RU2423034C1 - Method of accelerated meadow formation of turf-covered soils in meadowlands and device for its realisation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method includes rough milling of soil with turf closing into lower layers. A soil layer is cut by milling of five slots with a width of 15 cm and two slots with a width of 1 cm, at the sides of the central slot, to form strips with the width that does not exceed 47.5 cm. In the upper part of strips there are three slots cut with depth of 4 cm and width of 1 cm. Then flat ploughing of strips is carried out with soil overturning in internal furrows with complete closing of turf into the lower layer. The compacted track is tilled following power vehicle traces for depth of 4…6 cm. Afterwards the upper layer of soil is ground by milling with a cutting speed of not more than 5 m/s by means of side deformation of cut chips. Soil is levelled and compacted prior to sowing. Seeds are sown into a compacted bed with local application of a start dose of mineral fertilisers, and post-sowing rolling is carried out. The device comprises a frontally suspended milling drum with a drive from a power take-off shaft in the power vehicle. The milling drum is arranged with L-shaped knives on flanges, is equipped with flat knives of various length and has a jacket. The device also comprises a rear-mounted roller arranged smooth, a grinder-balancer, a rotor with active working elements and a trailed sowing machine with a roller. The grinder-balancer is arranged in the form of tilling hoes installed following the power vehicle wheels traces. The device is equipped with a frontal-rotary plough with single-sided and doubled right- and left-turning helical plough bodies and additional bodies. On each flange of the rear-mounted roller rotor there are three flat knives installed at the angle of 64…70° to axis of rotation with an angle of blades sliding equal to 50...90°.

EFFECT: suggested technology and structural design will make it possible to reduce power inputs of pre-sowing grinding of a strong turf-covered layer per single run of a machine with full closing of turf.

3 cl, 11 dwg

Description

The invention relates to agriculture, in particular to methods of radical improvement of natural and degenerated seeded hayfields and pastures.

There is a method of accelerated tilling of soddy soils of fodder land, performed by the AZ-2.4 combined unit, which consists in milling and pre-sowing compaction of soil, sowing seeds of cover crops and grasses with simultaneous local application of a starting dose of mineral fertilizers and post-sowing compaction of the upper layer / 1 /.

A device for implementing the known method, comprising a semi-mounted mill with a roller and a trailed grain-seeder with a roller / 2 /.

A disadvantage of the known method and device is that it is inefficient (0.56 ha / h of operating time) and energy-intensive due to the need for pre-sowing milling the entire thickness of the treated formation.

There is a method of accelerated tinning of hayfields and pastures in one pass with a combined unit AZ-3.6 (1.1 ha / h of operating time). It is similar to the method using the АЗ-2,4 aggregate with the only difference being that the milling cutter with the АЗ-3,6 roller is rear mounted and has the same drawbacks - increased energy consumption of the technological process / 2 /.

The closest in technical essence to the claimed method is the selected method / 3 / of accelerated tilling selected as a prototype, which consists in conducting rough milling of the soil with incorporating turf into the lower layers, loosening the compacted track along the traces of the energy source, presowing grinding of the upper layer of the soil layer, its alignment with compaction, sowing seeds on a compacted bed with local application of a starting dose of mineral fertilizers and post-sowing rolling.

Rough milling of the soil is carried out to a depth of 16 cm with the sod being embedded in the lower layers, loosening of the compacted track along the tracks of the wheels of the energy tool to a depth of 16 cm, pre-sowing grinding of the upper soil layer with a cutting speed of 10 m / s.

The closest in technical essence to the claimed device is the device selected as a prototype for the accelerated tilling of the soddy soil of fodder land / 3 /, including a drum with L-shaped knives on the flanges frontally mounted with a PTO drive and a casing, a rear-mounted roller with a chopper-leveler in in the form of loosening paws on the tracks of wheels, a rotor with active working bodies, a smooth roller and a trailed seeder with a roller.

The advantage of the known method and device is to reduce the energy intensity of the technological process due to differentiated tillage during its pre-sowing preparation (preliminary rough milling to a depth of 16 cm and subsequent additional grinding of only the upper layer 4 ... 6 cm thick, reducing the swelling of the lower layers, creating conditions for the formation of compacted a bed for seeds.

The disadvantage of this method is that it does not provide a complete seal of the turf and cannot be used for tinning of lands with a thickness of the sod layer of more than 12 cm without preliminary treatment with a marsh cutter. In addition, the preliminary grinding of the topsoil by active working bodies (disk rotor) is accompanied by increased energy costs due to the high cutting speed of 10 m / s.

The technical task of the invention is to reduce energy consumption for pre-sowing grinding of the upper soil layer with a thickness of the sod layer of more than 12 cm in one pass with a complete seal of turf.

The stated technical problem is achieved by the fact that in the method of accelerated tilling of the soddy soils of fodder land, which consists in conducting rough milling of the soil with incorporating sod into the lower layers, loosening the compacted track along the traces of the energy source, pre-sowing grinding of the upper layer of the soil layer, its alignment with compaction , sowing seeds on a compacted bed with local application of a starting dose of mineral fertilizers and post-sowing rolling according to the invention, the soil layer is cut by milling to a depth of 18 ... 22 cm of five slots with a width of 15 cm and two, on the sides of the central one, with a width of 1 cm into strips of a width not exceeding 47.5 cm, in the upper part of which cut 3 slots with a depth of 4 cm and a width of 1 cm, they carry out smooth plowing of strips with a turnover of the formation in their own furrows with a complete filling of the turf into the lower layer, loosen the compacted track to a depth of 4 ... 6 cm, grind the upper layer of the formation by milling by lateral deformation of the cut chips with a cutting speed of not more than 5 m / s with alignment and presowing seal.

The technical task is also achieved by the fact that in the device for the accelerated tilling of soddy soils, containing a front drum mounted with a PTO drive, a drum with L-shaped knives on the flanges and a casing, a rear mounted roller with a chopper-leveling machine in the form of loosening legs along the tracks of wheels, a rotor with active working bodies, a smooth roller and a trailed seeder with a roller, according to the invention, it is equipped with a front-rotary plow with one-sided and double right- and left-turning screw plow bodies and also by servants, the drum unit is equipped with flat knives of different lengths, on each flange of the rear-mounted roller rotor three flat knives are installed at an angle of 64 ... 70 ° to the axis of rotation with a blade angle of 50 ... 90 °.

In addition, the socks of the double plow bodies are placed in the symmetry planes of the long flat knives, and the socks of the coulters are located in the attachment planes of the L-shaped knives.

Comparison of the claimed method with the prototype shows that the new method is that the soil layer is cut by milling to a depth of 18 ... 22 cm five slots with a width of 15 cm and two, on the sides of the center, with a width of 1 cm into strips not exceeding 47, 5 cm, in the upper part of which 3 slits are cut 4 cm deep and 1 cm wide, the strips are smoothly plowed with the formation turning in their own furrows with the turf completely embedded in the lower layer, the compacted track is loosened to a depth of 4 ... 6 cm, the upper layer is crushed formation by side milling howl deformation of the cut chips from the cutting speed of not more than 5 m / s and pre-aligned seal.

Comparison of the claimed device with the prototype shows that the device is equipped with a front-rotary plow with one-sided and double right- and left-turning screw plow bodies and retainers, the milling drum is equipped with flat knives of different lengths, on each flange of the rear-mounted roller rotor mounted on three flat knives at an angle of 64 ... 70 ° to the axis of rotation with a blade angle of 50 ... 90 °.

In addition, the socks of the double plow bodies are placed in the symmetry planes of the long flat knives, and the socks of the coulters are located in the attachment planes of the L-shaped knives.

Thus, the claimed method meets the criterion of "novelty."

The claimed method can only be implemented in the proposed device, which indicates compliance with the principle of "unity of invention".

The invention meets the criterion of "inventive step", since a result can be achieved that satisfies the existing need, namely, reducing energy consumption for pre-sowing grinding of the upper soil layer with a thickness of the sod layer of more than 12 cm in one pass with a complete seal of the turf.

The invention is also “industrially applicable”, as it can be used in agriculture for the modernization of the combined units AZ-3.6 and AZ-4.5 with universal power means UES-210/280 and UES-290/450.

The invention is illustrated by drawings: in Fig.1 schematically shows a soil section after the passage of devices characterizing the technological parameters of the method; figure 2 - structural and technological diagram of the device, side view; figure 3 is a structural and technological diagram of a front-rotational plow, side view; in Fig 4. is a structural and technological diagram of a front-rotational plow, top view; figure 5 is a structural and technological diagram of the roller with a chopper-equalizer, side view; Fig.6 - rear mounted roller rotor, rear view; Fig.7 - rear-mounted roller rotor, side view; on Fig - the right knife of the rotor rear mounted roller, side view; Fig.9 - the right knife of the rotor rear mounted roller, rear view; figure 10 - drum rotor rear mounted roller, rear view; 11 - drum of the rear mounted roller rotor, side view.

и шириной t₁=1 см, проводят гладкую вспашку полос с оборотом пласта в собственных бороздах с полной заделкой дернины в нижний слой, рыхлят уплотненную колею на глубину (0.2…0.3)h, измельчают верхний слой пласта фрезерованием путем боковой деформации отрезаемых стружек со скоростью резания не более 5 м/с с выравниванием и предпосевным уплотнением.The method of subsurface plowing of soddy mineral soils consists in rough milling of the soil with sowing of the turf into the lower layers, loosening the compacted gauge along the traces of the energy source, pre-sowing grinding of the upper layer of the soil layer, leveling it with compaction, sowing seeds on the compacted bed with local introduction of the starting doses of mineral fertilizers and post-sowing rolling, the soil layer is cut by milling five slots with a width of t = 15 cm and two, on the sides of the center, with a width of t ₁ = 1 cm and a depth of h = 18 ... 22 cm into strips of a width not exceeding 47.5 cm, in the upper part of which 3 slots are cut in depth

and a width of t ₁ = 1 cm, a smooth plowing of the strips with the formation revolution in their own furrows is carried out with the turf completely embedded in the lower layer, the compacted track is loosened to a depth of (0.2 ... 0.3) h, the upper layer of the formation is milled by milling by lateral deformation of the cut chips with speed cutting no more than 5 m / s with alignment and presowing compaction.

The depth of tillage was chosen h = 18 ... 22 cm so that it was possible to conduct accelerated tilling of the lands with a turf thickness of 12 ... 18 cm in one pass. After the turnover of the formation, the wrapped turf 1 should be covered with a layer of soil (0.2 ... 03) h for sowing seeds of 2 fodder crops.

For preliminary rough tillage, a combined frontal-rotary plow 3 was used, combining a milling drum 4 with one-sided and dual right-handed 5 and left-handed 6 helical hulls and steppers located behind it in a row across the movement.

The milling drum 4 of the plow 3 cuts the formation into strips with a width of b = 47.5 cm, corresponding to the working width b _{k of the} plow bodies 5 and 6, by milling wide slots in the direction of movement of the socks of the bodies 5 and 6 and the backs 7. The traction resistance of the plow 3 decreases sharply due to its compensation for the pushing efforts of frezarabana 4, eliminating the need to install circular knives, facilitating the movement of the socks of buildings 5 and 6 and the backs.

и шириной t₁=1 см необходимо для частичной разделки верхней наиболее задерненной части 1 пласта без нарушения его связности для ускорения разложения дернины и уменьшения затрат на оборачивание пласта.Depth slitting

and a width of t ₁ = 1 cm is necessary for partial cutting of the upper most sodded part 1 of the formation without breaking its connectivity to accelerate the decomposition of the turf and reduce the cost of wrapping the formation.

Due to the milling of wide slots with a width of t = 15 cm, the total working width increases, the working width 7 is increased and laying of the wrapped formation in its own grooves is facilitated, the transverse and longitudinal combing of the surface of the treated field is reduced. Since the wrapped layer almost does not fluff up, the depth of loosening of the compacted track along the tracks of the wheels of the energy facility decreases by the thickness of the sod layer and will be (0.2 ... 0.3) h.

If you install three knives 10 and 11 on each flange 8 of rotor 9, inclined at an angle β = 64 ... 70 ° to the axis of rotation, with the sliding angles of the blades γ = 50 ... 90 °, then they will work like disks, shifting the cut chips across movement, but the rotor speed decreases by 3 times, i.e.

In this case, the peripheral speed V _o with an increase in diameter D = 2R to 300 ... 360 mm (0.30 ... 0.36 m) will be

those. no more than 5 m / s. The average cutting speed per revolution practically does not differ from the peripheral one.

The device for the accelerated tilling of soddy soil of fodder land in one pass consists of a front-rotary plow 3 for smooth plowing, a rear mounted roller with a chopper-leveling topsoil 12, a hitch 13 and a seeder with a roller.

The front-rotary plow 3 contains a frame 14, a linkage mechanism 15, support wheels 16, a central driveshaft 17, a central bevel-helical gearbox 18 with two lateral cardan drives 19, two final drives 20, a two-section drum 4 with L-shaped 21 and flat 22 and 23 knives of different lengths, one-sided and double right- 5 and left-turning 16 plow bodies with screw dump surfaces and skeins 7.

The points farthest from the axis of rotation of the L-shaped 21 and the flat long 22 knives of the drum 4 are located on a diameter of 800 mm, and for flat short knives 23 - on a diameter of 520 mm.

Flat long 22 and L-shaped 21 knives are designed for cutting the soil layer into strips with a width of b = 47.5 cm by milling slots with a depth of h = 18 ... 22 cm, five slots with a width of t = 15 cm and two on the sides of the central width t ₁ = l see

в верхней наиболее задерненной части полос. Ширина захвата Г-образных ножей 21 равна 7,5 см, а толщина плоских ножей 22 и 23 - 10 мм. На одном фланце фрезбарабана 4 диаметром 800 мм установлено по десять Г-образных 21 ножей и по восемь плоских коротких ножей 11. Частота вращения фрезбарабана 4 - 333 мин^-1 при выбранных z=5, S=7 см и V_n=7 км/ч=1,945 м/с=194,5 см/с.Short flat knives 23 cut slits of width t ₁ = l cm and depth

in the upper most soddy part of the stripes. The width of the g-shaped knives 21 is 7.5 cm, and the thickness of the flat knives 22 and 23 is 10 mm. Ten L-shaped 21 knives and eight flat short knives 11 are installed on one flange of frezbarad 4 with a diameter of 800 mm. 11. The frequency of rotation of frezdrum 4 is 333 min ^-1 at selected z = 5, S = 7 cm and V _n = 7 km / h = 1.945 m / s = 194.5 cm / s.

The plow bodies 5 and 6 are installed in one row across the movement, and the plows 7 are between them and also in one row. The width of the milling drum 4 is greater than the total width of the plow bodies 5 and 6 by 2t = 30 cm. The socks of the double plow bodies 5 and 6 are in the symmetry planes of the long flat knives 22, and the socks of the coulters 7 are in the fastening planes of the L-shaped knives 21. This it is necessary so that the socks of the zapluzhniks 14 and the double cases 5 and 6 move in the middle of the slots cut in the turf by the L-shaped 21 and long flat knives 22. The socks of the extreme plow bodies 5 and 6 are separated from the ends of the ends of the L-shaped knives 21 150 mm and move during operation along the bottom of the furrow in the planes of the inner side walls of the extreme cracks 15 cm wide.

Thus, the width of the milling drum 4 of the plow 3 B = 3.6 m, and the total width of the plow bodies 5 and 6 is 3.3 m.

The traction resistance of the front-rotary plow 3 is approximately 3 times less than the plows with passive working bodies, since when the milling drum 4 there is a significant pushing soil reaction, damping the soil resistance by the plow bodies 5 and 6 and the plows 7. The energy losses by energy are sharply reduced by excessive grinding of the upper soil layer by movers and the resulting power reserve is spent on the process.

Due to the fact that the workers 7 move along the middle of the slots with a width of 15 cm, their working width is greater than the working width of two right-handed 5 and left-turning 6 plow bodies 15 cm (or 7.5 cm per 1 body), which allows the well to be turned around fit into its own bottom of the furrow and reduces the comb surface of the field.

The roller with a grinder-leveling topsoil 12 includes a frame 24, a hitch 25, loosening paws 26 along the tracks of the wheels of the power tool, a central cardan gear 27, a central bevel gear 28 with two side cardan gears 29, final drives 30, a two-section rotor 9 and a roller 31 .

Paws 26 serve for loosening the compacted track along the tracks of the wheels of the energy facility, their stroke depth is (0.2 ... 0.3) h.

The rotor 9 consists of two shafts 32 and flanges 8 welded to them, to which are mounted flat right 10 and left 11 knives inclined to the axis of rotation at an angle β = 64 ... 70 ° with a blade angle γ = 50 ... 90 ° and a working width b _n

Flanges 8 are welded and made of two halves of equal thickness, on each of which are attached three one-sided right 10 and left 11 knives. Each subsequent flange 8 is mounted on the shaft 32 relative to the previous one with rotation around the axis of the shaft 32 by an angle of 30 °, for example, clockwise at a distance b _f = 2b _n .

The diameter of the rotor 9 D = 2R is selected so that on its flanges 8 it is possible to place 6 inclined knives 10 and 11 - 3 right and 3 left. This allows you to reduce the rotational speed of the rotor 9 from 778 to 260 min ^-1 , which provides about a 1.5 times reduction in energy consumption for processing the top layer of the soil due to a decrease in the peripheral speed and cutting speed, which is almost the same from 10 to 5 m / from the most distant points of knives 10 and 11. Knives 10 and 11 destroy the cut chips by transverse deformation, while the milling process is not very dynamic and smooth, and the load on the PTO 18 is 2 ... 3 times lower.

The device operates as follows.

Milling drum 4 of the front-rotary plow 3 cuts the soil layer into strips with a width of b = 47.5 cm by milling to a depth of h = 18 ... 22 cm of five slots with a width of t = 15 cm and two slots on the sides of a central width of 1 cm with L-shaped knives 21 and flat long knives 22. The one-sided and double-plowed hulls going behind the right-handed 5 and left-handed 6 are cut with plowshares at a depth of h = 18 ... 22 cm and the layers of strips are wrapped with their screw dumps, shifting them 180 °, shifting 7 to the side that return wrapped layers in their furrows. The soil layer turned to the surface with a thickness of (0.2 ... 0.3) h is crushed by the wheels of the energy source, forming a track 2 ... 3 cm deep. Paws 26 loosen the compacted track to a depth of (0.2 ... 0.3) h, a two-section rotor 9 shreds the top soil layer to a depth of (0.2 ... 0.3) 0.3) h with its inclined right 10 and left 11 knives, shifting the cut chips to the left, then to the right, creating a dense bed for seeds 33 and leveling the surface of the treated field. The roller 31 following the rotor 9 seals the top layer and evens it out. A trailed grain grass seeder sows the seeds of cover crops and large grass seeds in an ordinary way with simultaneous local application of a starting dose of mineral fertilizers to a depth of 6 cm and small grass seeds scattered to the surface. The seeder roller performs post-sowing compaction of the soil, providing moisture to the top layer and good contact of the seeds with the soil and their seeding.

When the device is operating, the traction resistance of the passive working bodies is largely damped by the pushing force of the active working bodies, which provides a sharp decrease in slipping of the propulsion devices and prevents excessive spraying and disturbance of the structure of the upper soil layer.

Implementation of the proposed method and device will allow for the accelerated tilling of lands with a turf thickness of 12 ... 18 cm in one pass while improving its quality indicators - complete incorporation of the turf into the lower soil layer, reducing surface combing and disturbing the structure of the upper layer, creating a dense seed bed and reducing energy intensity .

Information sources

1. The results of state tests of the unit AZ-2.4. Theses of the report of the Kirov MIS, Orichi, 1984

2. Protocol No. 7-135-86 (1230410) of the state acceptance tests of the unit for accelerated tinning of AZ-3.6. Western IIA, 1986

3. RF patent №2016499, IPC A01B, 79/02, 1994 (prototype).

Claims (3)

1. The method of accelerated tilling of the soddy soils of fodder land, which consists in rough milling of the soil with sowing of the turf into the lower layers, loosening the compacted gauge along the traces of the energy, pre-sowing grinding of the upper layer of the soil formation, leveling the formation with compaction, sowing seeds on the compacted bed with local introduction of the starting dose of mineral fertilizers and post-sowing rolling, characterized in that the soil layer is cut into strips of a width not exceeding 47.5 cm by milling five lei to a depth of 18 ... 22 cm and a width of 15 cm and two slots located on the sides of the central slit, 1 cm wide, cut three slits in the upper part of the strips 4 cm deep and 1 cm wide, conduct smooth plowing of the strips with a layer revolution of own furrows with a complete incorporation of turf into the lower layer, loosen the compacted track to a depth of 4 ... 6 cm, crush the upper layer of the formation by milling by lateral deformation of the cut chips with a cutting speed of not more than 5 m / s with leveling and pre-sowing compaction of the soil. 2. A device for accelerated tilling of soddy soils, comprising a front drum mounted with a drive from the power take-off shaft and a drum with L-shaped knives on the flanges and a casing, a rear mounted roller, made smooth, a chopper-leveling device in the form of loosening paws mounted on the tracks of wheels, a rotor with active working bodies and a trailed seeder with a roller, characterized in that it is equipped with a front-rotary plow with one-sided and double right- and left-turning helical plow bodies and plows, moreover the milling drum is equipped with flat knives of different lengths, and on each flange of the rear mounted roller rotor three flat knives are installed at an angle of 64 ... 70 ° to the axis of rotation with a blade angle of 50 ... 90 °. 3. The device according to claim 2, characterized in that the socks of the double plow bodies are placed in the symmetry planes of the long flat knives, and the socks of the coulters are in the attachment planes of the L-shaped knives.

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