RU2291607C1 - Apparatus for pre-sowing treatment of seeds - Google Patents

Abstract

FIELD: agricultural engineering, in particular, technique for treatment of seeds of various farm crops.

SUBSTANCE: apparatus has charging hopper, discharge hopper, compressed air receiver, reservoir for liquid agent, and chamber made in the form of hollow cylinder. Reservoir for liquid agent is divided into sections by means of partition. Chamber is positioned in horizontal plane and is equipped with transportation mechanism, charging and discharge hatches. Transportation mechanism of said chamber has rotation drive. Chamber is furnished with individual rotation drive made in the form of chain transmission. Closed annular tire with chain transmission rollers is positioned so as to embrace power carcass of hollow cylinder. Drive sprocket of chain transmission is mounted on output end of motor-reducer shaft. Transportation mechanism is made in the form of axially aligned screws different in size. Screw of smaller diameter is adapted for rotation around axis of rotation of screw within trough mounted on screw shaft by means of roller supports. Coils of screw of larger diameter are located on trough outer surface. Shaft of screw having smaller diameter is kinematically connected with motor-reducer. Motor-reducers of drives for said chamber and screw of smaller diameter are electrically connected to commercial frequency voltage mains through frequency converters.

EFFECT: increased yield of cereal crop grain due to improved sowing qualities of seeds.

12 cl, 3 dwg

Description

The invention relates to the field of agricultural engineering and can be applied in particular in technical means for pre-sowing seed treatment of cereal, leguminous, leguminous, oilseed, melon, medicinal, technical and forage crops.

A known method for presowing treatment of sugar beet seeds and a device for implementing the method for treating seeds against beetroot weevil with hexachlorane aerosols in a solvent, in which, in order to reduce the cost of treatment, a mixture of propane-butane with a solution of hexachloran in diesel fuel is used as an aerosol; beet seeds are exposed to hexachlorane aerosols in suspension.

A device for implementing the method is made in the form of a cylindrical chamber designed to introduce proportions or continuously of seeds treated with an insecticide, in which, with the aim of providing the seeds with a suspended state, it is made with rotary blades and nozzles for introducing hexachloran aerosols into the chamber; in order to treat seeds with hexachloran aerosols in the form of smoke with a temperature of 220-230 °, a cylinder retort was used entwined with an electric resistance spiral (SU, copyright certificate No. 107295, M.cl. A 01 C 1/00. Presowing seed beet seed treatment method and device for the implementation of the method / A.A. Svishchuk and E. N. Kititsin (USSR) - Application No. 558251; Declared September 27, 1956).

The disadvantages of the described device include low performance.

A plant for presowing seed treatment is also known, including a closed container communicating with a vacuum source, in which, in order to improve the quality of seed treatment and reduce the treatment cycle, a device for changing the seed treatment mode is installed between the tank and the vacuum source, made in the form of a housing associated with the source vacuum, a compressor and a container, and a lid communicating through the valve box with the atmosphere, a rotor is located inside the housing with channels alternately communicating with the source vacuum atmosphere and the compressor; in order to regulate the treatment of seeds, the vacuum source, compressor and valve box are equipped with control valves, and the rotor speed is controlled by a variator (SU, copyright certificate No. 371881, M.cl. A 01 C 1/08. Plant for presowing seed treatment / П .M. Triburt, V.A. Vyalykh (USSR) .- Application No. 1635627 / 30-15; Stated March 22, 1971; Publish. March 1, 1973, Bull. No. 13).

The described installation has low productivity and is excessively complicated.

In addition to the described methods, there is also known a method for pre-sowing moistening of pubescent cotton seeds, including steam exposure to seeds, in which, in order to improve the quality and uniformity of moistening of pubic cotton seeds throughout the mass, the seeds are exposed to saturated saturated water vapor under a pressure of 1.2-2.0 kg / cm ² for 60 s and additionally moisten them with water heated to 40 ° C.

Installation for pre-sowing moistening of pubescent cotton seeds, including sequentially installed seed hopper with dispenser-feeder, belt conveyor, equipped with a casing, a mixing drum reorganized at the end, a hollow auger shaft with perforated holes in the middle, sprayers and a tray, which in order to increase the humidity of the seeds, it is equipped with a seed tank located between the hopper and the conveyor belt, connected to the latter by means of pipelines steam generator and a water tank and connected to it by means of a centrifugal pump, a receiving chamber with elements located inside it for loosening, moistening and moving the seeds into the mixing drum, made respectively in the form of ring and paddle drums and centrifugal sprayers of moisture, while the receiving chamber is located under the outlet of the conveyor belt in front of the drum, and the drum tray is connected by a pipeline to a water tank (SU, copyright certificate No. 1553024 A1, MP ⁵ A 01 C 1/00. The method of presowing moistening of pubescent cotton seeds and installation for its implementation / N. Arifov, S.B. Erofeev, G.S. Kuzibaev and others (USSR). - Application No. 4277894 / 30-15; Stated April 30, 1987; Publ. 03/30/1990, Bull. No. 2).

The disadvantages of the described installation include low seed exposure, design complexity and low productivity.

A known installation for liquid processing of root crops containing a frame, a container for a liquid preparation, a pump and a chamber for consumption placed on an additional frame, in which, in order to increase productivity by reducing the time for cleaning the installation of dirt residues, the bottom of the chamber is rotatable and fixed relative to the housing the chamber, and the sump for collecting mud residues is installed with the possibility of rotation and fixing relative to the bottom; the bottom is equipped with a threshold for collecting mud residues, which is installed in front of the pallet (SU, copyright certificate No. 1692324 A2, IPC ⁵ A 01 C 1/08. Installation for liquid processing of root crops / S.I. Nazarov, V.I. Klimenko, V. I. Petrovets and V.I. Koval (USSR) .- Application No. 4471280/15; Stated 08/11/1988; Publish. 11/23/1991, Bull. No. 43).

The disadvantages of the described installation include high labor costs, the frequency of operation and the complexity of the design.

The closest analogue to the claimed object is a device for pre-sowing seed treatment containing loading and discharge bins, a chamber connected to a gas source, and a transport mechanism in which the transport mechanism mounted in the chamber is made in the form of a drive rotor, on the surface of which there are blades mounted at an angle to the generatrix of the rotor surface, the chamber is given the shape of a hollow cylinder placed horizontally, equipped with loading and unloading hatches, while the chambers and hydraulically connected to a container for a liquid agent, placed on the compartment by a partition, tubular electric heaters are placed over this part of the container, the compartments are mutually hydraulically connected through a valve, one of the compartments is pneumatically connected via a valve and a sleeve to a chamber and a receiver of compressed air (RU, patent No. 2224400 C1, IPC ⁷ A 01 C 7/00, Device for pre-sowing seed treatment / V. M. Ivanov, A. M. Saldaev, N. I. Telitchenko, A. A. Afanasyev (RU). - Application No. 2002123625/12; Announced September 4, 2002; Publ. 02/27/2004, Bull. No. 6 // Inventions. Useful models. - 2004. - No. 6).

The disadvantages of the described device include the low intensity of the brine, the complexity of the design and low productivity.

The essence of the claimed invention is as follows.

The application for the solution of which the claimed invention is directed is saturation of the shells of sown seeds of cereal crops with macro- and microelements from a liquid agent, for example, a brine of natural mineral bischofite with a density of 1.2 ... 1.4 t / m ^{3 was used} .

EFFECT: increased productivity, preservation of sowing qualities of seeds when sowing in adverse environmental conditions, the appearance of friendly and aligned seedlings, increased grain yield.

The specified technical result is achieved by the fact that in the known device for pre-sowing treatment of seeds containing loading and discharge bins, a compressed air receiver divided into compartments by a partition, a container for a liquid agent equipped with a conveying mechanism, a chamber in the form of a hollow cylinder placed horizontally and equipped with a loading and unloading hatches, and the drive of the transporting mechanism, according to the invention, the chamber in the form of a hollow cylinder is equipped with an individual rotation drive, made in in the form of a chain drive, its closed ring bus with rollers is placed on the power frame of the hollow cylinder, and the drive sprocket of the chain drive is mounted on the output end of the motor gearbox shaft, the transporting mechanism is made in the form of coaxially mounted different-sized screws, the screw of a smaller diameter can be rotated around the axis rotation of the screw in the groove, on the outer surface of which are placed the turns of a screw of a large diameter, and the shaft of the screw of a smaller diameter is kinematically connected to the gear motor, while the motor uktory individual drive chamber and the smaller diameter of the screw is electrically connected to the commercial power supply by means of frequency converters; the loading hopper is equipped with a slide gate; the dump hopper is equipped with a screw conveyor; the compartments of the container for the liquid agent are hydraulically connected to each other by a valve and pneumatically through valves with a receiver of compressed air; the loading door of the camera is made in the form of a truncated cone, the large base of which is associated with the power frame of the hollow cylinder; the unloading hatch of the chamber is made in the form of a hollow truncated cone mounted with a small base on the ring-diaphragm of the power frame of the hollow cylinder; the hollow cylinder of the camera is removable; the inner surface of each removable cylinder is equipped with cells made of long seed lengths for pre-sowing treatment; the diaphragm of the power cylinder in the hollow cylinder of the chamber is equipped with a drain plug; the diameters of the small base of the truncated cone of the loading hatch and the small base of the truncated cone and the inner diameter of the diaphragm ring are made equal; the diameters of the coils of a larger screw located on the surface of the trench are 12 ... 22 mm less than the inner diameter of the hollow chamber cylinder; the gutter is equipped with a mechanism for fixing the working position on the frame.

The invention is illustrated by drawings.

Figure 1 schematically shows a device for presowing seed treatment, longitudinally vertical section.

In Fig.2 is a section aa in Fig.1, a transverse vertical section of the camera, coaxially mounted on the drive shaft of augers of small and larger diameters and troughs when performing the technical process.

Figure 3 - the same, when cleaning the gutter and the cavity of the chamber from sown seeds and a liquid agent.

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

A device for pre-sowing seed treatment (see Figs. 1-3) contains a loading hopper 1, a discharge hopper 2, a receiver 3 of compressed air, a container for a liquid agent divided into compartments 4 and 5 by a partition, a chamber 6, a loading hatch 7 and an unloading hatch 8 The chamber 6 is equipped with a transporting mechanism 9. The chamber 6 is made in the form of a hollow cylinder and is placed horizontally. The transporting mechanism 9 has a drive 10.

The loading hopper 1 is equipped with a slide gate 11. The loading hopper 1 with the loading hatch 7 of the chamber 6 is connected by a tray 12. The discharge hopper 2 is equipped with a rotary screw conveyor 13. The compartments 4 and 5 of the container for the liquid agent are hydraulically interconnected by a pipe 14 and a valve 15. The compartment 5 with the hopper 2 is connected by a pipe 16 and the valve 17. The compartment 4 through the valve 18 by the pipe 19 is connected to the loading hatch 7 of the chamber 6. The compartments 4 and 5 are pneumatically connected through the valves 20 and 21 to the receiver 3. The receiver 3 is equipped with a pressure gauge 22. Compartment 4 t hermetically closable door 23 for filling liquid agent. As the latter, for example, the brine of the natural mineral bischofite with a density of 1.2 ... 1.4 t / m ^{3 is used} .

The chamber 6 in the form of a hollow cylinder is equipped with an individual rotation drive 24. It is made in the form of a chain drive and a gear motor 25. A closed ring bus 26 with rollers 27 on the axes is placed on the power frame 28 of the hollow cylinder of the chamber 6. The drive sprocket 29 is mated to the rollers with 29 teeth 27 tires 26 and is mounted on the output end of the shaft of the gear motor 25.

The transporting mechanism 9 is made in the form of coaxially mounted different-sized screws 30 and 31. The screw 30 of a smaller diameter is mounted to rotate around the axis of rotation of the screw 30 in the groove 32. On the outer surface of the groove 32 are placed turns of the screw 31 of a larger diameter. The shaft 33 of the auger 30 of a smaller diameter is kinematically connected with the gear motor of the drive 10. The electric motors of the gear motor of the drive 10 and the gear motor 25 of the drive 24 are electrically connected to the industrial power supply via frequency conversions. The last to change the frequency of the power supply from 1 to 100 Hz. This achieves stepless adjustment of the speed of the shaft 33 of the screw 30 and the chamber 6 in a wide range.

The loading hatch 7 of the chamber 6 is made in the form of a truncated cone. The large base of the hatch 7 is associated with the power frame 28 of the hollow cylinder of the chamber 6. The discharge hatch 8 of the chamber 6 is made in the form of a hollow truncated cone. The hatch 8 is mounted on welded seams with a small base on the diaphragm ring 34 of the second power frame 35 of the hollow cylinder of the chamber 6. The hollow cylinder of the chamber 6 is removable and connected to the power frames 28 and 35 by means of fasteners 36. The inner surface of each removable cylinder is provided with cells. The cells in the form of elongated recesses are made with sizes larger than the length of the seeds subjected to pre-sowing treatment.

The ring-diaphragm 34 of the power frame 35 in the hollow cylinder of the chamber 6 is equipped with a drain plug 37 to remove residual liquid agent. The diameters of the small base of the enlarged cone of the loading hatch 7 and the small base of the truncated cone and the inner diameter of the diaphragm ring 34 are made the same. The diameter of the turns of the screw 31 of larger diameter, placed on the surface of the trough 32, is 12 ... 22 mm smaller than the inner diameter of the hollow cylinder of the chamber 6. The chute 32 is equipped with a mechanism 38 for fixing the working position on the frame 39. The mechanism 38 has a rack 40, a latch 41 and a pivot arm with a handle.

The screw shaft 33 on the frame 39 is mounted by sliding bearings. The groove 32 is mounted on the shaft 33 of the small screw 30 by means of bearings 42 and 43. The chamber 6 on one side rests on the shaft 33 using the spokes 44 of the bearing 45, and on the other hand, through the diaphragm ring and the bearing 46, on the bearing 43 of the groove 32.

With the exception of the dump hopper 2 and its screw conveyor 13 described above, the nodes are mounted on the frame 39 and are a monoblock with a control panel.

A device for presowing seed treatment works as follows. In the receiver 3 create excess air pressure up to 0.02 MPa. This pressure is monitored by the pressure gauge 22. The volume of the receiver 3 does not exceed 55 liters. Compartment 4 is filled with a liquid agent, for example, bischofite mineral brine. The volume of the compartment is 4-200 liters. Next, the compartment 4 is closed with a hatch 23 and check its tightness. In the initial position, the valves 18, 15, 16 of the hydraulic system and the valves 20 and 21 of the pneumatic system are closed. In the hopper 1, seeds, for example, spring wheat, are poured. With a large batch of pre-sowing seed treatment, the loading of seeds into the hopper 1 is carried out either by belt, or screw, or scraper conveyors with an individual electric drive.

Then turn on the drive 10 and check the absence of extraneous sounds and noises. Next, the drive of the gearmotor 25 is turned on. When the output shaft is rotated, the gearmotor 25, the drive sprocket 29, through the rollers 27 of the chain drive, rotate the hollow cylinder of the chamber 6. The direction of rotation of the chamber 6 on the shaft 33 should correspond to the arrow shown on the discharge hatch 8. This direction corresponds to the complete capture of wheat seeds (or another culture) by cells on the inner surface of the hollow interchangeable cylinder. Then, the slide gate 11 is opened in the bottom of the loading hopper 1. Seeds under their own weight on the tray 12 are sent to the loading hatch 7. From the loading hatch 7, the seeds slide onto the inner surface of the hollow cylinder. When touching the seeds of the turns of the screw 31 due to the rotation of the chamber 6, the seeds are evenly distributed along the length of the hollow cylinder. When setting to the operating mode of the camera 6, the tray 32 is in the position shown in figure 3. Then increase the speed of rotation of the chamber 6. Due to the forces acting individually on each seed, the seed layer begins to slide intensively along the inner surface of the hollow cylinder and re-descend. When filling 40 ... 60% of the cells of the chamber 6, the increase in the rotational speed of the shaft of the gear motor 25 is stopped. Then open the valve 20 and in the compartment 4 create excessive air pressure. Then valve 19 is opened. From compartment 4, the bischofite mineral brine flows through the pipe 19 into the chamber 6. Due to the rotation of the chamber 6, each seed together with the germ is repeatedly washed by the bischofite mineral brine.

When the latch 41 is released, the lever with the handle is rotated, and with it the chute 32 (see Fig. 2). The edge of the gutter 32 is installed with an angle of inclination, which ensures the precipitation of seeds from the cells of the hollow cylinder. The seeds treated with growth preparations from the surface of the trough 32 by the screw 30 are discharged into the unloading hatch 8. From the hatch 8, the seeds enter the discharge hopper 2. As the hopper 2 is filled, the seeds are loaded by the screw conveyor 13 into the grain tanker of the grain seeders.

Unused and excess brine from the seeds accumulates in the bottom of the discharge hopper 2. When the valve 17 is open, it flows by gravity into the compartment 5. Through the valve 16, the brine is distilled into the compartment 4 with the valve 17 closed and the valve 15 open.

The described device has a simplicity of design and provides high productivity in the pre-sowing treatment of seeds and other crops.

Claims (12)

1. A device for pre-sowing treatment of seeds, containing loading and discharge bins, a compressed air receiver, a container for a liquid agent divided into compartments by a partition, a chamber in the form of a hollow cylinder equipped with a transporting mechanism, placed horizontally and equipped with loading and unloading hatches, and a drive of the transporting mechanism, characterized in that the chamber in the form of a hollow cylinder is equipped with an individual rotation drive made in the form of a chain drive, whose closed ring bus with rollers is located on the power frame of the hollow cylinder, and the chain drive sprocket is mounted on the output end of the motor gearbox shaft, in addition, the conveying mechanism is made in the form of coaxially mounted different-sized augers, the auger of a smaller diameter mounted to rotate the axis of rotation of the auger in the gutter, on the external the surface of which there are coils of a screw of a larger diameter, and the shaft of a screw of a smaller diameter is kinematically connected with the gear motor, while the gear motors of the individual drives of the chamber and the screw are smaller of a larger diameter are electrically connected to an industrial power network by means of frequency converters. 2. The device according to claim 1, characterized in that the feed hopper is equipped with a slide gate. 3. The device according to claim 1, characterized in that the discharge hopper is equipped with a screw conveyor. 4. The device according to claim 1, characterized in that the compartments of the container for the liquid agent are hydraulically interconnected by a pipeline and a valve and pneumatically, through valves with a receiver of compressed air. 5. The device according to claim 1, characterized in that the loading door of the camera is made in the form of a truncated cone, the large base of which is associated with the power frame of the hollow cylinder. 6. The device according to claim 1, characterized in that the discharge door of the camera is made in the form of a hollow truncated cone mounted with a small base on the diaphragm ring of the power frame of the hollow cylinder. 7. The device according to claim 1, characterized in that the hollow cylinder of the camera is removable. 8. The device according to claim 7, characterized in that the inner surface of each cylinder is equipped with cells made more than the length of the seeds for pre-sowing treatment. 9. The device according to claim 6, characterized in that the ring-diaphragm of the power frame in the hollow cylinder of the chamber is equipped with a drain plug. 10. The device according to claim 5 or 6, characterized in that the diameters of the small base of the truncated cone of the loading hatch and the small base of the truncated cone and the inner diameter of the diaphragm ring are made equal. 11. The device according to claim 1, characterized in that the diameter of the turns of a large-diameter screw located on the surface of the trench is 12-22 mm less than the inner diameter of the hollow chamber cylinder. 12. The device according to claim 1, characterized in that the trough is equipped with a mechanism for fixing the working position on the frame.

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