RU2811945C1 - Seeding device for sowing grain and leguminous crops - Google Patents

Abstract

FIELD: agricultural machinery.

SUBSTANCE: sowing device contains a seed box with a socket, a sectional coil with grooves mounted on a shaft, a seed guide into the lower part of the seed box, a coupling with a rib and a valve. The working part of the sectional coil with grooves, taking into account the dimensional parameters of the seeds of grain and leguminous crops, is divided into two equal sections by a secant plane perpendicular to the longitudinal axis of symmetry of the sectional coil with grooves. Between two equal sections and at the ends of the sectional coil, separating disks are installed, which are made together with two equal sections as a single unit from a high-strength polymer material. One equal section of a sectional coil is rotated relative to another equal section around the longitudinal axis of symmetry of the sectional coil by an angleα, equal to 15°, and the ribs of two equal sections of the sectional coil are located on its working part along a helical line. In addition, the side surfaces of the sectional coil rib have a flat surface, and the sectional coil rib with grooves has working and non-working flat surfaces, respectively located along the direction of rotation of the sectional coil. The working flat surface of the sectional coil rib with grooves, located along the direction of rotation of the sectional coil, coincides with the longitudinal plane of symmetry of the sectional coil, and the non-working flat surface of the sectional coil rib is deviated from the longitudinal plane of symmetry of the sectional coil by an angleβ, equal to 26°. In this case, the profile shape of the sectional coil groove is formed by a section of the working and non-working flat surfaces of two adjacent ribs of the sectional coil, as well as arcs l ₁ and l ₂ connecting the jumpers and the bases of two adjacent ribs of the sectional coil. Arcs l ₁ and l ₂ are formed by circles drawn from the center O of the sectional coil with radius r_sk of the sectional coil and radius r, respectively, along the jumpers and along the bases of two adjacent ribs of the sectional coil, and the socket of the sectional coil with grooves is made without slots for the ribs of the sectional coil and has a mounting hole made with a diameter equal to the diameter of the drive shaft of the sectional coil.

EFFECT: improving the quality of sowing by increasing the uniformity of seed distribution and reducing their injury.

1 cl, 3 dwg

Description

The invention relates to agricultural engineering, in particular to devices for sowing bulk materials, for example, grains and leguminous crops.

A known reel precision sowing machine [1] contains seed boxes with spring-loaded valves and sockets with slots, sowing devices installed in them on the drive shaft in the form of reels with ribs and couplings, and the ribs of each of the reels are made at an angle and have a brush frame, in this case, the ribs of adjacent coils are located at the same angle to the axis of rotation and are directed towards each other, and the end part of the valve is made of a rectangular shape, while the left and right grooves at the base along the entire length have evenly spaced hemispherical holes, and on the side where grain falls out of the grooves - hyperbolic grooves.

The disadvantages of a precision seeding bobbin seeding apparatus include that the manufacture of left and right grooves, which have evenly spaced hemispherical holes at the base along the entire length, and hyperbolic grooves on the side where grain falls out of the grooves, requires precise calibration of the grain, and taking into account different dimensional characteristics grain, the reel sowing unit will need to be replaced when switching to sowing another crop, in addition, the hemispherical holes will be filled unevenly, since the seeds from the seed box will completely cover the surface of the reel sowing unit, filling the entire space between the diagonal grooves, which will lead to uneven pulsating portion feeding seeds, also when the sectional reel rotates, the grooves will be incompletely emptied, which leads to disruption of the technological process of the sowing apparatus due to dragging the seeds back into the seed box, as well as the specified seeding rate and crushing of the seeds. The listed factors and the complexity in the manufacture of the design of this precision seeding bobbin seeder with low operational reliability (wear of the brush frame) will lead to a decrease in crop yields and an increase in the cost of the resulting products.

A bobbin seeding apparatus is known [2], containing a housing, a coil and a gate, while on the outer cylindrical surface of the coil there are 14 to 18 ribs, forming inclined helical grooves, placed at an acute angle of 12-17° to the center line of the coil with a volume that is a multiple of the size sown seeds with a cross-sectional area from 6 to 7.5 mm ² , and the diameter of the protrusions of the grooves is less than the outer diameter of the end flanges of the coil, the grooves of the coil are made along a radius equal to 0.5-0.7 of the diameter of the sowing seed, the body is made detachable, consisting of two parts, and the coil is installed with a minimum gap of 0.2-0.3 mm between its teeth and the surface of the split housing.

The disadvantages of the reel sowing apparatus include the placement of helical grooves at acute angles of 12-17° to the center line of the reel, which leads to the sliding of seeds along the oblique teeth of the grooves due to the difference in the friction properties of the grain of different crops, that is, for different crops it is necessary to have reels with different the angles of inclination of the helical grooves, while the seeds fall to the walls of the sowing apparatus housing, where they are injured in the gap between the ribs of the reel and the housing. In addition, it is impossible to change the seeding rate by changing the cross-section of the receiving window using a retractable gate, since this will only affect the loading of the seeding unit with grain and will not affect the adjustment of the seeding rate. Due to the sliding of seeds along the oblique teeth of the grooves towards the wall of the housing due to the difference in the frictional properties of seeds of different crops, they are injured and thrown into the funnel of the seed tube by an uneven pulsating flow, which will also affect the deterioration of the uniform distribution of seeds over the feeding area, especially seeds of small-seeded crops, and ultimately, the conditions for their growth will deteriorate; also, when the sectional reel rotates, the grooves will be incompletely emptied, which leads to disruption of the technological process of the sowing apparatus due to dragging the seeds back into the seed box, as well as the specified seeding rate and crushing of the seeds. All of these factors will lead to a decrease in the quality of sowing, crop yield and an increase in the cost of the resulting products.

A bobbin seeding apparatus is known [3], containing a housing, a bobbin, a coupling, a socket and a valve, wherein the bobbin is replaceable and on its cylindrical surface there are multi-start beveled screw blades of the auger, forming curved grooves with a volume that is a multiple of the size of the seeded material, while the surface of the curved bottom of the valve, facing the coil, is made along a curved tractrix and is located at an acute angle to the horizontal, and the end of the valve for discharging material from it is placed vertically at an amount of 0.40-0.50 Dk from the center of rotation of the coil, where Dk - the diameter of the coil, the coil and the coupling have the same outer diameter, and the coil has a cavity in which a spring is placed, pushing the coil and coupling apart in the axial direction to maintain a minimum gap between them, the socket is made in the form of a two-stage ring and has protrusions on the inner surface that repeat the contour of the grooves of the coil, the pitch of the helical line of the auger is at least 500 mm, the number of blade strokes is at least 10, and the grooves formed in this case have a cross-sectional area of at least 20 mm ² , the coil for sowing fertilizers has a number of blade strokes from 10-15, and The cross-sectional area of the grooves is 50-80 mm ² .

The disadvantages of the reel sowing apparatus include the placement on the cylindrical surface of the reel of multi-pass beveled screw blades of the auger, forming curved grooves, since curvilinear grooves are designed to hold seeds on their surface, with certain friction properties. Consequently, this reel sowing device can be used only on one specific crop, while sowing seeds with a reel occurs in pulsating portions, which leads to an uneven distribution of seeds over the sowing area and incomplete use of the genetic potential of each seed; for sowing other seeds, it is necessary to replace the sowing device. In addition, the seeds slide along the multi-pass beveled screw blades of the reel auger, as a rule, to the socket protrusions, and the seeds are injured despite the minimal gaps between the reel grooves and the socket protrusions; also, when the sectional reel rotates, the grooves will not be completely emptied, which leads to disruption of the technological process of the sowing apparatus due to dragging the seeds back into the seed box, as well as the specified seeding rate and crushing of the seeds. All of these factors will lead to a deterioration in the quality of sowing, increased consumption of seed, reduced crop yield and increased cost of the resulting product.

A reel-blade sowing apparatus is known [4], containing a housing with a reel installed in it with blades fixed on it, while the blades are fixed in the coil body at an angle to the axis of rotation of the coil, the distance between the ends of the blades and the inner radial surface of the sowing apparatus body is not more than half the minimum seed size, while a flexible limiter is installed in the upper part in the seed collection area with a gap between its lower part and the ends of the blades of no more than 0.1 of the minimum seed size.

The disadvantages of the reel-blade sowing apparatus include the variable accuracy of seed dosing during sowing due to the variability of the supplied volume of seeds located in the space between the edge of the blades and the inner surface of the drum, due to the installation of an elastic limiter, which, with chaotic vibrations, removes different portions of seeds from the space between the edge blades and the inner surface of the drum, which leads to uneven distribution of seeds over the sifting area. In addition, the installation of an elastic limiter installed perpendicular to the tangent to the circle described by the ends of the blades, with a gap between its lower edge and the ends of the blades of no more than 0.1 of the minimum seed size, does not eliminate the pinching of seeds between the blades and the inner radial surface of the sowing apparatus housing, since the elastic limiter works cyclically and when it deviates from a given position, the seeds fall between the blades and the inner radial surface of the sowing apparatus body and are injured, also when the sectional reel rotates, the grooves will be incompletely emptied, which leads to disruption of the technological process of the sowing apparatus due to dragging the seeds back into the seed box, as well as the specified seeding rate and crushing the seeds; in addition, when switching to sowing another crop, the sowing device must be replaced. All of these factors will lead to a deterioration in the quality of sowing, increased consumption of seed, reduced crop yield and increased cost of the resulting product.

A sowing apparatus is known [5], containing a seed box with a socket, a coil with grooves mounted on a shaft, a seed guide in the lower part of the seed box, a coupling with a rib and a valve, while the working part of the coil is divided into four equal sections by secant planes perpendicular to the longitudinal axis symmetry coils, which are interconnected motionlessly to form a sectional coil with grooves, with each subsequent of four equal sections of the coil rotated around the longitudinal axis of symmetry relative to the previous equal section of the coil at an equal angle, with the angle between the longitudinal planes of symmetry of the ribs of the four equal sections of the coil with grooves drawn relative to the longitudinal axis of the coil is 15°. The ribs of four equal sections of the coil are arranged in a checkerboard pattern on the working part along a helical line, while the length of the ribs of the sectional coil with grooves is equal to the thickness of the section of the sectional coil, and the shape of the ribs of the sectional coil is made in the form of the ribs of a grooved coil with straight ribs, while the ribs of the sectional coil with grooves have working and non-working surfaces located respectively along the direction of rotation of the sectional coil with grooves, while on the working surface of each edge of the sectional coil there are open trays with a cylindrical surface symmetrically located relative to it, and the axis of symmetry of the cylinder forming the cylindrical surface of the open trays is inclined at an angle of 25° to the longitudinal planes of symmetry of the ribs of the sectional coil, drawn relative to the longitudinal axis of symmetry of the sectional coil, while the cylindrical surface of the open trays touches the longitudinal axis of symmetry of the surface of the jumpers located between the grooves of the sectional coil, while the profile of the grooves of the sectional coil is made in the shape of the profile grooves of a grooved coil with straight ribs taking into account the profile shape of the open trays, while the socket of the sectional coil is made without slots for its ribs and has a mounting hole made with a diameter equal to the diameter of the drive shaft of the sectional coils. The invention will improve the uniformity of distribution of seeds of various crops over the sowing area and ensure the accuracy of the seed sowing rate, as well as reduce injury and seed consumption per unit of sowing area, while increasing the yield of agricultural crops and reducing the cost of production.

The disadvantages of this sowing apparatus include the unevenness of the overall seeding of seeds, over the sifting area, due to the arrangement of grooves on the surface of the sectional coil in a checkerboard pattern, therefore, in the spaces between the ribs of the sectional coil, the seeds fall from the edges of the sections of the coil and move to neighboring sections of the reel, which leads to non-compliance with the specified seed sowing rate, to uneven seeding of seeds over the sifting area, and crushing of seeds in the area of the socket and clutch of the sowing apparatus. In addition, the sowing apparatus cannot sow leguminous crops, and the manufacture of the ribs of the sectional reel in the shape of the ribs of a grooved reel with straight ribs leads, when rotating the sectional reel, to incomplete emptying of its grooves, while the technological process of operation of the sowing apparatus is disrupted due to the dragging of seeds again into the seed box of the sowing apparatus, in this case the specified seeding rate is violated and the crushing of seeds increases. All this leads to a decrease in the quality of crop sowing, a decrease in its yield and an increase in the cost of the resulting products.

Of the known ones, the closest in technical essence (prototype) is a sowing apparatus [6], containing a seed box with a socket mounted on the shaft of a sectional reel with grooves, a seed guide to the lower part of the seed box, a coupling with a rib and a valve, characterized in that the grooves sectional coils have the shape of part of the surface of rotation of a torus, while the radius R of the generatrix of the torus circle is equal to 7.1 mm, in addition, separating disks are installed on the shaft of the sectional coil between the sections of the sectional coil and at the ends of the sectional coil, and the mounting holes of the separating disks are on the shaft of the sectional coil the coils are made with dimensions equal to the dimensions of the shaft of the sectional coil, while the symmetry axes of the separating disks coincide with the axis of symmetry of the sectional coil, and the diameter of the separating disks is equal to the diameter of the sectional coil, in addition, the thickness of each separating disk is 0.5 mm, and the total length of the sectional The coil together with separating disks is equal to the length of a standard coil with grooves, while the socket of the seed box is made in the form of a solid disk with a mounting hole for installing the socket on the drive shaft of the sectional reel, and the sections of the sectional reel and the separating discs are made of polymer material as a single unit.

The sowing apparatus operates as follows. Seeds from the replacement box flow by gravity into the seed box of the sowing unit and fill the space around the grooved reel. As the grooved reel rotates, it moves the seeds that have fallen into the grooves, which fill the space around the grooved reel. Rotating, the coil with grooves moves the seeds that have fallen into the grooves of the coil with grooves to the lower part of the seed box and dumps them at the end of the valve into the funnel of the seed tube (not shown), not in a pulsating portion, but in a smooth and continuous flow, which will affect uniformity distribution of seeds over the sowing area and the accuracy of a given seeding rate of grain crops of various biological forms, due to the fact that the working part of the coil with grooves is divided into four equal sections by secant planes perpendicular to the longitudinal axis of symmetry of the coil with grooves, with each subsequent one of four equal sections of the coil with grooves is rotated around the longitudinal axis of symmetry of the coil with grooves relative to the previous equal section of the coil with grooves at an equal angle, while the angle between the longitudinal planes of symmetry of the ribs of four equal sections of the coil with grooves drawn relative to the longitudinal axis of the coil with grooves is 15 degrees, while the ribs of four equal sections of the grooved coil are arranged in a checkerboard pattern on the working part of the grooved coil along a helical line, while the four equal sections rotated around the longitudinal axis of symmetry of the grooved coil are fixedly connected to each other by welding, while the four equal sections are fixedly connected to each other Grooved coil sections form a grooved sectional coil.

The disadvantages of the sowing apparatus include the manufacture of the grooves of the sectional reel in the shape of part of the rotation surface of the torus due to the deepening of the grooves of the sectional reel, which, when rotating the sectional reel, leads to incomplete emptying of its grooves, while the technological process of operation of the sowing apparatus is disrupted due to the dragging of seeds again into the seed chamber box of the sowing apparatus, as well as the specified seeding rate is violated and the crushing of seeds increases. In addition, the sowing unit cannot sow leguminous crops. All this leads to a deterioration in the quality of sowing, a decrease in crop yield and an increase in the cost of the resulting products.

The claimed invention is aimed at eliminating the above-described disadvantages and with its use the following result is obtained: the uniformity of seed distribution over the sifting area is improved (the coefficient of variation of seed distribution over the sifting area of the proposed sowing apparatus is ν=27%, prototype - ν=29%), instability total seeding 2.3% (prototype - 3.1%), seed injury 0.24% (prototype 0.28%). All this improves the quality of sowing, which leads to increased yields and reduced production costs.

The specified technical result is achieved through the use of a sowing apparatus, including a seed box with a socket, a sectional reel with grooves mounted on a shaft, a seed guide in the lower part of the seed box, a coupling with a rib and a valve, characterized in that the working part of the sectional reel with grooves takes into account dimensional indicators of seeds of grain and leguminous crops is divided into two equal sections by a secant plane perpendicular to the longitudinal axis of symmetry of the sectional coil with grooves, while separating disks are installed between the two equal sections and at the ends of the sectional coil, which are made together with two equal sections as one whole of polymer material of increased strength, and one equal section of the sectional coil is rotated relative to another equal section around the longitudinal axis of symmetry of the sectional coil at an angle α equal to 15°, and the ribs of the two equal sections of the sectional coil are located on its working part along a helical line, in addition, lateral the surfaces of the rib of the sectional coil 4 have a flat surface, and the rib of the sectional coil with grooves has a working and non-working flat surface, located respectively in the direction of rotation of the sectional coil, while the working flat surface of the rib of the sectional coil with grooves, located in the direction of rotation of the sectional coil, coincides with the longitudinal plane of symmetry of the sectional coil, and the non-working flat surface of the edge of the sectional coil is deviated from the longitudinal plane of symmetry of the sectional coil by an angle β equal to 26°, while the profile shape of the groove of the sectional coil is formed by a section of the working and non-working flat surfaces of two adjacent ribs of the sectional coil, as well as arcs connecting the jumpers and the bases of two adjacent ribs of the sectional coil, and the arcs are formed by circles drawn from the center O of the sectional coil with radius r _{sk of} the sectional coil 4 and radius r, respectively, along the jumpers and along the bases of two adjacent ribs of the sectional coil, and the socket of the sectional coil with grooves is made without slots for the ribs of the sectional coil and has a mounting hole made with a diameter , equal to the diameter of the drive shaft of the sectional coil. Graphic materials

In fig. Figure 1 shows a diagram of the sowing apparatus.

In fig. Figure 2 shows a diagram of a sectional coil with grooves.

In fig. Figure 3 shows a sectional coil with grooves.

The sowing apparatus (Fig. 1) includes a seed box 1 with a socket 2, a sectional reel 4 mounted on a shaft 3 with grooves, a seed guide in the lower part of the seed box 1, a coupling 5 with a rib and a valve 6, characterized in that the working part of the sectional reel 4 with grooves, taking into account the dimensional parameters of seeds of grain and leguminous crops, is divided into two equal sections 7 by a secant plane perpendicular to the longitudinal axis of symmetry of the sectional coil 4 with grooves, while between the two equal sections 7 and at the ends of the sectional coil 4, separating disks 8 are installed, which made together with two equal sections 7 as a single unit from a polymer material of increased strength, and one equal section 7 of the sectional coil 4 is rotated relative to the other equal section 7 around the longitudinal axis of symmetry of the sectional coil 4 at an angle α equal to 15°, and the ribs 9 are two equal sections 7 of the sectional coil 4 are located on its working part along a helical line, in addition, the side surfaces of the fin 9 of the sectional coil 4 have a flat surface, and the ridge 9 of the sectional coil 4 with grooves has a working 10 and a non-working 11 flat surface, located respectively in the direction of rotation sectional coil 4, while the working 10 flat surface of the rib 9 of the sectional coil 4 with grooves, located in the direction of rotation of the sectional coil 4, coincides with the longitudinal plane of symmetry of the sectional coil 4, and the non-working 11 flat surface of the rib 9 of the sectional coil 4 is deviated from the longitudinal plane of symmetry sectional coil 4 at an angle β equal to 26°, while the profile shape of the groove of the sectional coil 4 is formed by the cross-section of the working 10 and non-working 11 flat surfaces of two adjacent ribs 9 of the sectional coil 4, as well as arcs connecting the jumpers 12 and the bases of two adjacent ribs 9 of the sectional coil 4, and the arcs are formed by circles drawn from the center O of the sectional coil 4 with radius r _sk of the sectional coil 4 and radius r, respectively, along the jumpers 12 and along the bases of two adjacent ribs 9 of the sectional coil 4, and the socket 2 of the sectional coil 4 with grooves is made without slots for the ribs 9 of the sectional coil 4 and has a mounting hole 13 made with a diameter equal to the diameter of the drive shaft of the sectional coil 4.

The bobbin seeder operates as follows.

Seeds from the seed box flow by gravity into the seed box 1 (Fig. 1) of the sowing apparatus and fill the space around the sectional reel 4 with grooves. Rotating, the sectional coil 4 with grooves moves the seeds that have fallen into the grooves of the sectional coil 4 with grooves to the lower part of the seed box 1 and dumps them at the end of the valve 6 into the funnel of the seed tube (not shown), not pulsating in portions, but smoothly and continuously flow, which will affect the uniform distribution of seeds over the sowing area and the accuracy of the given seeding rate of grain and leguminous crops of various biological forms, due to the fact that it is divided into two equal sections 7 by a secant plane perpendicular to the longitudinal axis of symmetry of the sectional coil 4 with grooves, while between two equal sections 7 and at the ends of the sectional coil 4, separating disks 8 are installed, which are made together with two equal sections 7 as one single unit from a polymer material of increased strength, and one equal section 7 of the sectional coil 4 is rotated relative to the other equal section 7 around the longitudinal the axis of symmetry of the sectional coil 4 at an angle α equal to 15°, and the ribs 9 of two equal sections 7 of the sectional coil 4 are located on its working part along a helical line, in addition, the side surfaces of the ribs 9 of the sectional coil 4 have a flat surface.

For faster emptying of the grooves of the sectional coil 4 during its rotation, which eliminates the dragging of seeds remaining in the grooves of the sectional coil 4 back into the area where they are transported by the sectional coil 4 along the valve 6 to the edge of the seed discharge into the seed tube, while the rib 9 of the sectional coil 4 with has grooves on the working 10 and non-working 11 flat surfaces, located respectively in the direction of rotation of the sectional coil 4, while the working 10 flat surface of the rib 9 of the sectional coil 4 with grooves, located in the direction of rotation of the sectional coil 4, coincides with the longitudinal plane of symmetry of the sectional coil 4, and the non-working 11 flat surface of the rib 9 of the sectional coil 4 is deviated from the longitudinal plane of symmetry of the sectional coil 4 by an angle β equal to 26°, while the profile shape of the groove of the sectional coil 4 is formed by the cross-section of the working 10 and non-working 11 flat surfaces of two adjacent ribs 9 of the sectional coil 4, as well as arcs connecting the jumpers 12 and the bases of two adjacent ribs 9 of the sectional coil 4, and the arcs are formed by circles drawn from the center O of the sectional coil 4 with radius r _sk of the sectional coil 4 and radius r, respectively, along the jumpers 12 and along the bases of two adjacent ribs 9 of the sectional coil 4.

To prevent the flow of seeds from the working surfaces of the ribs 10 of the sectional coil 4 with grooves, which will also eliminate pulsating-portion sowing of seeds of the sectional coil 4 with grooves and at the same time improve the uniformity of seed distribution over the sieving area, between two equal sections 7 and at the ends of the sectional coil 4 is equipped with separating disks 8, which are made together with two equal sections 7 as one single unit from a polymer material of increased strength.

In addition, separating disks installed at the ends of the sectional coil 4 with grooves prevent crushing of seeds between the sectional coil 4 with grooves, the rosette 2 and the coupling 5 with a rib, while the rosette 2 of the sectional coil 4 with grooves is made without slots for the ribs 9 of the sectional coil 4 and has a mounting hole 13 made with a diameter equal to the diameter of the drive shaft of the sectional coil 4.

Thus, the operation of the sowing apparatus, when installing a sectional reel 4 with grooves without replacing the sowing apparatus, ensures sowing of grain and leguminous crops with uniform distribution of seeds over the sowing area, strict compliance with the specified seeding rate, with rapid emptying of the grooves of the sectional reel, reducing seed crushing and their consumption per unit of sowing area. All this improves the quality of seed sowing, which leads to increased crop yields and reduced production costs.

Literature

1. Patent 2490854 RF, IPC A01S 7/12. Reel sowing device for precision seeding / S.P. Juror, M.M. Juror, T.A. Ilyukhina and others // No. 2011135585/13. Announced 08/25/2011. Publ. 08/27/2013. Bull. No. 24. (analog)

2. Patent 2461171 RF, IPC A01S 7/12. Reel sowing device for small-seeded crops / M.V. Karimov, D.V. Kvitkin, A.D. Kvitkin et al. // No. 2010151619/13. Announced 12/15/2010. Publ. 09.20.2012. Bull. No. 26. (analog)

3. Patent 2461172 RF, IPC A01S 7/12. Reel multi-thread screw seeding device / M.V. Karimov, D.V. Kvitkin, A.D. Kvitkin et al. // No. 2010127121/13. Declared 07/01/2010. Publ. 09.20.2012. Bull. No. 26. (analog)

4. Patent 2316930 RF, IPC A01S 7/12. Reel-blade sowing device / F.V. Posharnikov, E.B. Tsaplin // No. 2006120250/12. Declared 06/08/2006. Publ. 02/20/2008. Bull. No. 5. (analog)

5. Patent 2640054 RF, IPC A01S 7/12. Seeding device / N.P. Laryushin, V.N. Kuvaytsev, A.Yu. Shuchenkov and others // No. 22016146971/12. Announced 11/29/2016 Publ. 12/26/2017. Bull. No. 36 (analog)

6. Patent 2681491 RF, IPC A01S 7/12. Seeding device / N.P. Laryushin, A.V. Abakumov, A.V. Shukov et al. // No. 2018122607/12. Announced 06/19/2018. Publ. 03/06/2019. Bull. No. 7 (prototype)

7. Klenin, N.I. Agricultural and reclamation machines / N.I. Klenin, V.A. Sakun. - M.: Kolos, 1994. - 751 p.

Claims (1)

A sowing apparatus, including a seed box with a socket, a sectional reel with grooves mounted on a shaft, a seed guide in the lower part of the seed box, a coupling with a rib and a valve, characterized in that the working part of the sectional reel with grooves takes into account the dimensional parameters of the seeds of grain and leguminous crops is divided into two equal sections by a secant plane perpendicular to the longitudinal axis of symmetry of the sectional coil with grooves, while separating disks are installed between the two equal sections and at the ends of the sectional coil, which are made together with two equal sections as one single unit from a polymer material of increased strength, and one equal section of the sectional coil is rotated relative to another equal section around the longitudinal axis of symmetry of the sectional coil at an angle α equal to 15°, and the ribs of two equal sections of the sectional coil are located on its working part along a helical line, in addition, the lateral surfaces of the ribs of the sectional coil are flat surface, and the edge of the sectional coil with grooves has a working and non-working flat surface, located respectively in the direction of rotation of the sectional coil, while the working flat surface of the edge of the sectional coil with grooves, located in the direction of rotation of the sectional coil, coincides with the longitudinal plane of symmetry of the sectional coil, and the non-working flat surface of the sectional coil rib is deviated from the longitudinal plane of symmetry of the sectional coil by an angle β equal to 26°, while the profile shape of the sectional coil groove is formed by the cross-section of the working and non-working flat surfaces of two adjacent sectional coil ribs, as well as by arcs connecting the jumpers and the bases of two adjacent ribs of the sectional coil, and the arcs are formed by circles drawn from the center O of the sectional coil with radius r _{sk of} the sectional coil and radius r, respectively, along the jumpers and along the bases of two adjacent ribs of the sectional coil, and the socket of the sectional coil with grooves is made without slots for the ribs of the sectional coil and has a mounting hole made with a diameter equal to the diameter of the drive shaft of the sectional coil.

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