RU2301514C1 - Apparatus for pre-sowing treatment of seeds - Google Patents

Abstract

FIELD: agricultural engineering, in particular, equipment for treating of various farm crop seeds.

SUBSTANCE: apparatus has waste hopper, horizontal chamber made in the form of hollow cylinder and equipped with transportation mechanism mounted within its cavity, said chamber being connected to gas source and furnished with charging and discharge holes, and reservoir adapted for storage of liquid agent and communicating with said chamber, said reservoir having tubular electric heaters located above its bottom part. Drive for said chamber is made in the form of pair of rings located on cylinder outer peripheral surface and two pairs of supporting rollers arranged in pairs in mutually spaced apart relation along chamber, one of said pairs being kinematically connected with electromechanical drive. Transportation mechanism located within said chamber has blades positioned at an angle to generatrix of inner peripheral surface of hollow cylinder. Reservoir for liquid agent is communicating with said chamber through quick-detachable coupling and is hydraulically communicated through valves and pipelines with gear pump and waste hopper. Gas source is formed as low-pressure receiver and vacuum pump communicating with the latter through valve and pipeline. Receiver is communicating with chamber cavity through valve, flexible hose and quick-detachable coupling.

EFFECT: provision for keeping sowing qualities of seeds during sowing under adverse weather conditions.

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Description

The invention relates to agriculture, in particular to technical means for treating seeds of a wide range of agricultural plants by saturating the seed coat and the germ with micro and macro elements from the brine of the natural mineral bischofite.

A known plant for presowing treatment of seeds, 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 loading and reaction zones, the hydrodynamic emitter located at the end of the loading chamber along its longitudinal axis, the second end of the chamber is connected to the discharge tank, and the reaction zone is provided with ayney least two additional hydrodynamic emitters, whose axes are located in one plane perpendicular to the longitudinal axis of the mixing chamber, the end of the discharge line communicates with hydrodynamic emitters, and another - with a suction nozzle unloading containers (RU, patent №2013915 C1, IPC ⁵ A01S 1 / 00. A device for pre-sowing seed treatment / M.K. Prokofiev, Yu.G. Pospelova, V. M. Pletnev (RU) - Application No. 5015921/15; claimed 13.12.1991; publ. 06/15/1994, bull. No. 11).

The disadvantages of this installation, despite the continuous execution of the process, are its high cost and low operational reliability of hydrodynamic emitters.

Also known is a device for plasma treatment of plant seeds, comprising a chamber connected to an inorganic gas source, an electric generator, electrodes and a vacuum system in which one of the electrodes is made in the form of a hollow metal element with the possibility of circulation of a cooling agent in it, as the other electrode used metal chamber housing which houses the conveying mechanism, and has a feed chamber and a discharge hopper (RU, patent №2076555 C1, IPC ⁶ A01S 1/00, 3/00 N05F, N01J 37/37, 1/00 N01N. Device ystvo plasma processing plant seeds / A.K.Fillipov, N.P.Bityutsky, M.A.Fedorov (RU) - Application №95111569 / 13;. declared 05.07.1995, published 10.04.1997)..

The disadvantages of this device include the complexity of the design, high cost of equipment, low operational reliability and low quality of seed treatment.

The closest analogue to the claimed object relates to a device for presowing treatment of seeds containing loading and discharge bins, a chamber connected to a gas source, and a transporting mechanism made in the form of a drive rotor, on the surface of which there are blades mounted at an angle forming the surface of the rotor, the chamber the shape of a hollow cylinder placed horizontally and equipped with loading and unloading hatches is shaped, while the chamber is hydraulically connected to a container for a liquid agent, once ELENITE to partition the compartments, above the bottom of the container has electric tubular heaters compartments mutually hydraulically connected through the valve, one of the compartments by a prismatic sleeve and the valve associated with the chamber and a compressed air receiver (RU, patent №2224400 C1, IPC ⁷ A01S 1/00 A device for pre-sowing seed treatment / V. M. Ivanov, A. M. Saldaev, N. I. Telitchenko, A. A. Afanasyev (RU) - Application No. 2002123625/12; claimed 04.09.2002; publ. 02/27/2004, bull. No. 6).

The disadvantages of the described device include the insufficiently high quality of suppressing pathogens and agricultural products. pests on the surface of the seeds. At overpressure, micropores are covered with brine of the natural mineral bischofite. At the same time, pathogens and agricultural pests remain in them. Under adverse weather conditions, agricultural pests damage the seed germ and inhibit the growth of winter grain crops in growth.

The essence of the claimed invention is as follows.

The problem to which the invention is directed is the destruction of pathogenic microflora on the surface of the seeds and in the germ and saturation of the shells of sown seeds with macro- and microelements from a liquid agent, which is used as a brine of a natural mineral bischofite with a density of 1.2-1.4 t / m ³ .

EFFECT: preservation of sowing qualities of seeds when sowing in the soil under adverse weather conditions, the appearance of friendly and leveled yields, increased yield and productivity of above-ground shoots of cultivated agricultural crops. cultures.

The effect and technical result is achieved by the fact that in the known device for pre-sowing seed treatment, including a discharge hopper, a horizontally arranged chamber having the form of a hollow cylinder with a transport mechanism mounted in its cavity, connected to a gas source and equipped with loading and unloading hatches in communication with the chamber a container for a liquid agent having tubular electric heaters mounted above its bottom and a transporting mechanism, according to the invention, flax in the form of a pair of rings mounted on the outer surface of the cylinder, and two pairs of support rollers, pairwise mounted and mutually spaced along the length of the chamber, one of which is kinematically connected with an electromechanical drive, while the transport mechanism located in the chamber is made in the form of blades mounted under angle to the generatrix of the inner surface of the hollow cylinder, the container for the liquid agent is in communication with the camera through a quick coupler and hydraulically through valves and pipelines with gear a pump providing recirculation of the supplied liquid agent and a discharge hopper, and the gas source is made in the form of a low-pressure receiver and communicated with it through a valve and a vacuum pump pipe, and the receiver is in communication with the chamber cavity through a valve, a flexible sleeve and a quick coupler.

Due to the fact that the seeds are alternately exposed to medium vacuum, removing parasites and agricultural crops. pests from the embryo and micropores, and heated with MgCl 6H ₂ O liquid agent - brine of the natural mineral bischofite of the formula MgCl ₂ × H ₂ O with a density of 1.2-1.4 t / m ³ , the above technical result is achieved.

The proposed technical device provides high-quality saturation of the surface of the treated seeds with macro- and microelements from brine of bischofite mineral. Paraffin-containing materials from bischofite mineral brine at high temperature cover the embryo and the shell of each seed. This achieves the destruction of pathogens and the protection of plant sprouts from agricultural production. pests and microorganisms during the "sowing-seedlings."

The invention is illustrated by drawings.

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

In figure 2 - aa in figure 1, the transverse vertical discharge of the camera mounted by means of rings on the support rollers.

Information confirming the possibility of implementing the claimed invention are as follows.

A device for pre-sowing seed treatment contains a chamber 1, a container 2 for a liquid agent, a discharge hopper 3 and a transporting mechanism 4.

The camera 1 is equipped with a loading hatch 5 and an unloading hatch 6.

Chamber 1 is connected to a gas source 7. In the cavity of the chamber 1 is mounted a transport mechanism 8. The chamber 1 is given the shape of a hollow cylinder. The drive of the chamber 1 is made in the form of a pair of rings 9 mounted on the outer surface of the cylinder, and pairwise mounted and mutually spaced along the length of the chamber 1 of two pairs of support rollers 10 (see figures 1 and 2). One of the support rollers 10 is kinematically connected with an electromechanical drive 11. The drive motor 11 with an electric power supply voltage of 380 V and an industrial frequency of 50 Hz is connected via a frequency converter with a range of continuously variable frequencies from 0 to 100 Hz. He regulates the angular velocity of rotation of the chamber 1 on a pair of mounted supporting rollers 10.

The transporting mechanism 8 of the chamber 1 is made in the form of blades. The blades of the mechanism 8 are installed at an angle to the generatrix of the inner surface of the hollow cylinder. This allows the rotation of the chamber 1 to unload the seed from the cavity of the chamber 1. The direction of rotation of the chamber 1 during unloading is shown by the arrow in figure 2.

The tank 2 for the liquid agent is equipped with tubular electric heaters 12. The heaters 12 are located above the bottom of the tank 2. The tank 2 is hydraulically connected to the chamber 1. The hydraulic network of the tank 2 includes a gear pump 13 with a drive, valves 14, 15, 16, 17, monomer 18 and a quick coupler 19 for communication with the chamber 1. The pump 18 and valves 14-17 on the pipelines 20, 21, 22 and 23 provide the supply of a liquid agent into the cavity of the chamber 1 from the tank 2, from the discharge hopper 3 into the tank 2 and recirculation of the liquid agent in tanks 2 for balancing state of liquid agent and heat and mass transfer. As a liquid agent, a bischofite natural mineral brine with a density of 1.2-1.4 t / m ^{3 is used} . The temperature of the bischofite brine is raised to 80 ° C.

The gas source 7 is made in the form of a low pressure receiver and a vacuum pump 24. The receiver 7 is equipped with a pressure gauge 25 and valves 26, 27 and 28. The valve 28 of the receiver 7 is used to discharge condensate. The valve 26 on the pipe 29 pneumatically connects the receiver 7 to the vacuum pump 24. The vacuum pump in the receiver 7 creates an average vacuum - a vacuum pressure of 10 ^-2 ... 10 ^-1 Pa. By means of a quick coupler 30 and a flexible sleeve 31, the valve 27 of the receiver 7 is connected to the cavity of the chamber 1.

The transporting mechanism 4 of the discharge hopper 3 is made in the form of a screw conveyor 32 (figure 1).

The described device for pre-sowing seed treatment is represented by five autonomous units having their own individual electric drive: a unit for preparing a liquid agent; block for creating a medium vacuum; seed treatment unit; a unit for loading seeds into the loading hatch 5 of chamber 1 and a unit for loading seeds into a motor vehicle for subsequent refueling of seed boxes of grain seeders. The unit for loading seeds into the hatch 5 of the chamber 1 is represented by either a screw conveyor or a belt conveyor.

A device for presowing seed treatment works as follows.

As a liquid agent for pre-sowing seed treatment, a brine of the natural mineral bischofite of the formula MgCl ₂ × 6H ₂ O with a density of 1.2-1.4 t / m ^{3 was used} . The characteristics of the bischofite brine are shown in tables 1 and 2. On the day surface from the bowels of the mineral, bischofite is extracted by dissolution in water. The mineral is hygroscopic. The proven reserves of bischofite are billions of tons. The liquid agent — the bischofite mineral brine — is poured through the neck into a container 2. Electrical tubular heaters 12 (TEN) with a power of 1.6 kW each are connected to a 220 V network. The bischofite brine temperature was adjusted to 80 ° ± 5 ° C. The temperature is controlled by a thermometer built into the wall of the vessel 2. For uniform heating of the liquid agent, the gear pump 13 is activated. For the recirculation of the liquid agent, the operator on pipelines 21 and 23 closes valves 15 and 17 and opens valve 14 on pipeline 20 and valve 16 on pipeline 22 Within 30 ... 45 minutes, the temperature of the brine in the entire volume reaches 75 ... 85 ° C.

At the same time, the cover of the loading hatch 5 is opened and seeds of the 1st class, for example, winter wheat of the Don-95 variety, are loaded into the cavity of the chamber 1 either with a belt or with a screw conveyor. Then close the lid of the loading hatch 5. The quick coupler 19 on the flexible pipe 23 should be disconnected from the wall of the chamber 1.

Next, the operator quick-detachable coupling 30 on the flexible sleeve 31 connects the chamber 1 to the receiver 7. Vacuum pump 24 in the receiver 7 creates a vacuum of medium vacuum pressure of 10 ^-2 ... 10 ^-1 Pa. The pressure in the receiver 7 is controlled by a manometer 25. Then the operator opens the valve 27. When the vacuum is equalized in the chamber 1 and the receiver 7, the operator closes the valve 27 and disconnects the quick-release coupling 30. In chamber 1, the medium is exposed to the placed seeds for 15 ... 30 minutes. For intensive separation of pathogens and agricultural pests from micropores of seeds and their seeds chamber 1 is brought into rotational motion around its horizontal axis of symmetry.

When the electromechanical drive 11 is included in the electric power supply network, its support roller 10 begins to rotate around its axis, mounted in tandem with another support 10. The rolling of the support roller 10 around its axis leads to the angular displacement of the pair of rings 9 on the surface of the cylinder of the chamber 1. A stable position and the rolling of the chamber 1 is provided by pairs of support rollers 10. The rotation of the chamber 1 by means of rings 9 on the support rollers 10 leads to the fact that, with the blades of the transporting mechanism 8, the seed portions are separated from the total mass and raised above onnoy part of chamber 1. Seeds in the upper portion inside the chamber 1 again are poured down due to gravitational forces. Since the angular velocity of rotation of the chamber 1 is small, each blade of the mechanism 8 repeatedly raises a portion of the seeds to a certain height. When falling down, the surface of each seed is exposed to medium vacuum. Pathogens and microorganisms are extracted from micropores. Next, the operator connects the quick disconnect coupling 19 on the flexible pipe to the chamber 1. The valve 16 on the pipe 22 closes and opens the valve 17 on the pipe 23. Then, the pump 13 is turned on. The heated and uniformly moved bischofite brine from the tank 2 is pumped into the camera 1 by the pump 13. The capacity of the chamber 1 is filled at 2/3 ... 3/4 of the total volume. Next, the drive 11 is turned on. When the chamber 1 is rotated on the support rollers 10, the surface of the seeds is repeatedly washed by the hot brine of the natural mineral bischofite. Micropores on the surface of the seeds are filled with salts from the brine of the bischofite mineral. Paraffin-containing components fill micropores. Each seed is encrusted with them.

After processing the seeds, the brine from the chamber 1 through the discharge hatch 6 is sent to the discharge hopper 3. The valve 17 on the pipe 23 and the valve 14 on the pipe 20 are closed, and the valve 15 on the pipe 21 and the valve 16 on the pipe 22 are opened. The bischofite brine from the discharge hopper 3 is pumped by pump 13 into a container 2. Next, the lid is completely removed from the discharge hatch 6. Seeds are unloaded into the discharge hopper 3. Excess brine from the surface of the seeds flows to the bottom of the hopper 3. From the discharge hopper 3 by a screw conveyor 32 processed in the manner described above seeds are loaded into the vehicle body for refueling seed boxes of grain seeders.

Thus, the seeds are subjected to pre-sowing treatment with medium vacuum and are saturated with macro- and microelements from the brine of the natural mineral bischofite. As a liquid agent, any liquid as a growth preparation can be used.

Table 1
The content of macro- and microelements in the brine of the natural mineral bischofite (well No. 4, field - Gorodishchenskoye, Volgograd region) Names Chemical element The content of trace elements, g / kg Boron AT 0.0020-0.0080 Calcium Ca 0.0030-0.0050 Bismuth Wi 0.0005-0.0010 Molybdenum Mo 0.0005-0.0010 Iron Fe 0.0030-0.0300 Aluminum Al 0.0010-0.0200 Titanium Ti 0.0005-0.0010 Copper Cu 0.0001-0.0030 Silicon Si 0.0020-0.2000 Barium Ba 0.0001-0.0006 Strontium Sr 0.0010-0.0200 Rhenium Re 0.0001-0.0020 Cesium Cs 0.0001-0.0010 Lithium Li 0.0001-0.0003

table 2
Physico-chemical characteristics of flaky technical magnesium chloride (bischofite) The name of indicators Norms 1. Appearance Flakes from white to light gray with shades of yellow to light brown 2. The content of magnesium ions (Mg ⁺² ), in terms of MgCl ₂ * 6H ₂ O,%, no more 11.8
96.0 3. The content of calcium chloride in terms of CaO,%, no more 0.2 4. The content of sulfate ions (SO ₄ ^-2 ),%, no more 1,1 5. The content of alkali metal ions (Na ⁺ , + K ⁺ ),%, no more 1,0 6. Content of water insoluble residue,%, no more 0.2

Claims (1)

A device for pre-sowing seed treatment, including a discharge hopper, a horizontally arranged chamber having a cylindrical cylinder with a transport mechanism mounted in its cavity, connected to a gas source and equipped with loading and unloading hatches, a liquid agent tank connected to the chamber, having tubular electric heaters, mounted above its bottom, and a transporting mechanism, characterized in that the camera drive is made in the form of a pair of rings mounted on the outer surface of the qi a cylinder, and two pairs of support rollers, pairwise mounted and interdependent along the length of the chamber, one of which is kinematically connected with an electromechanical drive, while the transport mechanism located in the chamber is made in the form of blades mounted at an angle to the generatrix of the inner surface of the hollow cylinder, a container for liquid the agent is in communication with the camera through a quick coupler and hydraulically through valves and pipelines with a gear pump that recirculates the supplied liquid agent, and a discharge hopper, and the gas source is made in the form of a low pressure receiver and communicated with it through a valve and a vacuum pump pipe, and the receiver is in communication with the chamber cavity through a valve, a flexible sleeve and a quick coupler.

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