RU2473198C1 - Wide-coverage sowing unit - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: sowing unit comprises a frame with a trailer, mounted on pneumatic wheels, the two-section hopper for seeds and mineral fertilisers mounted on the frame, the frame of the sowing machine itself comprising of the middle part and independent lateral wings equipped with wheels. The frame with the trailer is made in the form of a bridge frame with the trailer. From below of the bridge frame with the trailer through the parallelogram mechanism the middle part of the frame of the sowing machine itself is fixed on transport and technological wheels. Through finger-axes on the frame of the sowing machine itself the left and right independent wings are mounted. And the independent wings are moved mechanically from working to transport position and back and equipped with transport and technological wheels and self-aligning transport and technological wheels with brakes. The sowing machine wings are connected to the front part of the bridge frame with guylines. On the frame of the sowing machine itself the tine ploughshares are mounted, as well as working bodies for sowing, then toothed harrows or leveling and press wheels. Between the tine ploughshares the disk-shares can be mounted for separating mineral fertiliser sowing. On the bridge frame over the middle part of the sowing machine itself and on the wings the seed and mineral fertiliser boxes are mounted with the sowing devices, which driving is carried out through the ball variators from the transport and technological wheels. Feeding of seeds and mineral fertilisers from the hopper to the appropriate boxes is carried out through flexible screw augers. And the distribution of seeds and mineral fertilisers to the boxes located on the bridge frame is carried out by screws with winding opposite from the middle, and in the boxes located on the wings - by conventional screws. Drive of all the screws is carried out by hydraulic motors. Movement of seeds and mineral fertilisers of the seed and mineral fertiliser boxes of the middle part of the sowing machine itself to the appropriate boxes of the wings is carried out through rotary telescopic stacks and to the ploughshares through telescopic drill tubes.EFFECT: invention has a simplified design and improved maneuverability, it is compact when transportation, and enables to reduce seed damage and increase the uniformity of their sowing.8 cl, 12 dwg

Description

The invention relates to the field of agricultural engineering, and in particular to machines for sowing grain and leguminous crops.

Known seeder containing a frame, support wheels, a hopper with sowing devices, openers and seed tubes RF patent No. 2081542.

The disadvantages of this seeder are the small capacity of the hopper for seeds and fertilizers, as well as the small working width. This leads to low productivity when sowing. To increase productivity when sowing from this type of seeders with the help of special couplings, wide-grip aggregates are formed, which significantly increase productivity in sowing, but the downtime of such aggregates still remains great when refueling with seeds and fat. In addition, when moving from one field to another, often due to the large width of the sowing unit, it has to be disbanded and transported to the new sowing field in parts, where to make up the unit again. A significant amount of time is spent on this, which is a big drawback during the sowing period.

An analogue of the inventive seeder is a FASTLINER wide-seeder seeder with pneumatic seeding of seeds and fertilizers, manufactured by KUHN (www.Kuhn.ru). The FASTLINER seeder includes a trailer frame mounted on pneumatic wheels and a seed and fertilizer hopper mounted on the frame, a pneumatic sowing system consisting of a fan, metering unit, flexible grain and fertilizer pipelines transporting seeds and fertilizers to the dispensers, where they are divided into streams and served in the seed and fertilizer pipelines, directing them into the appropriate openers attached to the frame by means of leashes with a parallelogram design. In front of the coulters, working bodies for pre-sowing soil preparation are mounted on the frame, including serrated or wavy disks, rolling wheels, and behind the coulters mounted disks and closing harrows.

The prototype for the proposed wide-seeding sowing unit can be a Maxim II wide-air seeder manufactured by Morris (www.morris-mdustries), including a frame with a trailer mounted on pneumatic wheels, a 2-section seed and fertilizer hopper mounted on the frame , a pneumatic system for sowing seeds and fat, including a fan, a dispenser and flexible pneumatic piping. The seeder frame itself (via a trailer) is attached to the frame of the hopper, consisting of the middle part and independent lateral lifting wings equipped with wheels. On the frame of the seeder itself, paw or disk coulters are mounted, connected by flexible grain and fertilizer ducts through distributors to the grain and fertilizer ducts of the seeder hopper. Behind the coulters on the frame of the seeder are actually mounted tooth harrows, then packer rollers. Between the paw coulters, additional disc coulters can be installed for separate, deeper than sowing seeds, introducing fertilizers into the soil.

Common disadvantages of the analogue and prototype are:

- pneumatic transportation and distribution of seeds and fertilizers, which occurs at high speeds, leading to the collision of seeds and fertilizers against each other, as well as on the walls of grain and fertilizer pipelines, especially when the direction of movement of their flows changes, the impact force reaches such a value that cracks appear in the grains until the seeds are beaten off, for this reason, the seeding rate in such seeders is increased by 5-15%;

- large length, greatly limiting the maneuverability of the sowing units especially when cornering;

- high unevenness of sowing seeds, on the coulters it reaches 5% or more.

The aim of the invention is:

- the exclusion of the system of pneumatic transportation and distribution of seeds and fertilizers in wide-seeding sowing units as systems that lead to high injury to seeds and uneven sowing;

- increase the maneuverability of wide-seeding sowing units by reducing their length;

- ensuring that the wings of the unit are folded back, at which a transport train is formed, allowing it to be transported along highways;

- simplification of the design of wide-seeding sowing units.

This goal is achieved by the fact that in the well-known wide-seeding sowing unit, including a frame with a trailer mounted on pneumatic wheels, a two-section hopper for seeds and fertilizers mounted on the frame, a seeder frame consisting of a middle part and independent side wings equipped with wheels. Paw openers are mounted on the seeder frame, then tooth harrows or packer rollers. Between the opener coulters can be installed disc coulters for separate seeding of fat.

According to the invention, the trailer frame is made in the form of a bridge frame with a trailer mounted on two pneumatic transport wheels, on which:

- on one side of the transport pneumatic wheels (from the side of the trailer) a two-section hopper for seeds and fertilizers is mounted;

- on the other side (from the bottom of the bridge frame of the sowing unit) is fixed by means of a parallelogram mechanism, the middle part of the frame of the seeder itself.

The seeder frame itself consists of:

- from the front and rear bars connected by transverse bars;

- at the ends of the front beam, the forks of the hinges with horizontal axes of rotation are mounted and two symmetrically located brackets are mounted in which the transport and technological wheels are installed;

- at the ends of the rear beam (which is shorter than the front), hinges forks with vertical axes of rotation are mounted, and in the middle of the rear beam is fixed a bracket in which the transport and technological wheel is also installed;

- all transport and technological wheels are equipped with screw mechanisms for adjusting the depth of work of the working bodies and hydraulic cylinders for transferring them from the working position to the transport and vice versa;

- on the corresponding forks of the hinges of the front and rear bars of the frame of the seeder itself, the left and right wings are mounted by means of fingers and axles.

The left and right wings of the frame of the seeder itself also consist of:

- from the front and rear bars connected rigidly by transverse bars;

- brackets are mounted on the front and rear wings of the wings, in which self-mounted transport and technological wheels are installed, also equipped with screw mechanisms for adjusting the working depth of the working bodies and hydraulic cylinders for transferring them from the working position to the transport one and vice versa;

- moreover, the wheels mounted on the edges of the wings of the wings are equipped with clamps that allow them to be fixed at an angle of 1-3 ° turned inward to the width of the seed unit in the direction of its movement;

- the rear wings of the wings are equipped with horizontal hinges with clamps, the axis of rotation of which correspond to the axes of rotation of the hinges connecting the front beam of the seeder frame itself with the corresponding wings of the wings;

- the front wing bars of the extreme ends by means of stretch marks are connected to the front of the bridge frame of the sowing unit.

Stretch marks are made of 2 parts:

- front - short, which at one end are fixedly mounted on the bridge frame, and on the second - traps, latches with springs and latches latches are mounted;

- rear - long, in which the front ends are movably connected to the U-shaped leads, also mounted movably on the bridge frame, and the rear ends are also movably connected to the corresponding front wings of the sowing unit.

With latches with springs fixed by clamps, open hinge forks with horizontal axes of rotation of the front bars and horizontal hinges of the rear wing bars fixed by clamps, forward movement will translate the sowing unit into transport position, which is fixed by a rear extension connecting the extreme ends of the front wings of the sowing unit.

When the rear stretch is removed and the transport technology wheels (located along the edges of the wings of the sowing unit) are locked with latches at an angle of 1-3 °, the backward movement allows the sowing unit to be moved to the working position, which is then fixed with latches with springs, setting the axle fingers in hinges with horizontal axes of rotation of the front bars and the removal of the stoppers from the horizontal hinges of the rear bars of the wings.

On the frame of the seeder with wings, working bodies can be installed:

- for pre-sowing preparation of the soil - tooth or screw disks, cultivating paws, harrows, leveling rollers;

- then for sowing - single-disk and double-disk openers, paw openers, as well as anchor openers by means of parallelogram or conventional spring leashes, ensuring maximum copying of the surface of the field to be sown. Behind them can be installed leveling harrows, packer rollers or screw rollers installed at an angle of 102-105 ° to the direction of movement of the unit.

The parallelogram mechanism for connecting the middle part of the seeder frame itself to the seeder unit bridge frame is made in the form of a pair of levers, the upper ends of which are movably fixed below the seeder unit bridge frame, so that when the frame of the seeder itself is moved as much as possible during copying the surface of the sowing field, it does not touch in front of the stationary parts of the seed unit. The lower ends of the above levers are also movably fixed to the bars of the middle part of the frame of the seeder itself by means of ball joints.

On the bridge frame of the sowing unit, above the middle part of the frame of the seeder, the seed and fertilizer boxes with sowing devices in the lower part are connected to the entire width of the bridge frame, connected by telescopic seed tubes and fertilizer tubes to the corresponding openers. The drive of the sowing apparatus is carried out from the transport and technological wheels of the middle part of the frame of the seeder itself through ball variators.

The chambers of the hopper for seeds and fertilizers are connected through the corresponding screw flexible screws to the middle of the seed and fertilizer boxes, in which the screws are mounted in the upper parts with the opposite winding from the middle, distributing seeds and fertilizers along the length of the boxes. In the upper parts of the side walls of the seed and fat boxes, at the level of the lower edges of the distribution screws, there are holes on which rotary telescopic stacks are installed, which lower ends enter the upper parts of the corresponding covers of the seed and fat boxes mounted on the left and right wings of the middle part of the frame seeders themselves, in the upper parts of which there are augers that distribute seeds and tufts, respectively, along the length of these boxes, where they are fed by seed devices to the seed and pipelines guides them into plowshares, and the seeds and the soil tuks. The drive of the sowing apparatus is carried out from the transport-technological wheels of the wings of the seeder itself through ball variators.

All augers are driven by hydraulic motors.

When the sowing unit is transferred from the working position to the transport, the rotary telescopic stacks are folded and rotated to the upper position.

These differences are significant, since the installation on one bridge frame of a volumetric hopper for seeds and fertilizers, a wide-grip frame with working bodies for pre-sowing soil preparation, working bodies for sowing seeds and working bodies for sowing seed furrows and rolling crops, as well as mechanical transportation of seeds and fat allows you to:

- to exclude the system of pneumatic transportation of seeds and fertilizers in wide-spread sowing units from the hopper to the coulters with the appropriate metering devices and dispensers, which cause severe damage to the seeds up to the loss of the germ, which leads to the need to increase seeding rates from 5% to 15%;

- reduce the unevenness of sowing seeds to 0.5%;

to simplify the design and manufacturing technology of wide-spread sowing units;

- mount the entire wide-sowing sowing unit on one bridge frame;

- reduce the length of the unit, increase its maneuverability, especially when cornering and turning, to increase the speed at long hauls and sowing;

- ensure that the sowing wide-spreading unit is folded into the transport position with the design of a narrow compact, sufficiently rigid train, which allows it to be conveniently and quickly transported from one sown field to another not only by country roads, but also by highways.

The essence of the image is illustrated by drawings.

Figure 1 shows the sowing wide-spread unit, a top view in the working position; figure 2 is a top view in a transport position; figure 3 is a side view in a transport position; figure 4 shows a sowing wide-spread aggregate in a section, a side view without working bodies for presowing soil preparation; figure 5 - shows the sowing wide-spread unit in the context of the working bodies for presowing soil preparation; figure 6 shows the relative position of the seed boxes installed on the bridge frame of the sowing unit, and seed boxes installed on the left and right wings of the frame of the seeder itself (fertilizer boxes are not shown - they are located similarly); figure 7 shows the transport and technological wheel; on Fig shows a self-mounted transport and technological wheel.

The wide-seeding sowing unit consists of a bridge frame 1 with a trailer 2, supported by two pneumatic transport wheels 3. On the bridge frame 1, on one side of the pneumatic transport wheels 3, a two-section hopper 4 is installed on the side of the trailer 2, one section is for seeds, the second is for fertilizers . On the other side of the pneumatic transport wheels 3 on the bridge frame 1, the middle part of the frame of the seeder 6 itself, consisting of a front beam 7 and a rear beam 8, which is shorter than the front beam 7, connected by transverse bars, is fixed from below by means of a parallelogram mechanism 5. On the front beam 7, horizontal forks 9 and two brackets 10 located symmetrically are mounted at the edges. On the rear beam 8, forks 12 are also mounted along its edges, but with vertical axes, and a bracket 10 is fixed on its middle. Transport and technological wheels 11 are mounted in the brackets 10, with screw mechanisms for adjusting the working depth of the working bodies 13 and hydraulic units 14 from working position to transport and back. On the forks 9 and 12 of the middle part of the frame of the seeder 6 itself, the left 17 and right 18 wings are mounted using horizontal fingers-axles 15 and vertical fingers-axes 16, containing the front 19 and rear 20 bars of the wings. Brackets 21 are mounted on the front and rear wings of the wings 21 for self-mounted transport and technological wheels 22 with clamps 23 for setting the angle of 1-3 ° and the mechanism for adjusting the working depth of the working bodies 13, hydraulic cylinders 14. Horizontal hinges 24 are mounted on the rear bars of the 20 wings 17 and 18, coaxial with the horizontal hinges of the connection of the front bars 19 of the wings 17 and 18 with the front beam 7 of the middle part of the frame of the seeder itself 6. The hinges 24 are equipped with locking pins 25 used to provide translation sowing unit from transport to working position and vice versa, as well as for transportation. The extreme ends of the front bars 19 of the wings 17 and 18 are connected via braces 26 to the front of the bridge frame 1. Braces 26 consist of 2 parts of the front - short braces 27, some ends of which are rigidly fixed to the bridge frame 1, and traps 28 are located on the second and latches with springs and latches 29; and rear - long 30, in which the front ends are pivotally connected to the U-shaped leads 31 fixedly movable on the bridge frame 1, and the rear ends are movably fixed on the front bars 19 of the wings 17 and 18. On the middle part of the frame are the seeders 6 and the wings 17 on the left 17 and right 18 when sowing with pre-sowing preparation of the soil, working bodies for pre-sowing treatment 32 (needle, or screw disks or cultivating paws) are established, which loosen the soil to the depth of sowing. Next, the cultivating harrows 33 or packer rollers, followed by disk 35 or anchor coulters mounted on spring-loaded leashes 34. Behind the coulters there are again harrows with packer rollers or screw rollers 36 installed at an angle to the direction of movement, which carry out subsurface rolling of the soil over the seeds, and the surface soil layer is additionally crushed, fluffed and laid evenly on the field surface, which creates optimal conditions for soil accumulation moisture in the zone of seeds. When sowing without preliminary soil preparation, single-disk or paw openers 37 are installed on the middle part of the seeder 6 and the left 17 and right 18 wings. Moreover, the paw openers are installed using parallelogram leads 38, spring-loaded with springs, close-up harrows with rollers or screw rollers are installed behind the openers 36. Seed 39 and fat 40 boxes are installed over the middle part of the frame of the seeder 6 itself on the bridge frame 1, which, by means of screw flexible screws 41 and 42, are respectively connected to exchange and fertilizer chambers of the two-section hopper 4, which feed seeds and fertilizers respectively in the middle, upper parts of the seed 39 and fertilizer 40 boxes, where the distribution screws 43 and 44 are installed with the opposite winding from the middle, distributing seeds and fertilizers in boxes 39, 40, moving them to the side walls 45, in which holes are closed a little lower than these screws 43 and 44, which are closed by telescopic rotary stacks 46, feeding seeds and tuks, respectively, into the seed 47 and fat 48 boxes located on the left 17 and right 18 wings Rep actually drills frame 6 mounted slightly below the drawer 39 and 40. In boxes 47 and 48 are installed at the top of augers 49, TUKI distributing seeds and the length of the boxes before their filling. In the lower parts of boxes 39 and 40, as well as 47 and 48, sowing units 50 and 51 are located, which, through the telescopic seed tubes 52 for boxes 39 and 40, and for boxes 47 and 48, through the seed tubes 53, feed seeds and fertilizers into respective openers 35 and 37, which sow. The drive of the sowing apparatuses 50 and 51 is produced from the transport and technological wheels 11 of the seeder through ball variators (not shown), which establish the seeding rate. The drive of all the screws is carried out by hydraulic motors 54. To prevent the wings from spreading 17 and 18 during the transportation of the unit, a restrictive brace 55 is used that connects the ends of these wings to each other.

Sowing wide-spread unit operates as follows.

Before the start of sowing, it is installed on the edge of the field, the restrictive stretch 55 is removed, releasing the wings of the seeder itself, left 17 and right 18, then the self-aligning transport and technological wheels 22 located along the edges of the wings 17 and 18 of the sowing unit are fixed at 23 ° to 1 ° , after which they begin to move backward. As a result of the fact that the rear transport and technological wheels 22 of the wings 17 and 18 of the frame of the seeder 6 are set at an angle to the direction of movement, the wings 17 and 18 diverge, turning around the front, while the long parts 30 of the extension 26 driven by the lead 31 are sent to catchers 28 short parts 27 of the stretch marks 26, where they are latched with latches with springs 29 with free latches, then latches with springs 29 are fixed with latches. Self-aligning transport and technological wheels 22 are released from the latches 23, horizontal fingers-axles 15 are put in place, connecting the front bars 7 of the middle part of the frame of the actual seeder 6 and the front bars 19 of the wings 17 and 18, and the horizontal hinge 24 of the rear bars 20 of the wings 17 is released from fixing and 18, for this, the finger lock 25 is removed. The unit is deployed along the front, then the hydraulic cylinders 14 of the transport and technological wheels 11 and 22 move the unit to the working position, the rotary telescopic stacks 46 release give from the clamps, turn and lower into the windows of the corresponding seed 47 and fat 48 boxes. The compartments of the two-section bunker 4 are filled with grain and tuks, then they include flexible screw screws 41 and 42, which feed grain and tuks into seed 39 and fertilizer 40 boxes, where the distribution screws 43 and 44, driven by hydraulic motors 54, supply seeds and tuks to side walls 45 through openings in which seeds and tuks fall into telescopic rotary stacks 46, which direct them to the corresponding seed 47 and fat 48 boxes of the left 17 and right 18 wings of the seeder, where distribution screws 49 rotated by hydraulic motors 5 4, materials are distributed in these boxes. Upon receipt of a signal that the seed 39 and 47 and fertilizer 40 and 48 boxes are full, the unit is ready for operation, the tractor is turned on and the sowing process begins, while the rotation from the transport and technological wheels by 11 chain gears is transmitted by a ball variator (not shown), which controls the number transmission revolutions, then the rotation is also transmitted by chain gears to the shafts of seed and fertilizer sowing machines 50 and 51, where the metering coils through the gap between them and the control valves are fed into the telescopic the seed ducts 52 and the simple seed ducts 53, which direct them to the respective openers 35 or 37, sowing seeds and fat in the soil.

After the work is completed, the wide-seeding sowing unit is transferred to the transport position in the reverse order of preparation for work.

Claims (8)

1. A wide-seeding sowing unit containing a frame with a trailer mounted on pneumatic wheels, a two-section seed and fertilizer hopper mounted on the frame, a seeder frame itself, consisting of a middle part and independent side wings equipped with wheels, and on the seeder frame there are paw openers , then tooth harrows or packer rollers, and disk coulters for separate seeding of fat can be installed between the opener coulters, characterized in that the frame with the trailer is made in the form of a bridge frames with a trailer, while the bottom of the bridge frame with the trailer is fixed by means of a parallelogram mechanism to the middle part of the seeder frame itself on the transport and technological wheels, and the left and right independent wings are mounted on the seeder frame with the help of finger axles, and the independent wings are transferred from the working position to transport and vice versa mechanically and equipped with transport and technological wheels and self-mounted transport and technological wheels with clamps, in addition, the wings were sown and connected to the front of the bridge frame with braces, and on the seeder frame the working bodies for pre-sowing tillage, for sowing, leveling and rolling rollers are installed, while seed and fat boxes with sowing boxes are installed on the bridge frame above the middle part of the seeder itself apparatuses, the drive of which is carried out through ball variators from transport-technological wheels, and the supply of seeds and fertilizers from hoppers to the corresponding boxes is carried out by flexible screw screws, and p the distribution of seeds and fat on the boxes located on the bridge frame is carried out by screws with a winding opposite from the middle, and in the boxes located on the wings by ordinary screws, in addition, all the screws are driven by hydraulic motors, and the movement of seeds and tuks from seed and fat boxes the middle part of the seeder itself in the corresponding wing boxes is carried out through rotary telescopic stacks and into the coulters through telescopic seed tubes. 2. The wide-sowing sowing unit according to claim 1, characterized in that the parallelogram mechanism for connecting the middle part of the seeder frame itself to the seeder unit bridge frame is made in the form of a pair of levers, the upper ends of which are movably fixed from the bottom of the seeder unit bridge in such a way that at the maximum possible when the frame of the seeder itself is copied in the process of copying the surface of the sown field, it does not touch in front of the stationary parts of the sowing unit located at the same time, while the lower ends of the above chaga are also movably fixed on the bars of the middle part of the frame of the seeder itself by means of ball joints. 3. The wide-seeding sowing unit according to claim 1, characterized in that the seeder frame itself consists of a front beam, at the ends of which hinge forks with horizontal axes of rotation are mounted, and a rear beam that is shorter than the front one, and hinge forks with vertical hinges are mounted axes of rotation, while the front and rear bars are interconnected by transverse bars. 4. The wide-seeding sowing unit according to claim 1, characterized in that the left and right wings of the seeder frame itself consist of front and rear bars connected by transverse bars, the rear wings of the wings being equipped with horizontal hinges with locks, the rotation axes of which correspond to the rotation axes of the hinges, connecting the front beam of the middle part of the frame of the seeder itself with the corresponding wing bars. 5. The wide-seeding sowing unit according to claim 1, characterized in that the stretch marks are made of two parts: the front short ones, which are fixed at one end on the bridge frame, and the catchers, latches with springs and latches latches are mounted on the second, and the rear ones are long of which the front ends are movably connected to the U-shaped leashes fixed movably on the bridge frame, and the rear ends are also movably connected to the respective front wings of the wings of the seed unit. 6. The wide-sowing sowing unit according to claim 1, characterized in that the transport and technological wheels are equipped with screw mechanisms for adjusting the working depth of the working bodies and hydraulic cylinders for transferring the transport and technological wheels from the working position to the transport and vice versa. 7. The wide-seeding sowing unit according to claim 1, characterized in that the self-mounted transport and technological wheels mounted on the edges of the wings are equipped with clamps that allow them to be fixed at an angle of 1-3 °, turned inward of the width of the sowing unit in the direction of its movement, with transfer cylinders self-aligning transport and technological wheels from the transport position to the working one and vice versa, as well as by screw mechanisms for adjusting the depth of work of the working bodies. 8. The wide-sowing sowing unit according to claim 1, characterized in that the rotary telescopic stacks when the sowing unit is transferred from the operating state to the transport state are folded and rotated to the upper position.

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