RU204661U1 - SEEDING SECTION FOR SOWING SEEDS OF AGRICULTURAL CROPS - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to sowing sections for sowing seeds of grain, fodder and industrial crops in various ways. The sowing section consists of a body with a parallelogram suspension device, with a bracket for attaching the sowing section to the frame of the tillage part of the seeding complex, a supporting wheel on an axle with a disk knife or turbo disk, and a press wheel, which are interconnected by a length-adjustable thrust and form a four-link mechanism with the lower part of the seeding section housing, on the brackets of which there are holes to regulate the compression force of the press wheel on the soil, and in the lower part of the housing of the sowing section, holes are made for installation through the fastening elements of replaceable openers, while double-disc openers are used as replaceable openers; anchor - with the possibility of mounting on a coulter post on both sides of the dumpers, adjustable in height, forming triangular grooves above the required seeding depth, keeled and paw openers, and the press wheel, depending on the type of opener used, has the width and shape of the rim equal to the width and the shape of the strip of the selected sowing method. The body of the seeding section at the level of its center of gravity is connected to the bracket for attaching the seeding section to the frame through a hydraulic cylinder installed vertically, the constant compression force of which, depending on the soil properties, unevenness of the field surface relief, the seeding depth and the speed of the unit, is regulated by a hydraulic unit installed on the tillage unit of the sowing complex, to ensure the copying of the relief of the field surface and the consolidation of the soil with a certain effort on the support and press wheels. oil pressure by means of a bypass valve manually or electrically - through a monitor for controlling the value of oil pressure in the working channel of the hydraulic cylinders installed in the tractor cab, a toggle switch for controlling the solenoid valve of the hydraulic unit a, and the value of the oil pressure in the working channel of the hydraulic cylinders is controlled through a pressure gauge installed with a mechanical method of regulation directly on the body of the hydraulic unit, and with an electric one - mounted in a control monitor. its length is made of holes, the distance between which corresponds to the distance between the holes made on the rack, providing the ability to move the coulters forward or backward, depending on the requirements for the sowing depth of the sown crop. The introduction of the sowing section into production will ensure the sowing of any grain, industrial and forage crops at a given depth due to better copying of the relief of the field surface, will increase the productivity of the seeding complex.

Description

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

Known seeding section according to patent No. 192232 (IPC А01С 7/00 publ. 09.09.2019. Bull. No. 25), consisting of a body with a parallelogram suspension device with a bracket for attaching the seeding section to the frame of the seeding complex, a compression spring, a support wheel combined on axles with a disk knife, and a press wheel, which are interconnected by a traction adjustable in length and make up a four-link mechanism with the lower part of the seeding section housing, on the brackets of which there are holes for adjusting the compression force of the pressing wheel on the soil, and in the lower part of the seeding section housing holes for installation through the fastening elements of interchangeable openers, while double-disc openers, anchor with one- and two-line sowing of seeds, keeled and paw openers are used as replaceable openers, and the press wheel, depending on the type of opener used, has the width and shape of the rim equal to the width and the strip shape of the selected sowing method.

The disadvantages of this sowing section are insufficient copying of the field surface relief due to the small length, pitch and stiffness of the compression spring installed in the parallelogram suspension device, as well as the impossibility of sowing to great depths due to soil shedding into the grooves and the formation of soil breakouts behind the coulter track on on hard soils due to a mismatch between the disc coulter width and the coulter shank.

Closest to the claimed sowing section is the sowing section for sowing agricultural crops patent No. 197076 (IPC А01С 7/00 publ. 03/27/2020. Bulletin No. 9), consisting of a body with a parallelogram suspension device with a bracket for attaching the seeding section to the frame of the seeding complex , compression springs, a support wheel combined on an axle with a disc knife, and a press wheel, which are interconnected by a length-adjustable thrust and form a four-link mechanism with the lower part of the seeding section housing, 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 of the housing of the sowing section holes are made for installation through the fastening elements of replaceable openers, while double-disc openers, anchor with one- and two-row sowing of seeds, keeled and paw openers are used as replaceable openers, and the press wheel, depending on the type of opener used has the width and shape of the rim equal to shi the shape and shape of the strip of the selected sowing method, while, to improve the copying of the surface relief of the field, the body of the seeding section at the level of its center of gravity is connected to the bracket for attaching the seeding section to the frame through a rod installed vertically with a compression spring located in it with an adjustable pre-compression value depending on on the condition of the soil, length, step and rigidity, ensuring copying of the relief of the field surface and consolidation of the soil with a certain effort on the support and press wheels. For sowing seeds in dry periods in a wet layer of soil to a great depth on the coulter post, on both sides, there are plows, adjustable in height due to their rearrangement into the holes made in the post, and forming triangular grooves above the required seeding depth depending on the depth the location of the wet soil layer. In addition, to eliminate soil breakouts when sowing on hard soils, a turbo disk is installed as a disk knife, which forms a groove with a width equal to the width of the rack.

The disadvantage of the prototype is the high labor intensity of adjusting the spring pre-compression force on all openers (48-64 pcs.) When changing soil properties and sowing depth, as well as the ability to install replaceable openers in only one middle position.

The task of the utility model is to ensure the sowing of any grain, industrial and fodder crops at a given depth due to better copying of the field surface relief, reducing the labor intensity of adjusting the force of the pre-compression of the openers by group regulation of the force of the coulter pressure by the hydraulic unit with the hydraulic cylinders and ensuring the possibility of adjusting the stability of the opener travel along the seeding depth by moving the coulters along the holes made on the body of the sowing section.

The task is achieved in the following way. In the sowing section for sowing agricultural crops, consisting of a body with a parallelogram suspension device, with a bracket for attaching the seeding section to the frame of the tillage part of the seeding complex, the body of the seeding section at the level of its center of gravity is connected to the bracket for attaching the seeding section to the frame through a compression mechanism installed vertically; a support wheel combined on an axle with a circular knife or turbo disk and a press wheel, which are interconnected by a length-adjustable traction and form a four-link mechanism with the lower part of the seeding section housing, 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 of the housing of the sowing section has holes for installation through the fastening elements of replaceable openers; double-disc openers are used as replaceable openers; anchor with the possibility of mounting on the coulter rack on both sides of the dumpers, adjustable in height, forming triangular grooves above the required seeding depth; keeled and paw openers, and the press wheel, depending on the type of opener used, has the width and shape of the rim equal to the width and shape of the strip of the selected sowing method, in contrast to the prototype as a compression mechanism connecting the body of the sowing section at the level of its center of gravity with the mounting bracket of the seeding section to the frame, a hydraulic cylinder is also used, which is also installed vertically, the constant compression force of which, depending on the properties of the soil, unevenness of the surface of the field, the seeding depth and the speed of the unit, is regulated by a hydraulic unit installed on the tillage part of the seeding complex to ensure the copying of the relief of the field surface and rolling the soil with a certain effort on the support and press wheels.

The hydraulic unit, which provides a constant pressing force of all the coulters of the seeding complex by the hydraulic cylinders of the seeding section and regulates the oil pressure in the working channel of the hydraulic cylinders, is made in the following versions: with mechanical regulation of the oil pressure using the bypass valve manually or electrically through the monitor for controlling the oil pressure value in the working channel of the hydraulic cylinders , installed in the tractor cab, by a toggle switch for controlling the valve body solenoid valve, and the oil pressure in the working channel of the hydraulic cylinders is controlled through a pressure gauge installed, with a mechanical method of regulation, directly on the body of the valve body, and with an electric one, mounted in a control monitor.

To regulate the stability of the coulter stroke along the seeding depth, holes are made in the lower part of the sowing section body along its entire length, the distance between which corresponds to the distance between the holes made on the rack, which provides the ability to move the coulters forward or backward, depending on the requirements for the sowing depth of the sown crop ...

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

Installation of the hydraulic cylinder vertically at the level of the center of gravity of the seeding section, the constant pressing force of which, and, consequently, the pressing force of all openers of the seeding unit, regulated by the hydraulic unit by changing the oil pressure in the working channel of the hydraulic cylinders mechanically using the bypass valve manually or electrically via the control switch control monitor by means of an electrovalve of the hydraulic unit from the tractor cab, provides copying of the field surface relief and soil compaction with a certain constant force on the support and press wheels, and also provides a specified seeding depth with deviations within the permissible agrorequirements limits.

The stability of the coulter stroke along the seeding depth in the proposed sowing section depends on the location of the coulter installation: the closer the coulter is located to the support wheel, the better the coulter follows the field surface relief, the better the coulter stroke stability along the sowing depth and more even germination, especially for small-seeded crops, sown at shallow depth.

The offered sowing section is installed on all types of seeders with mechanical or pneumatic sowing of seeds.

FIG. 1 shows the sowing section (side view).

FIG. 2 shows the control diagram of the valve body.

The sowing section (Fig. 1) consists of a housing 1, which is connected to the frame of the tillage part of the seeding complex through a parallelogram suspension device 2; the housing 1 of the seeding section at the level of its center of gravity is connected to the bracket 3 for attaching the seeding section to the frame through the hydraulic cylinder 4, installed vertically; a flat disk or turbo disk 5 and a support wheel 6, located on a common axis of the rack 7; press wheel 8 with rack 9. Support 6 and press wheel 8 are equipped with scrapers 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 adjusted by the handle 15. The rod 14 serves to adjust the depth of the coulter 16. The coulter 16 is attached to the housing 1 of the seeding section through the main bolt 17 and shear bolt 18, which serves to protect the opener 16 from breakage when hitting an obstacle. A branch pipe 19 is located behind the stand of the opener 16, which places seeds and fertilizers on the seedbed formed by the opener 16.

The sowing section is designed for sowing seeds of grain, industrial and forage crops on stubble and on the treated background. For sowing these crops in various ways, in place of the opener 16 (Fig. 1), replaceable openers are installed: one and two-disc openers, anchor with single-line sowing of seeds, anchor with two-line seed sowing, keeled and paw openers. The anchor openers for the formation of a seedbed for seeds are equipped with an arm 20, which compacts the crumbling soil after the passage of the openers, as well as with plows for sowing to great depths.

The positive effect of the installation of the hydraulic cylinder 4 (Fig. 1 and 2), located vertically, is as follows. During the operation of the seeding complex, in fields with different soil properties and the amount of unevenness of the surface relief of the field, to ensure the stability of the coulter stroke along the sowing depth, it is necessary to adjust the value of the preliminary compression of the coulters. In the prototype, the compression of the springs of each opener (their number in the seeding complex is 48-64 pcs.) Is done manually and requires, as the timing shows, from 1.5 to 2 hours of time. In addition, when the sowing unit moves over unevenness in the surface of the field, the force of compression of the coulters from the side of the springs changes, which leads to a change in the depth of travel of the coulter. When installing the hydraulic cylinders, the force of pressing the coulters is kept constant, the value of which is adjusted by means of the hydraulic unit 21, installed on the middle section of the tillage part of the seeding complex, mechanically or electrically, while the hydraulic unit has two versions (Fig. 2). The first embodiment is a mechanical valve body, containing a housing 31, in which a bypass valve with a valve 22 and a pressure gauge 24 are mounted, where the working fluid from the tractor hydraulic system through channel 23 under pressure Ro enters the valve body 21 to the bypass valve with valve 22, which bypasses the working fluid into the control channel of the hydraulic cylinders pressing under the required pressure P ₁ to create the pressing force F. The value of the pressure P _{1 of the} working fluid is controlled by the pressure gauge 24 and is manually adjusted by the valve 22 of the bypass channel. Excess working fluid from the bypass valve enters the drain channel 25, where the pressure is Pc. The second embodiment is an electric hydraulic unit containing a housing 31, where a pressure sensor 29, an electrovalve 27, a control unit 26 installed in the tractor cab are mounted, with a toggle switch 28 for regulating the pressure in the working channel of the hydraulic cylinders through the solenoid valve 27. The pressure of the working fluid P ₁ in the channel of the hydraulic cylinders is regulated from the tractor cab by the control unit 26 through the solenoid valve 27 by means of the toggle switch 28 and is controlled through the pressure sensor 29 by the pressure gauge 30 without wasting time. Similarly to the first option, excess working fluid flows into the drain channel 25.

The value of the working pressure P ₁ in the channel of the hydraulic cylinders is determined by the dependence:

where F is the required compression force, kN,

S is the cross-sectional area of the hydraulic cylinder piston, m ² .

The force of compaction of the coulters F when the support wheel moves over the unevenness of the field relief and changes in the properties of the soil at a constant pressure of the working fluid P ₁ remains constant, which ensures a constant value of the coulter travel depth.

The positive effect of changing the location of the coulters on the body of the sowing section is as follows (Fig. 1). In the process of work, the change in the sowing depth Δa (t) depends on the size of the unevenness of the relief of the field surface under the support wheels Z _nn (t), the amount of unevenness along the trail of the opener after the passage of the press wheel Z _nk (t), the distance L between the support and press wheels and the distances L ₁ and L ₂ from the location of the opener to the support and press wheels and is determined by the formula:

where Δa (t) is the change in sowing depth during operation, cm;

L is the distance between the supporting and pressing wheels, m;

L ₁ and L ₂ - distances from the location of the opener to the support and press wheels, m;

Z _nn (t) - the value of the unevenness of the surface relief of the field under the support wheels, cm;

Z _pk (t) - the amount of unevenness along the trail of the opener after the passage of the press wheel, see.

Since the press wheel moves on loose crumbling soil, then Znk (t) can be taken equal to zero, then

According to the formula (3) and (Fig. 1), it follows that the less L ₁ , the less Δa (t), that is, when the opener approaches the support wheel, the value of the change in the set sowing depth a _back decreases and approaches zero.

In this regard, with a known surface relief of the field Z _nn (t) and permissible values of the deviation of the sowing depth for various crops, it is possible to adjust the location of the opener by moving it along the holes on the body of the sowing section.

The sowing section works as follows. The housing 1 of the seeding section is connected to the frame of the implement using a parallelogram suspension device 2. During operation, the hydraulic cylinder 4 (Fig. 1) presses the body 1 together with the opener 16, the support 6 and the press wheels 8 to the field surface, the compression ratio of which is adjusted by the hydraulic unit 21 mechanically (manually) or electrically from the tractor cab, as described above. The depth of travel of the opener 16 is adjusted by changing the length of the rod 14 with the adjusting knob 15. The change in the value of the pressure of the press wheel 8 on the soil after the passage of the opener 16 is adjusted by rearranging the axis of attachment of the rod 14 in the holes of the brackets 13 and 12. Depending on the sown crop, the type of opener is selected and set to position in the holes on the body of the sowing section, ensuring the fulfillment of agricultural requirements for the sowing depth of a given crop.

The introduction of the sowing section into production will ensure the sowing of any grain, industrial and forage crops at a given depth due to better copying of the field surface relief, in addition, the installation of hydraulic cylinders instead of springs will reduce the time for adjusting the degree of compression of the openers depending on the soil condition, sowing depth and the speed of the unit practically to zero, which will increase the productivity of the seeding complex.

Claims (3)

1. Sowing section for sowing seeds of agricultural crops, consisting of a body with a parallelogram suspension device, with a bracket for attaching the seeding section to the frame of the tillage part of the seeding complex, while the body of the seeding section at the level of the center of gravity is connected to the bracket for attaching the seeding section to the frame through a compression mechanism installed vertically; support wheel and press wheel, which are interconnected by a length-adjustable linkage and form a four-link mechanism with the lower part of the seeding section housing, on the brackets of which holes are made to adjust the compression force of the pressing wheel on the soil, and holes for installation are made in the lower part of the seeding section housing through the fastening elements of replaceable openers, while double-disc openers are used as replaceable openers; anchor - with the possibility of mounting on the coulter post on both sides of the dumpers, adjustable in height, forming triangular grooves above the required seeding depth; keeled and paw openers, and the press wheel, depending on the type of opener used, has the width and shape of the rim equal to the width and shape of the strip of the selected sowing method, characterized in that as a compression mechanism connecting the body of the sowing section at the level of its center of gravity with the mounting bracket of the seeding section to the frame, a hydraulic cylinder is also used, which is also installed vertically, the constant compression force of which, depending on the properties of the soil, unevenness of the surface of the field, the seeding depth and the speed of the unit, is regulated by a hydraulic unit installed on the tillage part of the seeding complex to ensure the copying of the relief of the field surface and rolling the soil with a certain constant force on the support and press wheels. 2. The sowing section according to claim 1, characterized in that the hydraulic unit, which provides a constant pressing force of all the coulters of the seeding complex by the hydraulic cylinders of the sowing section and regulates the oil pressure in the working channel of the hydraulic cylinders, is performed in the following versions: with mechanical regulation of the oil pressure using the bypass valve manually or electrically - through a monitor for controlling the value of oil pressure in the working channel of the hydraulic cylinders installed in the tractor cab, a toggle switch for controlling the valve body solenoid valve, and the value of oil pressure in the working channel of the hydraulic cylinders is monitored through a pressure gauge installed with a mechanical method of regulation directly on the body of the valve body, and with an electric one - built into the control monitor. 3. The sowing section according to claim 1, characterized in that, to regulate the stability of the coulter travel along the depth of seeding, holes are made in the lower part of the sowing section housing along its entire length, the distance between which corresponds to the distance between the holes made on the stand, providing the ability to move coulters forward or backward depending on the requirements for the sowing depth of the sown crop.

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