RU2745094C1 - Precision sowing machine-cultivator for precision sowing - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to agricultural machine building, in particular, to soil cultivating sowing units with working elements intended for accurate sowing of seeds on stubble ground background and levelling of field surface with compaction of soil. Seeder-cultivator of accurate seeding includes sowing sections with lever opener coulters, seed hopper with seed ducts, supporting wheels, rear press-wheel coverers and chain drive of seeding unit, connected by seed pipes with duck couplers of ploughshares. Sowing machine-cultivator is additionally equipped with a bunker for fertilizers installed on the frame, which is connected by means of a dosing mechanism and seed drills with rows of ploughshares. Latter are mounted between support wheels and press-wheel coverers of rollers. Frame of sowing machine-cultivator is made in the form of central beam with hingedly connected to it right and left branches. Left and right thrust wheels are mounted on the frame front outlets. Pairs of press-wheel coverers are mounted on rear taps. Support wheels and wheels of press-wheel coverers are connected to the frame outlets by means of double-acting hydraulic cylinders. Wheels of each pair of press-wheel coverers are mounted on different axes, which are offset relative to each other in horizontal plane by 0.6–1.0 of wheel diameter.

EFFECT: invention will make it possible to increase reliability of work and uniformity of seeding depth.

8 cl, 11 dwg

Description

The invention relates to agricultural engineering, in particular, to soil-cultivating seeding units with working bodies designed for precise sowing of seeds on the stubble background of the earth and leveling the surface of the field with soil compaction.

Tilling the soil by plowing and loosening sometimes creates significant difficulties in retaining moisture in the soil and in preventing plants from exposing plants to high soil temperatures on warm sunny days of summer. It is enough to familiarize yourself with the example of high soil temperature given at the regional seminar of farmers of the Altai Territory in 2006, which shows that the temperature at the surface of the earth was 84 degrees Celsius. At this and even slightly lower soil temperature, plant development is impossible. At the same time, hundreds of cubic meters of water evaporate from the soil surface on an area of 1 hectare, after which there is not enough moisture with further crop growth and grain ripening.

Known seeding apparatus with a humidifier, see RF patent for utility model No. 74031 M. class. А01С 7/20. A sowing device with a humidifier, consisting of water and air hoses, a device in which the seeds are in a boiling "water-air environment", flow holes, sowing seed tubes, taps for supplying and adjusting water and air, a solution level control float, hingedly connected to the water crane, fine mesh located at the bottom of the apparatus, the cover of the apparatus.

The disadvantages of the known seeding apparatus include uneven sowing of seeds due to their sticking to the walls of the seed tubes and unpredictable ejection of seeds when compressed air is supplied. The moisture supplied when sowing seeds does not give a significant result with further plant growth. Not standardized in terms of the number of sowing seeds per unit area leads to thickening of crops and their gradual wilting.

Known more advanced seeder pa patent No. 2701105 - prototype. Precision beet seeder for environmentally friendly technology, characterized by the fact that it includes a frame on wheels with sowing units fixed on it, each of which contains a duckfoot to create a bed for seeds, trays for guiding toilet paper, one end of the roll of which is pressed against the rim a sowing wheel with a plate, a seed box - a hopper, one-sided shares covering the paper with soil, a soil leveler and a press roller, while the seeding wheel of each section is equipped with a guide wheel installed with it on the same axis, and closing devices that are installed inside the seeding wheel and are connected to its rim, and each of the sealing devices has a spring-loaded stem with a stop and a ball located at the end of the stem, and a pneumatic external filling cell for sucking seeds from the seed box, while the balls of the sealing devices are installed with the ability to move along the outer surface of the guide forest, which has a figured lowering for pushing seeds out of the cells of the closing apparatus with a rod that pierces the paper and embeds the seeds into the soil.

The disadvantages of the known seeder - the prototype can be attributed to low technological capabilities, including low reliability of the seeder associated with a possible breakage of the toilet paper tape and the subsequent stop of work, as well as the instability of the suction of a given amount of seeds from the seed box for seeding. In addition, the known seeder does not provide the same seeding depth of seeds, including with uneven soil and does not ensure the preservation of moisture in the soil and its required temperature.

The technical result of the proposed invention is to eliminate the shortcomings of the prototype, in particular to expand the technological capabilities of the seeder and improve the reliability of its operation while maintaining the uniform depth of sowing seeds.

The delivered technical result is achieved by using a combination of common features with the prototype, including sowing sections, with duckfoot plowshares, a seed hopper with seed pipes, support wheels that press the rear wheels of the rollers and a chain drive of the seeding apparatus, connected by seed pipes with lancet paws of the openers and new features, which include that the seeder-cultivator is additionally equipped with a fertilizer hopper mounted on the frame, connected by a metering mechanism and seed pipes with rows of openers mounted between the support wheels and the press wheels of the rollers, the frame of the seeder-cultivator is made in the form of a central beam with right and left outlets, on the front outlets of which the left and right support wheels are mounted, and on the rear outlets, pairs of press wheels are mounted, the support wheels and wheels of the press rollers are connected to the frame outlets using double-acting hydraulic cylinders, moreover, the wheels of each pair of press rollers are mounted on different axes, which are offset relative to each other in the horizontal plane by 0.6-1.0 wheel diameters.

Support wheels of the left and right sides can be made as single or double, mounted on one common axle.

The axles of each pair of press rollers are mounted using center beams mounted on the outlets and kinematically connected to a double-acting hydraulic cylinder.

к центральной балке равным 65-90 градусов.The outlets of the front support wheels pivotally mounted on the central beam are made at an angle

to the central beam equal to 65-90 degrees.

Arrow openers are made with the formation of the angle of divergence of the paws equal to 28-48 degrees.

The frame bends are made in the form of hollow tetrahedral beams.

The arrow-shaped paws of the second row of openers are made with overlapping of the tillage width by the paws of the first row of openers by 2-15% of the working width.

The hydraulic cylinders of the support and press wheels are connected by pipelines to the hydraulic system of the vehicle moving the seeder.

The novelty of the proposed seeder is the presence of an additional fertilizer hopper installed on the frame, connected by a metering mechanism and tubular seed pipes with rows of openers mounted between the support wheels and the press wheels of the rollers, the design of the seeder-cultivator frame in the form of a central beam with right and left outlets, installation on the front outlets of the left and right support wheels, and on the rear outlets, installation of pairs of press wheels, interconnection of support wheels and wheels of press rollers connected to the frame retractions using double-acting hydraulic cylinders and installation of wheels of each pair of press wheels on different axles , which are displaced relative to each other in the horizontal plane by 0.6-1.0 wheel diameters.

So, the presence of an additional fertilizer hopper installed on the frame, connected by means of a metering mechanism and tubular seed pipes with rows of lancet openers mounted between the support wheels and the press wheels of the rollers - allows, simultaneously with sowing seeds, to perform a starting application into the soil to the place of direct location of seeds of a given amount mineral fertilizers, which significantly expands the technological capabilities of the seeder-cultivator.

Implementation of the seeder-cultivator frame in the form of a central beam with right and left outlets pivotally connected to it, installation on the front outlets of the left and right support wheels, and on the rear outlets, installation of pairs of press rollers, the interconnection of support wheels and wheels of press rollers associated with the frame outlets with the help of double-acting hydraulic cylinders - provides uniform penetration of the openers into the soil and, accordingly, ensures the sowing of seeds at the same depth over the entire soil area. So, when the front, for example, the left wheel hits a bump, the wheel bend is pivotally attached to the central beam and the wheel is partially lifted, acting on the hydraulic fluid of the cylinder, and the seeder frame and its central beam remain in the same horizontal position. When leaving an obstacle, the hump, the wheel and the outlet slowly go down, without changing the horizontal position of the seeder frame and, accordingly, without changing the planting depth of the sown seeds. While maintaining the level of stubble cutting, the stresses arising from collision with obstacles and when processing soils with different densities are reduced, which increases the reliability of the seeder-cultivator.

Mounting the wheels of each pair of press rollers on different axles, which are displaced relative to each other in the horizontal plane by 0.6-1.0 wheel diameter - allows you to position the press wheels close to each other and thereby ensure a more thorough and high-quality soil compaction when it is rolled wheels of rollers ensuring coverage of each grain by the soil.

к центральной балке равным 65-90 градусов, выполнение сошников стрельчатыми с образованием угла расхождения лап равного 28-48 градусов, выполнение отводов рамы в виде пустотелых четырехгранных балок, перекрывание стрельчатыми лапами второго ряда сошников ширину обработки почвы лапами первого ряда сошников на 2,0-15% ширины обработки и связь гидравлических цилиндров опорных и прикатывающих колес при помощи трубопроводов с гидравлической системой транспортного средства перемещающего сеялку - являются признаками дополнительными, направленными на пояснение выполнения основных признаков и способствуют достижению поставленного предполагаемым изобретением технического результата.Signs of the implementation of the support wheels of the left and right sides, single or double, mounted on one common axle, installation of the axis of each pair of press rollers with center beams mounted on the outlets and kinematically connected to a double-acting hydraulic cylinder, installation of the front support wheels articulated on the central beam made at an angle

to the central beam equal to 65-90 degrees, the execution of the openers lancet with the formation of the angle of divergence of the paws equal to 28-48 degrees, the implementation of the frame bends in the form of hollow tetrahedral beams, the overlap of the second row of openers with the pointed tines; 15% of the working width and the connection of the hydraulic cylinders of the support and press wheels by means of pipelines with the hydraulic system of the vehicle moving the seeder are additional features aimed at explaining the implementation of the main features and contribute to the achievement of the technical result set by the proposed invention.

So, the installation of the front support wheels pivotally fixed on the central beam, made at an angle to the central beam equal to 65-90 degrees, reduces the effect of resistance forces when cutting the soil and when the front wheels hit obstacles, which contributes to an increase in the duration of maintenance-free operation of the seeder and its reliability.

The connection of the supporting front and pairs of rear pressing wheels with the outlets hinged to the central beam using double-acting hydraulic cylinders allows, when a wheel hits an elevation or depression, to smoothly raise (lower) the wheel and also smoothly lower (raise) it, without jerks and impacts, which also contributes to the reliability of the drill.

The patent information search carried out in the process of preparing the materials, the combination of the proposed known and new features of the proposed invention in the patent and scientific and technical literature, did not reveal, which allows us to classify the features as having novelty.

Since the proposed combination of features is not known from the state of the art and allows a higher technical result to be obtained, the proposed essential features can be recognized as meeting the criterion of inventive step.

The description of the implementation of the proposed device and the experimental work carried out make it possible to classify the proposed device as industrially feasible.

FIG. 1 schematically shows the proposed seeder-cultivator for precision seeding - side view.

FIG. 2 shows the planter top view.

FIG. 3 schematically shows the connection of the axles of the press wheels by means of an inter-axle beam, kinematically connected to a hydraulic cylinder, and shows the fertilizer metering and metering devices connected by a chain drive.

FIG. 4 shows the articulated connection of the drill outlets to the main frame beam, on which the wheels are fixed.

FIG. 5 schematically shows one opener of each row with lancet paws located at an angle "γ" of 28-48 degrees and the location of seeds in the soil. In this case, the paw of the second opener overlaps part of the cultivated soil strip by the value "l".

FIG. 6 shows an opener with lancet paws with seed tubes, a) - rear view, b) - side view.

FIG. 7 is a schematic top view of the metering unit and the gear wheel of the seed metering mechanism.

FIG. 8 shows the metering unit in a side view in section A-A of FIG. 7.

FIG. 9 shows a fertilizer metering device, a) is a top view, b) is a sectional view along a-A in FIG. 9a.

FIG. 10 shows a top view of a seed metering unit and fertilizer metering mechanism. On the seeding device and the metering mechanism, there are coils according to the number of coulters.

FIG. 11 shows a view BB in FIG. ten

The proposed seeder-cultivator consists of a frame with a central beam 1 and front 2 and rear 3 branches connected to the central beam 1 by a hinge. The branches 2, on which the front support wheels 4 are fixed, can be made at an angle "α" to the central beam equal to 65-90 degrees. The rear pairs of press wheels 5 are mounted on the rear 3 outlets using the center beams 6 on different axes with an offset of 0.6-1.0 wheel diameter relative to each other in the horizontal plane. A hopper 7 for seeds and a hopper 8 for fertilizers are mounted on the frame, connected with the duckfoot paws 9 of the openers 10 by means of the seed pipes 11. The paws 9 of the openers 10 are made with the formation of a divergence angle "γ" equal to 28-48 degrees. The paws 9 of the openers 10 are mounted on the frame in such a way that the paws of the front row of openers worked across the width of the strip of soil, the paws of the rear row of openers overlap by the value "l" (see Fig. 5) equal to 2-15 percent of the width of soil cultivation by one opener, not leaving untreated strips between the coulters over the entire width of the cultivator-cultivator. Bends 2 and 3 of the frame are made in the form of hollow tetrahedral beams. The front wheels 4 can be either single or double, connected to the outlets by means of double-acting hydraulic cylinders 13, which are connected by means of pipelines to the hydraulic system of the vehicle moving the seeder. The rear wheels are mounted in pairs and are kinematically connected to the outlets by means of hydraulic cylinders 13 with an inter-axle beam 6. Under hoppers 7 and 8, a seeding device 14 for metering seeds and a metering mechanism for feeding fertilizers 15 are mounted. The sowing device 14 is made in the form of a shaft 16 with several seeding and metering bobbins 17 according to the number of coulters, mounted in the bobbin housings, see FIG. 8, figs. 9b, fig. 11 (Fig. 7 shows one sowing, displaced by the distance between the slots when adjusting along the shaft 16, the coil 17). The coils of the seeding device 14 and the metering mechanism 15 are connected by means of toothed gears 18, a chain 19 with the gear 20 of the rear double press wheels 5. Each coil 17 of the metering device and the metering mechanism is made with sockets 21. The sockets 21 of the seeding device are made on the coils in groups of three sockets for seeds of various crops in size, located at an equal distance from each other. Fertilizer slots are also designed in groups of three and provide fertilizer delivery while shifting the seed and seed metering rollers. Seeds and fertilizers are fed into the seed pipe by means of a sowing device 14 and a metering mechanism 15. The distributor trays 22 are made in such a way that the seeds with fertilizers are fed into the soil in three rows (each tray to its own row) in a staggered manner at an equal distance from each other in length and width. The root growth zones 23 of the seeded crops are shown in FIG. 5 using circles. The opener blade 24 in the central part of the opener ensures longitudinal cutting of the soil layer. During the movement of the seeder-cultivator, the bends of the front and rear wheels, when meeting with elevations or depressions, are raised and lowered by an angle "β" equal to 5-15 degrees.

The proposed precision seeding seeder cultivator works as follows: Preliminarily, the seeds and fertilizers necessary for sowing are loaded into hoppers 7 and 8. The hydraulic system of the seeder-cultivator with hydraulic cylinders 13 is connected to the hydraulic system of the vehicle.

At the beginning of the movement of the vehicle moving the seeder-cultivator, both rows of paws of the lancet 9 openers 10 cut into the ground at the depth set by the front support wheels 4. When the seeder moves, the rear wheels 5 of the roller, with the help of the chain 19, transmit the rotational motion to the shafts 16 with coils 17, into the slots 21 of which, during rotation, one grain falls, which after 180 degrees, passing through the seed pipes 11 and the seed distributors 22, are fed under coulter paw in three rows in a staggered manner with a given distance from each other, for example, with a distance of 8-10 centimeters, which improves the technological capabilities of the seeder. At the same time, fertilizer is fed into the seed lines of 11 coulters using a metering mechanism.

During the movement of the seeder-cultivator, the soil is simultaneously cut with a knife of 24 openers and the roots of weeds are cut and the soil is loosened. The incised layer of soil with the remnants of vegetation in it - stubble, remains after the passage of the seeder-cultivator in the position in which it was originally located (does not turn over and does not break into pieces). The stubble preserved in this way in the form of a non-destroyed layer, as well as scattered over the field, chopped straw and the remains of straw not chopped in the field retain moisture in the soil well, and in the heat reduce the temperature of the soil surface. Sowing seeds, using the proposed seeder, allows you to get friendly shoots, better retain moisture in the soil and ultimately get a higher yield.

Depending on the characteristics of the soil in terms of moisture saturation, its density, etc., the support front wheels of the left and right sides can be made as single or double, mounted in pairs on one common axis. The axles of each pair of press rollers mounted on center beams 6 connected to a double-acting hydraulic cylinder 13, the axes of which are offset relative to each other by 0.6-1.0 wheel diameters, allow the press wheels 5 to be as close to each other as possible (axle fastening with interaxal beams 6 at the same time does not interfere with the approach of the wheels) and thereby ensure high-quality soil compaction and high-quality seed placement due to the soil of the rolled stubble.

Pivotally mounted on the central beam outlets 2 of the front support wheels 4, made at an angle to the central beam equal to 65-90 degrees, provide independent from the common frame of the seeder-cultivator lifting and lowering the wheels when hitting an obstacle or recess, without changing the depth of planting the seed into the soil. The execution of pointed openers with the formation of the angle of divergence of the plowshares equal to 28-48 degrees allows to reduce the resistance to stubble trimming, reduces wear of the plowshares of the openers and thereby improves the reliability of the seeder-cultivator. The implementation of the frame bends in the form of hollow tetrahedral beams makes it possible to lighten the design of the seeder as a whole while maintaining high strength characteristics. The root system of developing planted plants practically occupies the entire area (zones are indicated by circles - pos. 23) between the plants, which favorably affects the yield and reduces the possibility of weed growth.

Mounting the axle of each pair of press rollers using center beams mounted on outlets and kinematically connected to a double-acting hydraulic cylinder ensure a tight soil reconsolidation after sowing seeds.

At present, the enterprise has developed technical documentation for the proposed cultivator seeder and is preparing for production. Preliminary calculations and the design of the cultivator-seeder developed in accordance with them allow us to hope for the achievement of the set technical result and high economic indicators.

Claims (8)

1. Seeder-cultivator for precision seeding, including seeding sections with duckfoot plowshares, a seed hopper with seed pipes, support wheels, pressing the rear wheels of the rollers and a chain drive of the sowing apparatus connected by seed pipes with duckfoot paws of the openers, characterized in that the seeder-cultivator is additionally equipped with a fertilizer hopper mounted on the frame, connected by means of a metering mechanism and seed pipes with rows of openers mounted between the support wheels and the press wheels of the rollers, while the frame of the seeder-cultivator is made in the form of a central beam with hinged right and left outlets connected to it, on the front the outlets of which the left and right support wheels are mounted, and on the rear outlets, pairs of press rollers are mounted, and the support wheels and the wheels of the press rollers are connected to the frame outlets using double-acting hydraulic cylinders, and the wheels of each pair of press rollers are mounted on different axles x, which are displaced relative to each other in the horizontal plane by 0.6-1.0 wheel diameters. 2. A seeder according to claim 1, characterized in that the support wheels of the left and right sides can be made as single or double, mounted on one common axis. 3. A seeder according to claim 1, characterized in that the axes of each pair of press rollers are mounted using center beams mounted on the outlets and kinematically connected to a double-acting hydraulic cylinder. 4. Seeder according to claim 1, characterized in that the outlets of the front support wheels pivotally mounted on the central beam are made at an angle to the central beam equal to 65-90º. 5. Seeder according to claim 1, characterized in that the lancet openers are made with the formation of an angle of divergence of the paws equal to 28-48º. 6. Seeder according to claim 1, characterized in that the frame outlets are made in the form of hollow tetrahedral beams. 7. The seeder according to claim 1, characterized in that the lancet paws of the second row of openers are made with overlapping the width of the tillage by the paws of the first row of openers by 2-15% of the working width. 8. A seeder according to claim 1, characterized in that the hydraulic cylinders of the support and press wheels are connected by means of pipelines to the hydraulic system of the vehicle moving the seeder.

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