RU2640054C1 - Sowing unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: sowing unit comprises a seed box with a power socket, a coil with grooves, installed on a shaft, a seed guide to the bottom of the seed box, a sleeve with a rib and a valve. The working part of the coil is divided into four equal sections by cutting planes perpendicular to the longitudinal symmetry axis of the coil, which are rigidly fixed together to form a sectional coil with grooves. Wherein each successive section of the four equal ones of the coil is rotated about a longitudinal symmetry axis with respect to the previous equal coil section by an equal angle. The angle between the longitudinal symmetry planes of the ribs of the four equal sections of the coil with grooves, drawn along the longitudinal coil axis, is equal to 15°. The ribs of the four equal coil sections are staggered on the working part along the helical line. The rib length of the sectional coil with grooves is equal to the thickness of the sectional coil section. The rib shape of the section coil is made according to the rib shape of the grooved one with straight ribs, while the ribs of the section coil with grooves have working and non-working surfaces located respectively in the rotation direction of the section coil with grooves. Open trays with a cylindrical surface are made on the working surface of each rib of the sectional coil, arranged symmetrically with respect to it. The symmetry axis of the cylinder forming the cylindrical surface of the open trays is inclined at an angle of 25° to the longitudinal symmetry planes of the ribs of the sectional coil, drawn with respect to the longitudinal symmetry axis of the sectional coil. The cylindrical surface of the open trays touches the longitudinal symmetry axis of the surface of the bridges located between the grooves of the sectional coil. The profile of the sectional coil grooves is made in the shape of the profile of the grooves of the grooved coil with straight ribs, taking into account the profile shape of the open trays. The socket of the sectional coil is made without slots for its ribs and has a mounting opening made of a diameter equal to the diameter of the drive shaft of the sectional coils.

EFFECT: invention will allow to increase the uniformity of distributing seeds of different crops over the sowing area and to ensure the seeding rate accuracy, as well as to reduce the seed injury and consumption per unit of the sowing area, wherein the productivity crops increases and the production cost is reduced.

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Description

The invention relates to agricultural machinery, in particular to devices for sowing bulk materials, such as crops.

Known coil metering apparatus for precision sowing [1], containing seed boxes with spring-loaded valves and sockets with slots installed on them on the drive shaft metering devices in the form of coils with ribs and couplings, and the ribs of each of the coils are made at an angle and have a brush frame, while 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 rectangular in shape, while the left and right grooves in the base along the entire length of them there are evenly spaced hemispherical openings, and on the side of the grain falling out of the grooves there are hyperbolic grooves.

The disadvantages of the reel seeding apparatus for precision seeding include the production of left and right grooves, which have evenly spaced hemispherical openings along the entire length, and hyperbolic grooves on the side of the grain falling out of the grooves, which requires accurate grain calibration, and taking into account various dimensional characteristics grain, it will be necessary to replace the reel sowing device when switching to sowing another crop, in addition, the hemispherical openings will be filled unevenly, since the seeds from the seed the shy will completely cover the surface of the reel seeding apparatus, filling the entire space between the diagonal grooves, which will lead to an uneven pulsating portioned seed feed. The listed factors and the complexity in the manufacture of the design of this reel seeding apparatus of precision seeding with low reliability (wear of the brush frame) will lead to a decrease in crop yields and an increase in the cost of production.

Known coil metering device [2], comprising a housing, a coil and a gate, with 14 to 18 ribs placed on the outer cylindrical surface of the coil forming oblique helical grooves placed at an acute angle of 12-17 ° to the center line of the coil with a multiple of size sown seed with a cross sectional area between 6 and 7.5 mm ^2, and the diameter of the grooves of the projections is less than the outer diameter of the end coil turners, coil grooves formed radially diameter equal to 0.5-0.7 sowing seed body is made releasable consisting of two parts, and the coil is set at a minimum gap of 0.2-0.3 mm between its teeth and the surface of the housing assembly.

The disadvantages of the spool metering device include the placement of helical grooves at sharp angles of 12-17 ° to the axial line of the coil, which leads to sliding of seeds along the oblique teeth of the grooves due to the difference in friction properties of grain of different crops, i.e. for different crops it is necessary to have coils with different the angles of inclination of the helical grooves, while the seeds fall to the walls of the housing of the metering apparatus, where they are injured in the gap between the ribs of the coil and the housing. In addition, it is impossible to change the seeding rate by changing the cross section of the receiving window by means of a sliding gate, since this will only affect the loading of the sowing 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 side of the housing, due to the difference in frictional properties of seeds of different crops, they are injured and dumped into the funnel of the vas deferens by an uneven pulsating flow, which will also affect the uniformity of the distribution of seeds over the feeding area, especially seeds of small-seeded crops, and ultimately the deterioration of the conditions for their growth. All these factors will lead to a decrease in the quality of sowing, crop yields and increase the cost of production.

Known coil metering apparatus [3], comprising a housing, a coil, a coupling, a socket and a valve, the coil is made with the possibility of replacement and on its cylindrical surface there are multi-augmented tapered screw auger blades forming curvilinear grooves with a volume multiple of the size of the seed, while the surface of the curvilinear bottom of the valve, facing the coil side, is made along a curved tractor and is located at an acute angle to the horizontal, and the end of the valve for dumping material from it is placed vertically on and a value of 0.40-0.50 Dk from the center of rotation of the coil, where Dk is the diameter of the coil, the coil and clutch have the same outer diameter, and the coil has a cavity in which a spring is placed that axially extends the coil and clutch to maintain a minimum clearance 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 screw line of the screw is at least 500 mm, the number of strokes of the blades is at least 10, and the grooves formed in this case have a cross-sectional area no less than 20 mm ² , the coil for seeding fertilizers has a number of visits of screw blades from 10-15, and the cross-sectional area of the grooves is 50-80 mm ² .

The disadvantages of the reel seeding apparatus include the placement on the cylindrical surface of the reel of multi-cut beveled helical auger blades of the screw forming curved grooves, since the curved grooves are designed to hold seeds on their surface with certain frictional properties. Therefore, this reel sowing device can only be used on one particular crop, while sowing seeds with a coil is pulsating in 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 along the multiple-chamfered helical blades of the coil auger slide, as a rule, to the protrusions of the socket, while the seeds are injured despite the minimum gaps between the grooves of the coil and the protrusions of the socket. All of these factors will lead to a deterioration in the quality of sowing, an increased consumption of seed, a decrease in crop yields and an increase in the cost of production.

Known coil-paddle sowing apparatus [4], comprising a housing with a coil installed in it with blades mounted on it, while the blades are fixed in the body of the coil 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 housing of the metering unit is not more than half of the minimum seed size, with a flexible limiter installed in the upper part in the seed collection zone with a gap between its lower part and the ends of the blades not more than 0.1 of the minimum seed size.

The disadvantages of the reel-paddle sowing apparatus include the variable accuracy of seed metering during sowing due to the variability of the supplied seed volume 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 random fluctuations, removes different portions of seeds from the space between the edge blades and the inner surface of the drum, which leads to an uneven distribution of seeds over the sieving 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 not more than 0.1 of the minimum seed size, does not eliminate pinching of the seeds between the blades and the inner radial surface of the metering unit body, since the elastic limiter works cyclically and when it deviates from the set position, the seeds fall between the blades and the inner radial surface of the metering unit body and grasses iruyutsya. All of these factors will lead to a deterioration in the quality of sowing, an increased consumption of seed, a decrease in crop yields and an increase in the cost of production.

Of the known closest in technical essence (prototype) is a sowing apparatus [5], containing a seed box with a socket, a coil with grooves mounted on the shaft, a seed guide to the bottom of the seed box, a coupling with a rib and a valve, characterized in that the ribs of the grooves the coils with grooves are made along a helical line at an angle of 18 ÷ 22 ° to the axial line of the coil, moreover, the ribs of the coil with grooves do not have a brush frame, and the rear end part of the valve is made in a rectangular shape, and the line of cutting the rear end part of the valve is located below the axis of the coil with grooves on the (0.6 ÷ 0.7) R coil, the end of one rib of the coil with grooves in the direction of rotation of the coil coincides with the right vertex of the valve, and the beginning of the next rib of the coil with grooves coincides with the left vertex valve, while the slots of the outlet are made in the form of ribs of the coil with grooves at an angle of 18 ÷ 22 ° to the axial line of the coil.

The metering device operates as follows. Seeds from a removable box by gravity enter the seed box of the metering unit and fill the space around the coil with grooves. Rotating, the coil with grooves moves the seeds that have sunk into the grooves, and part of the seeds of the active layer that do not fall into the grooves, but located near the edges of the coil with grooves, to the bottom of the seed box and dumps them at the end of the valve into the funnel of the vas deferens.

The disadvantages of this sowing apparatus include the pulsating-dose supply of seeds into the funnel of the vas deferens due to the sliding of seeds due to the difference in frictional properties of the sown materials along the helical grooves of the coil to the sides of the seed box body, as a result of which one part of the coil sows more seeds, the other part of the coil less. which leads to a pulsating-portioned supply of seeds to the funnel of the vas deferens, while the uniform distribution of seeds over the sieving area is violated. In addition, the sliding of seeds along the helical grooves of the coil to the sidewall of the housing leads to crushing of the seeds between the ribs of the coil and the sidewall of the housing, which also leads to an uneven distribution of seeds over the sowing area and a decrease in the set sowing rate. Adjusting the seeding rate due to the axial displacement of the coils with helical grooves is difficult to carry out, since when moving them relative to the outlets, the outlets in the sidewalls of the seed boxes are jammed, which leads to deformation of the sidewalls of the seed boxes and an increase in the gaps in the interfaces between the parts of the metering devices and seed boxes and leakage seed into gaps and crushing seeds. When switching to sowing another crop, the sowing apparatus needs to be replaced, which leads to time losses when sowing the crop and delaying the sowing time and additional costs. All of these factors will lead to a deterioration in the quality of sowing, an increased consumption of seed, a decrease in crop yields and an increase in the cost of production.

The claimed invention is aimed at eliminating the above drawbacks, and when using it, the following result was obtained: the uniformity of the distribution of seeds over the sifting area is improved (the coefficient of variation of the distribution of seeds over the sifting area, the proposed sowing apparatus is ν = 37%, the existing one is ν = 45 ... 55%) at the same time, the established rate of sowing of seeds is strictly ensured, trauma and consumption of seeds per unit area of sowing are reduced; when switching to sowing other crops, the replacement of sowing devices is not required. All this improves the quality of sowing, which leads to higher yields and lower production costs.

The specified technical result is achieved through the use of a sowing apparatus, including a seed box with a socket, a coil with grooves mounted on the 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 coil with grooves, taking into account the dimensional indicators of seeds of grain crops, divided into four equal sections by secant planes perpendicular to the longitudinal axis of symmetry of the coil with grooves, with each subsequent of four equal sections of coils with grooves 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 coil with grooves are staggered on the working part of the coil with grooves along a helix, while four equal sections are rotated around the longitudinal axis the symmetries of the coil with the grooves are fixedly connected to each other by welding, while the four equal sections of the coil with the grooves fixedly connected to each other form a sectional coil with the grooves, while the lengths of the ribs of the sectional coil with the grooves are equal to the thickness of the sectional section coil with the grooves, while the shape of the ribs a sectional coil with grooves is made in the form of ribs of a grooved coil with straight ribs, while the ribs of a sectional coil with grooves have working and non-working surfaces located respectively about in the direction of rotation of the sectional coil with grooves, while on the working surface of each rib of the sectional coil with grooves open trays with a cylindrical surface are made, while the axis of symmetry of the cylinder forming the cylindrical surface of the open trays is inclined at an angle of 25 degrees to the longitudinal planes of symmetry of the ribs of the sectional coils with grooves drawn relative to the longitudinal axis of symmetry of the sectional coil with grooves, while open trays with a cylindrical surface, made on the working on the surfaces of the ribs of the sectional coil with grooves, are located symmetrically on the working surface of the ribs of the sectional coil with grooves, 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 with grooves is made in the shape of the profile of the grooves grooved coils with straight ribs, taking into account the profile shape of open trays with a cylindrical surface, made on the working surface of the ribs ektsionnoy coil with grooves, wherein the outlet coil sectional grooved formed without slits for rib sectional coil grooved and has a fitting hole formed with a diameter equal to the diameter of the drive shaft coils sectional grooved.

Graphic materials

In FIG. 1 shows a diagram of a metering apparatus.

In FIG. 2 shows a diagram of a sectional coil with grooves.

In FIG. 3 shows a diagram of the outlet of the metering unit.

In FIG. 4 shows the metering unit.

In FIG. 5 shows a sectional coil with grooves.

The sowing apparatus (Fig. 1), comprising a seed box 1 with a socket 2, a reel 4 with grooves mounted on the shaft 3, a seed guide to the bottom of the seed box 1, a clutch 5 with a rib and valve 6, while the working part of the reel 4 with grooves taking into account the dimensional parameters of seeds of grain crops is divided into four equal sections 7 (Fig. 2, Fig. 4, Fig. 5) secant planes perpendicular to the longitudinal axis of symmetry of the coil 4 with grooves, each subsequent of four equal sections 7 of the coil 4 s grooves rotated around the longitudinal axis the symmetry of coil 4 with grooves relative to the previous equal section 7 of coil 4 with grooves at an equal angle, while the angle between the longitudinal planes of symmetry of the ribs 8 of four equal sections 7 of coil 4 with grooves drawn relative to the longitudinal axis of symmetry of coil 4 with grooves is 15 degrees ( Fig. 2), while the ribs 8 of four equal sections 7 of the coil 4 with grooves are staggered on the working part of the coil 4 with grooves along a helical line, while four equal sections 7 are rotated around the longitudinal axis of symmetry of the coil ki 4 grooved interconnected fixedly by welding, thus fixedly interconnected four equal sections 7 of the coil 4 with grooves sectional form coil 4 with grooves (Fig. 2, FIG. 4, FIG. 5), while the length of the ribs 8 of the sectional coil 4 with grooves is equal to the thickness of the section 7 of the sectional coil 4 with grooves, while the shape of the ribs 8 of the sectional coil 4 with grooves is made in the form of the ribs of the grooved coil with straight ribs, while the ribs 8 of the sectional coil 4 with grooves have working and non-working surfaces located respectively in the direction of rotation of the sectional coil 4 with grooves, while open trays 9 with a cylindrical surface are made on the working surface of each rib 8 of the sectional coil 4 with grooves, while the axis of symmetry of the cylinder forming the cylindrical surface of the open trays 9 is inclined at an angle of 25 degrees to the longitudinal planes of symmetry of the ribs 8 of the sectional coil 4 with grooves drawn relative to the longitudinal axis of symmetry of the sectional coil 4 with grooves, while the open trays 9 with a cylindrical surface made on the working surfaces of the ribs 8 of the sectional coil 4 with grooves are located symmetrically on the working surface of the ribs 8 of the sectional coil 4 with grooves, while the cylindrical surface of the open of trays 9 concerns the longitudinal axis of symmetry aa of the surface of the jumpers 10 located between the grooves of the sectional coil 4, while the profile of the grooves of the sectional coil 4 with grooves is made in the shape of the profile of the grooves of the grooved coil with straight ribs taking into account the profile shape of the open trays 9 with a cylindrical surface, made on the working surface of the ribs 8 of the sectional coil 4 with grooves, while the socket 2 of the sectional coil 4 with grooves is made without slots for the ribs 8 of the sectional coil 4 with grooves and has a landing bore stie made the same diameter as the drive shaft 3 is sectional coils 4 with grooves.

Coil metering device operates as follows.

Seeds from a removable box by gravity enter the seed box 1 (Fig. 1) of the metering unit and fill the space around the coil 4 with grooves. Rotating, the grooved coil 4 moves seeds sunk into the grooves, which fill the space around the grooved coil 4. Rotating, the grooved coil 4 moves the seeds sunk into the grooves of the grooved coil 4 into the lower part of the seed box 1 and dumps them at the end of the valve 6 into the funnel of the vas deferens (not shown), and not pulsating portionwise, but in a smooth and continuous flow, which will affect the uniform distribution of seeds over the sifting area and the accuracy of the given sowing rate of crops of various biological forms, due to the fact that the working part of the coil 4 with grooves is divided into four equal sections 7 by secant planes perpendicular and the longitudinal axis of symmetry of the coil 4 with grooves, each subsequent of four equal sections 7 of the coil 4 with grooves rotated around the longitudinal axis of symmetry of the coil 4 with grooves with respect to the previous equal section 7 of the coil 4 with grooves by an equal angle, while the angle between the longitudinal planes the symmetry of the ribs 8 of four equal sections 7 of the coil 4 with grooves, held relative to the longitudinal axis of the coil 4 with grooves, is 15 degrees (Fig. 2), while the ribs 8 of four equal sections 7 of the coil 4 with grooves are staggered on the working part of the coil 4 with grooves along a helical line, while the rotated four equal sections 7 around the longitudinal axis of symmetry of the coil 4 with the grooves are connected to each other motionlessly using welding, while fixedly connected to each other four equal sections 7 of the coil 4 with the grooves form a sectional coil 4 with the grooves.

To better fill the seeds of the grooves of the sectional coil 4 with the grooves (Fig. 2), which will also affect the uniform distribution of seeds over the sieving area and the accuracy of the given seeding rate, the length of the ribs 8 of the sectional coil 4 with the grooves is equal to the thickness of the section of the sectional coil 4 with the grooves, the shape of the ribs 8 of the sectional coil 4 with grooves is made in the form of the ribs of the grooved coil with straight ribs, while the profile of the grooves of the sectional coil 4 with grooves is made in the shape of the profile of the grooves of the grooved coil with straight ribs with Babe profile shape open trays 9 with the cylindrical surface formed on the working surface of the ribs 8 sectional coil 4 with grooves, wherein the sectional profile of the groove 4 with the coil grooves defined by a groove cross-sectional area of the coil with straight ribs [6]:

where S _W - the cross-sectional area of the groove of the coil with straight ribs;

S _l - the cross-sectional area of the open tray with a cylindrical surface.

To exclude the descent of seeds from the working surfaces of the ribs 8 of the sectional coil 4 with the grooves, which will allow to exclude pulsating-portioned sowing of seeds by the sectional coil 4 with the grooves and at the same time to improve the uniformity of seed distribution over the sifting area, the ribs 8 of the sectional coil 4 with the grooves have working and non-working surfaces located respectively along the rotation of the sectional coil 4 with grooves, while on the working surface of each rib 8 of the sectional coil 4 with grooves open trays 9 are made (Fig. 2) with cyl surface, while the axis of symmetry of the cylinder forming the cylindrical surface of the open trays 9 is inclined at an angle of 25 degrees to the longitudinal planes of symmetry of the ribs 8 of the sectional coil 4 with grooves drawn relative to the longitudinal axis of symmetry of the sectional coil 4 with grooves, while the open trays 9 s a cylindrical surface, made on the working surfaces of the ribs 8 of the sectional coil 4 with grooves, are located symmetrically on the working surface of the ribs 8 of the sectional coil 4 with grooves, while -cylindrical surface open trays 9 relates to the longitudinal axis of symmetry aa (Fig. 2) the surface of the jumpers 10 located between the grooves of the sectional coil 4 with the grooves, while the open trays 9 with a cylindrical surface exclude the descent of seeds from the working surface of the ribs 8 of the sectional coil 4 with the grooves during its operation, which eliminates the pulsating-portioned sowing of seeds by the sectional coil 4 with grooves.

In addition, open trays 9 with a cylindrical surface on the working surface of the ribs 8 of the sectional coil 4 with grooves increase the working volume of the sectional coil 4 with grooves, determined from the condition [6]:

by the value of V _l , therefore, you can write:

where V ₀ - the working volume of the sectional coil with grooves;

V _W - the volume of seeds carried by grooves;

V _a is the volume of seeds passed in the active layer;

V _l - the volume of seeds taken out by open trays with a cylindrical surface.

From an analysis of expressions (2) and (3), we can conclude that the working volume V _{0 of the} sectional coil 4 with grooves increased by the value of V _{l of the} volume of seeds carried by open trays 9 with a cylindrical surface. Increasing the working volume V _{0 of the} sectional coil 4 with grooves will allow for the sowing of seeds with a given rate at the maximum working part of the sectional coil 4 with grooves to reduce the rotation frequency of the sectional coil 4 with grooves, which will lead to an improvement in the uniformity of sowing of seeds over the sowing area and to reduce injury to the seeds.

For a more precise adjustment of the seeding rate and to prevent their crushing between the ends of the ribs 8 (Fig. 1, Fig. 2) of the sectional coil 4 with grooves and socket 2, the socket 2 of the sectional coil 4 with grooves is made without slots for the ribs 8 of the sectional coil 4 s with grooves and has a landing hole made with a diameter equal to the diameter of the shaft 3 of the drive of the sectional coils 4 with grooves, while the seed sowing rate is adjusted only by changing the speed of the sectional coil 4 with grooves without adjusting the working length of the working hour STI sectional grooved spool 4, while the coil 4 with the sectional grooves provides uniform without pulsation seeding with seeding predetermined norm.

Thus, the operation of the sowing apparatus, when installing a sectional coil 4 with grooves without changing the sowing apparatus when switching to sowing another crop, ensures uniform distribution of seeds over the sowing area, strict implementation of the established norms for sowing seeds, reducing injury and seed consumption per unit area of sowing. All this improves the quality of sowing, which leads to higher yields and lower production costs.

Literature

1. Patent 2490854 of the Russian Federation, IPC A01C 7/12. Coil metering apparatus for precision seeding / S.P. Sworn, M.M. Juror, T.A. Ilyukhin and others // No. 20111135585/13. Announced on 08.25.2011. Publ. 08/27/2013. Bull. Number 24.

2. Patent 2461171 of the Russian Federation, IPC A01C 7/12. Coil sowing apparatus for small seed crops / M.V. Karimov, D.V. Kvitkin, A.D. Kvitkin et al. // No. 2010151619/13. Declared December 15, 2010. Publ. 09/20/2012. Bull. No. 26.

3. Patent 2461172 of the Russian Federation, IPC A01C 7/12. Spool multi-pass screw sowing apparatus / M.V. Karimov, D.V. Kvitkin, A.D. Kvitkin et al. // No. 2010127121/13. Announced July 1, 2010. Publ. 09/20/2012. Bull. No. 26.

4. Patent 2316930 of the Russian Federation, IPC A01C 7/12. Spool-paddle sowing apparatus / F.V. Posharnikov, E.B. Tsaplin // No.2006120250 / 12. Declared June 8, 2006. Publ. 02/20/2008. Bull. No. 5.

5. Patent 2384040 of the Russian Federation, IPC A01C 7/12. Sowing apparatus / N.P. Laryushin, S.A. Suschev, V.V. Lapin et al. // No. 20088145301/12. Declared November 17, 2008. Publ. 03/20/2010. Bull. No. 8.

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

Claims (1)

The sowing apparatus containing a seed box with a socket, a coil with grooves mounted on the shaft, a seed guide to the bottom of the seed box, a coupling with a rib and a valve, characterized in that the working part of the coil with grooves is divided into four equal sizes sections with secant planes perpendicular to the longitudinal axis of symmetry of the coil with grooves, with each subsequent of four equal sections of the coil with grooves rotated around the longitudinal axis of symmetry of the coil with grooves sides 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, held relative to the longitudinal axis of the coil with grooves, is 15 °, while the ribs of four equal sections of the coil with grooves are located in staggered on the working part of the coil with grooves along a helical line, while the rotated four equal sections around the longitudinal axis of symmetry of the coil with the grooves are connected stationary by welding ki, while four equal sections of the coil with grooves fixedly connected to each other form a sectional coil with grooves, while the lengths of the ribs of the sectional coil with grooves are equal to the thickness of the section of the sectional coil with grooves, while the shape of the ribs of the sectional coil with grooves is made in the form of ribs of the grooved coil with straight ribs, while the ribs of the sectional coil with grooves have working and non-working surfaces located respectively along the rotation of the sectional coil with grooves, while on the working surface Open trays with a cylindrical surface are made for each rib of a sectional coil with grooves, while the axis of symmetry of the cylinder forming the cylindrical surface of the open trays is inclined at an angle of 25 degrees to the longitudinal planes of symmetry of the ribs of the sectional coil with grooves drawn relative to the longitudinal axis of symmetry of the sectional coil with grooves while open trays with a cylindrical surface, made on the working surfaces of the ribs of the sectional coil with grooves, are located symmetrically on the working surface of the ribs of the sectional coil with grooves, 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 with grooves is made according to the profile shape of the grooves of the grooved coil with straight ribs taking into account the shape of the profile of open trays with a cylindrical surface, made on the working surface of the ribs of the sectional coil with grooves, while the socket of the sectional coil from the groove formed without slits and ribs for sectional coil grooved and has a fitting hole formed with a diameter equal to the diameter of the drive shaft coils sectional grooved.

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