RU197076U1 - SOWING SECTION FOR SEEDING AGRICULTURAL CROPS - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to the sowing section for sowing seeds of grain, fodder and industrial crops in various ways. The sowing section for sowing crops consists of a housing with a parallelogram suspension device with an arm for attaching the seed section to the seeder frame, a compression spring, support wheels aligned on an axis with a circular knife, and press wheels, which are interconnected by a length-adjustable traction and make up with the lower part of the body the sowing section is a four-link mechanism, on the brackets of which holes are made to regulate the compression force of the press wheel on the soil, and holes are made in the lower part of the body of the sowing section through the attachment elements of interchangeable openers, while double-disc, single and two-line sowing of seeds, keeled and paw openers, and the press wheel, depending on the type of opener used, has a width and rim shape equal to the width and shape of the strip selected with seeding aid, to improve copying of the relief of the field surface, the body of the seed section at the level of its center of gravity is connected to the bracket for attaching the seed section to the frame through a rod mounted vertically with a compression spring located in it with an adjustable amount of pre-compression depending on the soil condition, length, pitch and rigidity, providing copying of the relief of the surface of the field and rolling the soil with a certain effort on the support and rolling wheels. For sowing seeds in dry periods in wet a layer of soil at a great depth on the opener stand on both sides there are mounted dumpers, height-adjustable, forming triangular grooves above the required seed placement depth. In front of the opener, a turbo disc is installed as a circular knife, forming a groove equal to the width of the rack. The introduction of the seed section in production will ensure sowing of any grain, industrial and fodder crops to a given depth due to better copying of the relief of the surface of the field and installation of dumpers and turbo discs, soil rolling in the wake of nick in accordance with the selected seeding method which enables to obtain a qualitative groove without tearing and crumbling of the soil, which will provide friendly shoots, full utilization of the available moisture in the soil fertilizer use efficiency and, ultimately, increasing the yield of crops.

Description

The utility model relates to agricultural engineering, in particular to the sowing section for sowing seeds of grain, fodder and industrial crops in various ways.

Known sowing section according to patent No. 179958 (IPC АСС 7/00 publ. 05/29/2018. Bull. No. 16), consisting of a housing with a parallelogram suspension device with a tension spring for preloaded seed section, a support wheel with a depth adjustment mechanism, an anchor coulter and press wheels with compression spring. In the process, the support wheel copies the relief of the field surface, changing or holding the depth of the anchor coulter, and the rear rolling wheel with a compression spring rolls the soil along the trail of the coulter.

The disadvantages of this sowing section are the formation of soil breakouts by anchor coulters when working on solid soils, the uneven depth of processing when copying the relief of the field surface.

Closest to the claimed sowing section is the sowing section according to patent No. 192232 (IPC АСС 7/00 publ. 09/09/2019. Bull. No. 25), consisting of a housing with a parallelogram suspension device with an arm for attaching the seed section to the seeder frame, compression springs, a support wheel aligned on an axis with a circular knife and a press wheel, which are interconnected by a length-adjustable traction and make up a four-link mechanism with the lower part of the seed section housing, on the brackets of which holes are made to adjust the force with the pressure of the press wheel on the soil, and in the lower part of the case of the sowing section holes are made for installation through the attachment elements of interchangeable coulters, while double-disc, anchor with one- and two-line seeding of seeds, keeled and paw openers are used as interchangeable coulters, and the compacting wheel in depending on the type of coulter used, it has a width and rim shape equal to the width and strip shape of the selected seeding method.

The disadvantages of the prototype are insufficient copying of the relief of the field surface due to the small length, pitch and rigidity of the compression spring installed in the parallelogram suspension device, as well as the inability to sow to great depth due to shedding of soil into grooves and the formation of soil breakouts after the coulter on hard soils due to discrepancy between the width of the circular knife and the coulter stand.

The objective of the utility model is to increase the yield of cultivated crops by improving the copying of the relief of the field surface by the sowing section, providing the possibility of sowing to a greater depth into the moist soil layer and eliminating soil breakouts when sowing on solid soils.

The task is carried out by the fact that in the sowing section for sowing crops, consisting of a housing with a parallelogram suspension device with an arm for attaching the sowing section to the seeder frame, a compression spring, a support wheel aligned on the axis with a circular knife, and a press wheel, which are connected between a thrust that is adjustable in length and make up a four-link mechanism with the lower part of the body of the sowing section, on the brackets of which holes are made to regulate the compression force of the pressurizing wheels on the soil, and in the lower part of the body of the sowing section holes are made for installation through the attachment elements of interchangeable openers, while double-disc, anchor with one- and two-line seeding of seeds, keeled and paw openers are used as interchangeable openers, and the press wheel, depending on the type of coulter used has a width and shape of the rim equal to the width and shape of the strip of the selected method of sowing, in contrast to the prototype for improving the copying of the relief of the surface of the field, the body of the sowing section at the level of its center gravity is connected to the bracket for attaching the seed section to the frame through a rod installed vertically with a spring compression located in it with an adjustable amount of pre-compression depending on the soil condition, length, pitch and rigidity, providing copying of the relief of the field surface and rolling the soil with a certain force on the support and press wheels.

For sowing seeds during dry periods in a moist soil layer to a great depth, the coulters are mounted on both sides of the coulter on both sides with heights adjustable in height by moving them into holes made in the rack and forming grooves of a triangular shape above the required seed placement depth depending on the depth the location of the wet soil.

In addition, to eliminate soil breakouts during sowing on solid soils, a turbo disc is installed as a disk knife, forming a groove with a width equal to the width of the rack.

The proposed design of the seed section retains all the positive qualities of the prototype.

Installing a compression spring vertically at the center of gravity of the sowing section, with length, pitch and rigidity, ensuring copying of the relief of the field surface and rolling the soil with a certain force on the support and press wheels, provides a predetermined seed placement depth with deviations within the permissible agricultural requirements. Installing a turbo disc in front of the coulter with a loosening width equal to the rack thickness eliminates soil breakouts when working on hard soils.

When planting seeds in dry years into a wet layer to a great depth (up to 15 cm), height-adjustable dumpers are installed to ensure seed embedding to a depth of 3-7 cm to form a groove of a triangular shape with subsequent rolling of the soil with an appropriate-shaped roller.

Such a sowing scheme ensures that seeds and fertilizers are planted on a compacted seed bed to a predetermined depth of 3-7 cm with a total coulter stroke depth of 15 cm, the roller going behind the coulter compacts the furrow from below, creating contact between the seeds and the soil and from the sides of the furrow, eliminating the possibility of shedding soil. After seedlings, the sprouts develop better in a moist groove, which is formed due to the temperature difference from the surface to the depth of seed placement and atmospheric irrigation.

The proposed sowing section is installed on all types of seeders with mechanical or pneumatic seeding.

In FIG. 1 shows the seed section side view (the front cover of the housing is removed).

In FIG. 2 shows a coulter with dumpers, a press wheel and a support wheel with a turbo disc.

The sowing section (Fig. 1) consists of a housing 4, which is connected to the seeder frame through a parallelogram suspension device 1, the sowing section housing 4 at the center of gravity is connected to the bracket 23 for attaching the sowing section to the frame through a rod 24 mounted vertically with a compression spring 2 and an adjusting nut 3, a turbo disc 5 and a support wheel 6 located on the common axis of the strut 7, press wheels 8 with strut 9. The support 6 and press wheels 8 are equipped with scraper 10 and 11 for cleaning from stuck soil. The bracket 12 of the rack 7 of the support wheel 6 and the bracket 13 of the rack 9 of the press wheel 8 are interconnected by a length-adjustable rod 14, the length of which is regulated by the handle 15. The rod 14 is used to regulate the depth of the coulter 16 with the dumpers 25. The coulter 16 is attached to the sowing body 4 section through the main bolt 17 and shear bolt 18, which serves to protect the coulter 16 from damage when hitting an obstacle. Behind the counter of the coulter 16 there is a nozzle 27 that puts seeds and fertilizers on the seed bed, formed by a chisel 20 and an arm 19. When fertilizers and seeds are applied to the same depth, different types of coulters are installed in place of the coulter 16.

When changing the depth of seeding when sowing seeds of various crops dumpers 25 are rearranged in height into the holes 26 on the opener 16. (Fig. 2.)

The sowing section is intended for sowing seeds of grain, industrial and forage crops on stubble and on the processed background. For sowing these crops in various ways, interchangeable coulters are installed at the opener 16 (Fig. 1): double-disc openers, anchor with single-line sowing, anchor with two-line sowing, keeled and paw openers. Anchor coulters for the formation of the seed bed for seeds are equipped with a bracket 19, which compacts the crumbling soil.

The positive effect of installing a compression spring in a thrust located vertically is as follows. The following forces act on the sowing section during operation (Fig. 1):

G is the gravity of the seed section, kN;

R _X , R _Z - the total horizontal and vertical components of the forces acting on the coulter, taking into account the forces acting on dumpers, chisels and the bracket for creating a seed bed for seeds, kN;

Q _X0 , Q _Z0 - horizontal and vertical components of the forces acting on the support wheel, kN;

Q _XP , Q _ZP - horizontal and vertical components of the forces acting on the turbodisk, kN;

Qxn, Qzn - horizontal and vertical components of the forces acting on the press wheel, kN;

F - spring pre-compression force, kN.

In the process of operation of the sowing section when the support wheel 6 is hitting an obstacle of height H, (Fig. 1), the center of gravity (t.O) of the sowing section rises by the value N / 2, since the coulter 16 is installed in the middle, between the support and press wheels, and the rotation of the seed section occurs relative to the fulcrum of the press wheel, which causes compression of the spring and an increase in the compression force of the spring F, by ΔF. The magnitude of the force ΔF with a vertical arrangement of the spring is:

and when the location of the spring at an angle α to the horizon according to the prototype is:

where c, c ₁ - spring stiffness in the proposed design and the prototype, kN / m;

Then, to ensure the compression force ΔF according to the prototype, c ₁ must be greater than c, i.e.

In addition, the installation of a compression spring according to the prototype in the abcd parallelogram suspension device limits the length and pitch of the spring, which does not copy the relief of the field surface and does not allow the quick return of the seed section to its original position.

The magnitude of the pre-compression force of the spring depends on the state of the soil and can be determined by compiling the equation of moments relative to point "a".

where: l ₁ - the distance from point O to point "a", m;

l ₂ - the distance from point O to the axis of rotation of the turbodisk and the support wheel, m;

l ₃ - the distance from point O to the axis of rotation of the press wheel, m;

h ₁ - the distance from point "a" to the point of application of forces acting on the coulter, m;

h ₂ - the distance from the point "a" to the surface of the field, m;

h ₃ - the distance from the point "a" to the axis of rotation of the support wheel and turbodisk, m;

h ₄ - the distance from point "a" to the fulcrum of the press wheel, m;

Given the permissible values of the forces acting on the support and rolling wheels, determining the values of the forces acting on the coulter, and the known gravity of the sowing section, it is possible to determine according to the formula (3) with the known parameters of the coulter the value of the spring pre-compression force F in the form:

where M ₀ is the moment from known forces, kN / m;

h 'is the value of the preliminary compression of the spring, m;

Then, with the known spring stiffness "c", it is possible to determine the amount of pre-compression of the spring h 'in the form

which provides the work of the sowing section with the implementation of agricultural requirements.

When installing the spring according to the prototype in the abcd parallelogram suspension device, the shoulder l ₁ relative to the point "a" decreases, and with a limited length and pitch of the spring, the required value h 'also decreases, which makes it necessary to increase the stiffness of the spring "c ₁ " and reduces the copying of the relief of the field surface and reduces the stability of the coulter over the depth of sowing.

Thus, the performed power calculation shows that installing the compression spring vertically in the proposed design provides the best copying of the relief of the field surface due to the possibility of choosing the spring parameters (length, pitch, rigidity) and improves the coulter travel stability along the sowing depth.

The sowing section operates as follows. The housing 4 of the seed section using a parallelogram suspension device 1 is attached to the frame of the gun. In the process, the compression spring 2, installed in the rod 24, presses the housing 4 together with the opener 16, supporting 6 and rolling 8 wheels to the field surface, the compression ratio of which is regulated by nut 3. The depth of the opener 16 is regulated by changing the length of the rod 14 with the adjusting knob 15. The change in the pressure of the press wheel 8 to the soil after the passage of the coulter 16 is regulated by rearranging the axis of attachment of the rod 14 into the holes 21 or 22 of the brackets 13 and 12.

Depending on the set depth of sowing seeds and the _{backside is} regulated in height by the position of the dumpers 25, by rearranging them in the openings 26 of the coulter rack 16. (Fig. 2.). The depth of the coulters "a" is regulated by changing the length of the rod 14 using the handle 15. (Fig. 1). The press wheel 8 has the shape of a groove formed by dumpers and rolls the soil over the seeds, creating contact between the seeds and the soil and compacts the furrow wall, preventing the soil from shedding into the groove (Fig. 2)

Turbo-disk 5, installed in front of the coulter, forms a groove equal to the width of the coulter rack 16, and protects the furrow walls from soil breakouts when working on solid soils.

The introduction of the sowing section into production will ensure the sowing of any grain, industrial and fodder crops to a predetermined depth due to better copying of the relief of the field surface, installation of dumpers and turbo discs, rolling the soil along the trail of the coulter in accordance with the selected method of sowing and will allow to obtain a high-quality furrow without tearing and shedding soil, which will ensure friendly seedlings, the full use of available moisture in the soil with the efficient use of fertilizers and, ultimately, increased crop yields cultures.

Claims (3)

1. The sowing section for sowing seeds of agricultural crops, consisting of a housing with a parallelogram suspension device, with an arm mounting the sowing section to the seeder frame, a compression spring, a support wheel aligned on an axis with a circular knife, and a press wheel, which are interconnected adjustable in the length of the traction and make up a four-link mechanism with the lower part of the body of the sowing section, on the brackets of which holes are made to regulate the compression force of the press wheel on the soil, and in the lower part to openings of the sowing section are made holes for installation through the attachment elements of interchangeable openers, while double-disc, anchor with one- and two-line sowing seeds, keeled and paw openers are used as interchangeable openers, and the press wheel, depending on the type of opener, has the width and shape of the rim equal to the width and shape of the strip of the selected method of sowing, characterized in that the housing of the sowing section at the level of its center of gravity is connected to the bracket for attaching the sowing section to the frame through a rod installed vertically disposed therein with a compression spring with adjustable pre-compression value depending on soil conditions, length, pitch and stiffness, providing a surface relief copying field and compacting the soil with a certain force on the supporting and closing wheels. 2. The sowing section according to claim 1, characterized in that for sowing seeds in dry periods in the moist soil layer to a greater depth, the headers are mounted on both sides of the coulter with height-adjustable dumpers on both sides, forming grooves of a triangular shape above the required seed placement depth. 3. The sowing section according to claim 1, characterized in that a turbo disc is installed in front of the coulter, forming a groove equal to the width of the rack.

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