by seed, i.e. performance per unit of time. Maximum capacity can be 10 tons per hour on wheat seeds. Then, the preparation is performed on the drug in such a way that 15 liters of the drug are consumed per 1 ton of seeds.

0 Upon completion of the calibration, the installation is ready for operation. The seeds to be processed go to the hopper 1 and are fed by the feeders 3 to the air-to-dust zone. The flow rate is controlled by the gates 4. The passage through the walls of the metering hopper 2, the dielectric plates 5 and the potential electrodes b, the seeds are negatively charged, located on their surface

0, the dust particles under the action of the electrostatic field and the air flow are opened and through perforated grounded electrodes 7 are removed through the duct 8. In the separation chamber 9, charged seeds

5 fall on the surface of the drums 11 evenly distributed in two streams. When the drums rotate 11, the seeds enter the corona-discharge electric field created between the corona-producing

0 by electrodes 12 and the surface of grounded drums 11. The charge obtained contributes to the separation of seeds from impurities. The surface of the drums 11 is cleaned with brushes 16, and the transport

5 waste from the installation is carried out at the expense of the auger 15 unloading waste. By changing the angle of inclination of the dividing plane 14, you can adjust the amount of waste. The divider plane 14 and the plane 17 are filled out of a dielectric material in order to preserve the negative charge acquired in the separation chamber 9 on the seeds. Full seeds from the drums 11 are fed into the slot formed

5 by plane 17 with an apron 18 and a partition 20, and in the form of a flat flow enter the dressing chamber 19. Passage along the surface of the insulating partition 20, passing the electrode 21 into the potential screen, the seeds are in the torch zone

The spray of the oppositely charged drug leaving the grounded sprayer 24. Thus, in the treatment chamber 19, the negatively charged seeds cross-react with the positively charged particles of the preparation. A differently charged charge promotes an increase in the sedimentation of suspension particles on seeds. In addition, regarding the side faces of the electrodes 21 of the etching chamber 19, the seeds roll around their own axes and rotate to the dispenser 24 of the preparation with an untreated surface. Drops of the drug, not contacting the seeds, are deposited on the lateral faces of the electrodes 21 and are constantly removed due to the flow of seeds, which leads to their self-purification.

By moving the reflector 34 along the surface of the sprayer 24, the treatment area of each of the side faces 20 of the etching chamber 19 is changed by an aerosol, and a directional spray is created. Since in one case the flow directions of the seeds and the aerosol coincide, but not in the other, by moving the reflector 34, the residence time of the seeds in the spray pattern zone is controlled, thereby achieving identical pickling conditions in each of the streams.

The drug moves along the hollow shaft at 30, compresses the spring 32 of the ball valve 33 and enters through the openings 31 to the inner surface of the rotating annular deflector 28, through the openings

five

0

five

0

five

The surface of the deflector is sawed from the inside onto the drum 25 and is thrown off from its surface due to centrifugal forces. Since the droplet detachment occurs in an electric field existing between the surface of the nebulizer 24. side faces 20 and the electrodes 21 of the treatment chamber 19, induction of aerosol particles occurs.

Claims (3)

1. A plant for pre-sowing electrochemical treatment of seeds, containing a feed hopper, an electroseparation chamber underneath with a drum charge cleaning device and waste receptacle, and an electroforming chamber, between which electrodes a rotating dispenser of the preparation is placed, characterized in that, in order to increase quality of etching, the spray of the drug is made in the form of a perforated hollow cylindrical drum, the longitudinal axis of which is located in the same plane with the line of contacting the drums behind the bottom of the cleaning device and above it a reflector is mounted with the possibility of movement in the direction of the electrodes. 2. The installation according to claim 1, characterized in that the reflector is made in the form of a dihedral wedge. 3. Installation under item 1, characterized in that the reflector is made in the form of a cylindrical segment. x T FIG. 2 L FIG L