RU2263431C2 - Apparatus for presowing treatment of seeds - Google Patents

Abstract

FIELD: agricultural engineering, in particular, technical means for presowing treatment of seeds of cereal, leguminous, grain fodder, oil-bearing, vegetable, cucurbitaceous, medicinal, fodder and other crops.

SUBSTANCE: apparatus has mixing chamber, charging vessel, discharge vessel, suction branch pipe, and delivery pipeline. Apparatus is equipped with two-chamber vessel. Tubular electric heaters are mounted in one of said chambers. This chamber is hydraulically connected through delivery pipeline to mixing chamber. Other chamber is pneumatically connected with compressed air source and is hydraulically connected with suction branch pipe of mixing chamber. Both chambers of vessel are communicating with one another through pipeline and locking fittings. Discharge screw accommodated in rotary chute and rotor equipped with curved blades are axially mounted in mixing chamber. Blades are arranged at equal angular distance from one another on rotor hub.

EFFECT: wider operational capabilities and increased efficiency.

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Description

The invention relates to agricultural machinery, in particular to a technique for presowing treatment of seeds of wheat, rye, barley, soy, peas, herbs, vegetables and other crops.

A known installation for presowing treatment of seeds, including a container with a loading hole, a lid and nozzles for connecting to a vacuum source, in which, in order to increase the intensity of the flow of solutions under the seed cover, it is equipped with a mesh bracket having a disk with holes and placed in a cylinder installed in a container (SU, copyright certificate No. 246177. M.cl. A 01 C 1/00. Installation for presowing seed treatment / S.F. Bessarabov, I.I. Bogoroditsky (SU). - Application No. 1210401 / 30-15 Stated January 10, 1968. Publ. 1969. Bull. No. 20, pp. 111-112).

The disadvantages of this setup include the low efficiency of pre-sowing treatment and its low productivity.

The closest analogue to the claimed object is a plant for pre-sowing seed treatment, comprising a mixing chamber equipped with a hydrodynamic emitter operating in the developed cavitation mode, a loading tank and an unloading tank with a suction pipe and a discharge pipe, in which the mixing chamber is made in the form of a pipe with a loading and reaction zones, wherein the hydrodynamic emitter is located at the end of the loading zone of the chamber along its longitudinal axis, the second end of the chamber is connected discharge tank, and the reaction zone is equipped with at least two additional hydrodynamic emitters, the axes of which are located in the same plane perpendicular to the axis of the mixing chamber, while one end of the discharge pipe is in communication with hydrodynamic emitters, and on the other, with the suction port of the discharge tank (RU, Patent No. 20133915, C1, IPC ³ A 01 C 1/00. Device for presowing seed treatment / M.K. Prokofiev, Yu.G. Pospelova, V. M. Pletnev (RU). - Application No. 5015921/15. Declared December 13, 1991. Publ. 06/15/1994. Bull. No. 11).

The disadvantages of this installation include its excessively high cost and low seed treatment efficiency.

The essence of the claimed invention.

The problem to which the claimed invention is directed is to protect the sown seeds from pathogens and adverse weather conditions by saturating the seed coat and the germ with micro and macro elements from a brine of the natural mineral bischofite of the formula MgCl ₂ heated to a temperature of +80 ... + 120 ° С · 6Н ₂ О sulfate type with its density not lower than 1.2 t / m ³ .

The technical result - the emergence of stable and friendly seedlings, resistance to low temperatures and pathogens due to the film of paraffin-containing components of the bischofite mineral and increasing the yield of a wide range of crops in the highly continental climate of the south of the Russian Federation.

The specified technical result is achieved by the fact that in the known device for pre-sowing seed treatment containing a mixing chamber, a loading container, an unloading container, a suction pipe and a discharge pipe, according to the invention it is equipped with a two-chamber container for a liquid agent, tubular electric heaters are mounted in one of the chambers, and it is hydraulically connected to the discharge pipe, the other of the chambers is pneumatically coupled with a source of compressed air and hydraulically with a suction a nozzle of the mixing chamber and communicated with the first of the chambers, in the said mixing chamber the unloading auger drives are coaxially mounted in the rotary trough and the rotor with curved blades placed with equal angular pitch on its hub.

Due to the fact that a liquid agent is heated to a temperature of +80 ... + 120 ° С, the brine of a natural mineral bischofite with a density of 1.2-1.4 t / m ³ is fed into the mixing chamber, and the seeds are intensively mixed in this brine for 1-1.5 minutes, the above effect and technical result are achieved.

The invention is illustrated by drawings.

Figure 1 schematically shows a device for presowing treatment of seeds.

Figure 2 is a section aa in figure 1, the position of the discharge screw and trough when mixing the seeds with rotor blades in a bischofite brine.

Figure 3 - the same, the position of the trough in the cavity of the mixing chamber at the time of discharge of the seeds after processing in a liquid agent.

Information confirming the possibility of implementing the claimed technical solution is as follows.

A device for pre-sowing seed treatment contains a mixing chamber 1, a loading tank 2, an unloading tank 3, a suction pipe 4 with valve 5 and a discharge pipe 6 with valve 7.

The device is equipped with a two-chamber tank for a liquid agent. As the latter, a bischofite natural mineral brine of the formula MgCl ₂ · 6H ₂ O with a density of 1.2-1.4 t / m ³ can be used.

In one of the chambers 8 of the tank mounted tubular electric heaters (TEN) 9 with a power of 1.6 kW each, connected to an AC voltage of 220 V. The chamber 8 is hydraulically connected by the discharge pipe 6 to the mixing chamber 1. The other chamber 10 is pneumatically coupled to a compressed source air 11 and hydraulically with the suction pipe 4 of the mixing chamber 1. Chambers 8 and 10 of the tank are interconnected by a pipe 12 through valves 13 and 14.

In the said mixing chamber 1, the unloading screw augers 15 are coaxially mounted in the rotary chute 16 and the rotor 17 with curved blades 18. The blades 18 with equal angular pitch are placed on the hub 19 of the rotor 17.

The position of the chute 16 is controlled by a lever 20, fixed on the frame of the mixing chamber 1. As the drive of the discharge screw 15, an electric motor 21 and pulleys 22 and 23 of the V-belt drive 24 are used. The rotor 17 is driven from the electric motor 25 through the pulleys 26 and 27 of the V-belt transmission 28. The mixing chamber 1 by screw conveyors 29 and 30 is kinematically connected with loading capacity 2 and unloading capacity 3.

A device for presowing seed treatment works as follows.

Seeds to be processed before sowing a liquid agent in the loading tank 2 is delivered by truck. They are moved to the mixing chamber 1 by auger transport 29 with the electric motor 25 turned on. The position of the groove 16 in the mixing chamber 1 should correspond to the image shown in Fig. 2. The blades 18 of the rotating rotor 17 seeds are evenly distributed in the entire volume of the mixing chamber 1.

Accordingly, the brine of the natural bischofite mineral with a density of 1.2-1.4 t / m ^{3 is} poured into the chamber 10. With the closed valves 5, 14 and the open valve of the compressed air source 11 in the chamber 8 create excessive pressure. With the open valves 13 and 14 through the pipeline 12, the liquid agent is transported into the chamber 8. By heaters 9, the temperature of the bischofite brine is raised to +80 ... + 120 ° С. Further, with the valve 7 open, the bischofite brine moves into the container of the mixing chamber 1. With the rotating rotor 17, its curved blades 18 (see Figs. 1 and 2), the seed portions rise above the brine level and are again discharged into it.

Multiple dipping of seeds in a heated bischofite brine and intensive mixing leads to the fact that the surface and germ of each seed is covered with a paraffin film and saturated with salts and trace elements from bischofite brine. After 1-1.5 minutes from the mixing chamber 1, the bischofite brine with the valve 7 open is discharged through the suction pipe 4 into the chamber 10.

Next, the operator, using the lever 20, launders the chute 16 to the position shown in Fig. 3 and turns on the electric motor 22. The seeds are selected from the mixing chamber 1 by the rotating rotor 17 and its curved blades 18. The processed seeds are turned outside the mixing chamber by turns of the screw 15 through the chute 16 chambers 1. Next, with the screw conveyor 20, the seeds are transferred to the unloading tank 3. In the unloading tank 3, the remainder of the brine flows to the accumulation tank, and the seeds are loaded into the loader of seeders and transported to the field.

Claims (1)

A device for presowing treatment of seeds containing a mixing chamber, a loading tank, an unloading tank, a suction pipe and a discharge pipe, characterized in that it is equipped with a two-chamber container for a liquid agent, tubular electric heaters are mounted in one of the chambers, and it is hydraulically connected to the discharge pipe , the other chamber is pneumatically coupled with a source of compressed air and hydraulically with the suction pipe of the mixing chamber and communicated with the first of the chambers, m in the said mixing chamber coaxially mounted drive unloading auger in the rotary trough and a rotor with curved blades placed with equal angular pitch on its hub.

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