RU2160518C1 - Complex layer-by-layer soil tillage tool - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: tillage tool has frame, disk batteries successively mounted on frame, wide flat knives and left-hand and right-hand soil rippers arranged in symmetry at both sides of tillage tool axis. Flat knives cutting edges are positioned at the level lower than disk cutting edges by value corresponding to thickness of soil layer to be tilled. Cutting edges of soil rippers are positioned at the level lower than flat knife cutting edges. Flat knives and soil rippers are positioned so that their angular and linear vertical position may be adjusted. Soil rippers are formed as wide knifes positioned at an acute angle to horizontal line. Narrow trapezium-shaped arced agitator adjoins leading part of wide knife. Thrower is fixed in upper part of agitator. Wide knife and agitator junction zone has width at least equal to 1/3 of length of knife which is reducing in the direction of upper part. Vertical knives are fixed on flat knives tines. Cutting edges of vertical knives are made in the form of joined curvilinear and inclined portions. Curvilinear portion is defined with second-order line, and its lower part extends at an angle to share base and makes continuation of inclined portion joined to share junction apex. Such construction allows complete soil tillage, such as presowing, sowing and autumn tillage of soil, to be performed. EFFECT: simplified construction, reduced time and power consumption. 4 cl, 10 dwg

Description

 The invention relates to agricultural machinery, in particular to implements and working bodies for tillage by loosening.

 The AKP-5 combined soil cultivating unit is known, consisting of a frame with support wheels, four sections of spherical disk batteries located behind them flat-cutting legs, levelers and ring-spur rollers (1).

 However, such an assembly is very long and metal-intensive, therefore, it requires significant power consumption. Disc batteries invert large blocks and rollers and an equalizer are introduced to destroy them. At the same time, rollers increase the density of the soil, and this contributes to an increase in microcapillarity and moisture evaporation, and in general to a decrease in productivity. High-moisture residues with high humidity will be wound on the battery shaft, which requires stopping the unit for cleaning. Flat-cutting legs (knives) do not have individual linear height adjustment, which does not allow them to be adjusted to the required processing depth with respect to the blade blades.

 A tillage machine is also known, including a frame, flat-cutting working bodies, a trailing drag with spherical disks, a knife rotor with an additional drive from the tractor, rolling rollers (2). However, such a machine has a complex structure and large dimensions, metal consumption, in addition to significant energy costs, requires additional costs for the drive of the rotor blade. The presence of rollers increases the density of the soil, which contributes to an increase in microcapillarity and moisture evaporation. The closest technical solution is a combined tillage implement, including a frame with support wheels, a mechanism for general adjustment of the working depth by all working bodies, located in the middle of the discs, orienting rods and leveling rods fixed on flat-cutting bodies (3). However, this tool is also ineffective in the processing of fields with high-stalk stem residues such as corn and sunflower. Disks of the first row turn large blocks with rhizomes to the surface, and the stems falling into the interdisk space slip. The second row of batteries following the plane cutters also does not provide for breaking boulders and chopping vegetation in one pass. This is because the guides of the block of plant residues, made in the form of rods, are at a considerable distance from the disks. They do not carry out forced retention of lumps and plant debris, so they seem to slide off the oncoming blade blades and for the most part fall back into the inter-disk space and slip through. The equalizers following the last row of the battery partially break the blocks. Multiple longitudinal-transverse or diagonal field passes are required. This leads to compaction and dispersal of the soil. Under the influence of the wheels and tracks of the tractor, aggregate lumps of soil are destroyed, increase soil density, microcapillarity and moisture evaporation. Flat cutters also do not have linear height adjustment, which does not allow them to be adjusted to the required processing depth with respect to the blade discs of the battery. This leads to a decrease in productivity, a breakdown in agro-technical terms, an increase in energy costs and the cost per unit of the grown product.

 The basis of the present invention is the task of creating a compact, small-sized, high-speed, tillage unit through which, with less energy, it would be possible to grind vegetation in one pass, loosen the soil without its turnover, mix loosened soil with the formation of a fine-grained upper layer, lumpy structure of the lower layer and generally the creation of a moisture-saving soil structure. Such aggregates will also be used in farms for sowing spikes, row crops, other crops and autumn tillage with predecessors of crop residues of both spiky crops and high stem crops (corn, sunflower). The relevance of the task is confirmed by the Governor of the Krasnodar Territory N. Kondratenko: “We bought imported seeders, but began the production of such machines. What is good about this seeder? Here it goes along the field, where after harvesting the corn still remains, one plows and plows, and sows” ( 4). Our claimed unit also provides for the possibility of mounting a sowing apparatus, but is not the subject of the claimed invention.

 The problem is solved in that a complex tillage unit for layer-by-layer tillage, containing disk batteries sequentially mounted on the frame, press knives placed between spherical disks and wide-cut plane-cutting knives, according to the invention is equipped with plane-cutting knives mounted on the frame symmetrically on both sides of the axes of the aggregate with left- and right-hand share plow rippers, while each flat-cutting knife and the ripper are installed with the possibility of their eynoy height and angle adjustment, and in the position of the blade disc and blades ploskorezhuschih Soil ripper installed stepped down relative to each other in the order they appear.

 The invention is characterized in that each ripper is made in the form of a broadband knife located at an acute angle to the horizon, in the bow of which is installed a conjugated narrow-band trapezoidal arc-shaped agitator with a dropper fixed in the upper part.

 In accordance with the invention, the agitator at the interface has a width equal to at least one third of the length of the knife, decreasing upward. The invention is further characterized in that the wide-cut flat-cutting knives are equipped with vertical knives fixed to the uprights, the blades of which are made in the form of two mating sections, curved, formed by a second-order line, the top of which is below the base of the frame, and the lower part goes at an angle to the base of the plowshares the inclined section, mating with the top of the joint line of the plowshares, forming a gently sloping profile running from the ups, while the rack is made in the form of a flat arched shape of a rigid about the lever.

 The arrangement on a common frame of sequentially arranged disk batteries, flat-cutting knives and soil rippers, moreover, by adjusting the height of the blade of the flat-cutting knives are set below the blade blades, and the blade of the ripper below the blade of the flat-cutting knives allows each working body to process, at the same time, depending on the field condition and agricultural technology requirements the thickness of the soil layer to a total depth of 20 cm. Layered tillage unloads each working body, which allows you to work on at very high speeds of 12 ... 15 km / h and carry out full tillage, autumn or presowing, in one pass and use a tractor of lower power. The symmetrical arrangement of left- and right-side soil rippers, combined with the corresponding concavity of the disks, ensures the coincidence of the resultant force of the unit relative to the longitudinal axis of the tractor, which increases the operational reliability of the entire tractor-processing body system and the tractor traction is effectively used. The aggregate creates a fine-grained structure of the upper soil layer and lumpy underlying. The fine-grained structure contributes to good seed germination, lumpy root system development due to moisture conservation.

 The claimed invention solved the problem of creating a small-sized, compact soil-cultivating unit, which made it possible to achieve a minimum turning radius of the unit when it is turned off with a minimum headland width for entering and leaving the unit at the ends of the car, working in a one-way (shuttle) way.

 In FIG. 1 shows a schematically integrated tillage unit, a top view of the location of the working bodies; in FIG. 2 - the same side view; in FIG. 3 is a side view of the subsoiler; in FIG. 4 is a view along arrow A of the subsoiler; in FIG. 5 is a view along arrow B; in FIG. 6 - the place of fastening of the rack subsoiler on the frame; in FIG. 7 is a side view of a press knife; in FIG. 8 is a side view of a plane-cutting knife; in FIG. 9 is a view along arrow B; in FIG. 10 is a section along AA in FIG. 8.

The complex tillage unit contains a frame 1 made in the form of rigidly connected longitudinal and transverse bars, forming a farm. On the frame 1, one after another, disk batteries 2 and 3, wide-cut plane-cutting knives 4 located symmetrically with respect to the axis of the unit, left-handed 5 and right-handed 6 rippers are mounted one after another. Batteries 2 and 3 are installed in the camber at an angle of attack to the line of movement and adjusted to the loosening depth "h" set by the agrotechnological process within 8 ... 10 cm. Press blades are installed between the disks 7. Adjacent blades of flat-cutting knives are mounted with overlap. Vertical knives 9 are fixed on racks 8. Depending on agricultural requirements, field conditions and soil hardness, the blades of flat-cutting knives 4 are mounted below the blade blades by a loosening thickness "h ₁ " within 3 ... 5 cm. Each of the soil collectors 5 and 6 is made in the form of a broadband knife 10, located at an acute angle "α" to the horizon. In the bow of the knife 10, a narrow-band trapezoidal arc-shaped agitator 11, coupled with it, is installed, and a ejector 12 made in the form of a flat plate is fixed in its upper part. The agitator 11 has, at the interface, a width of at least one third of the length of the knife 10, decreasing upward. Cases 14 are mounted on the racks 13, on which the knives are fixed 10. The racks 13 are placed with a gap in the pockets 15 of the frame 1 and have a number of mounting holes in the upper part for linear adjustment of the height of the working bodies and fixation by means of the axes 16. The screws 17 carry out angular adjustment under angle “β” of cultivators entering the soil. The blades of the knives 10 are installed, depending on the requirements of agricultural technology, below the blades of the flat-cutting knives by the loosening thickness "h ₂ " within 3 ... 5 cm. In general, the total depth "H" of loosening is within 12 ... 20 cm, sufficient for tillage for sowing, row crops and winter ripples.

 Press knife 7 consists of an annular sector 18, knife 19. By means of traction 20, sector 18 is pivotally connected to frame 1 and is spring-loaded with spring 21. Knife 19 is mounted at an angle to the axis of the battery. Depending on the type of soil treatment, its purity, the press knives can be dismantled for the duration of the work. The rack 8 is made in the form of a flat arcuate shape, turning into a straight, rigid lever. The blade of the knife 9 consists of two sections. Curved 22 section is made in the form of a sector formed by a second-order line, the top of which is below the base of frame 1. Inclined 23 section connects curved 22 with vertex 24 of line 25 of the share of shares 26 and 27. Line 25 of the joint is inclined at an acute angle to the base of shares of 26 27 and together with inclined and curved sections creates a long profile with an on-ramp. The racks 8 are installed in the pockets 28 of the frame 1 and have in the upper part a number of mounting holes 29 for linear adjustment of the height of the working bodies and fixing by means of the axes 30. Screws 31 carry out angular adjustment at an angle “β” of the entry of flat-cutting knives into the soil.

 The unit operates as follows.

The complex tillage unit is aggregated with a tractor. Disk batteries 2 and 3 are fixed at an angle of attack. Flat-cutting knives 4 are installed at an angle “β” of entry and below the blade blades to the ripping thickness “η”, and cultivators 5 and 6 are also set at an angle “β” of entry and below the blades of flat-cutting knives 4 to the ripping thickness “h ₂ ”. When the unit moves, the knife 19 expands, and the sector 18 forcibly tilts the oncoming plant stems at an angle to the direction of movement of the disk batteries 2 and 3, presses them to the soil surface and holds them pressed to it. Disks cut stems into segments of length determined by the distance between the disks. In addition, the stems of the plants cut by the disks are cut even further with a knife 19. Next, the disks cut into the soil and cut off the formation, which, under the forces acting on it, starts to rise upward along the concave surface of the disk and encounters sector 18, which exerts pressure on it springs 21. As a result, the formation is cut and crushed without any turnover of the formation into smaller fractions, permissible within the limits of agrotechnical requirements in one pass. Then flat-cutting knives 4 come into operation. They cut the roots of the plants and cut the layer, which are found on the gentle profile of the knife 9 and are cut into pieces in a vertical plane with the help of blade shares 26 and 27. The individual stem residues that are not cut by the disks that are cut by the disks and pressed by the onions against the blade of the knife also intensively move upward along the gentle blade and are cut into pieces and fall on both sides of the rack 8. At this stage, the total thickness of the treated soil layer is partially mixed. . Next, soil rippers 5 and 6 come into operation and loosen a deeper next layer of soil with a thickness of "h ₂ ", at the same time cut the next part of the root system, thus cutting the root vertically into several parts. The layer cut by the knife 10 partially rises along the agitator 11, and the greater part along the remaining length of the knife 10 slides along its surface, breaks, mixes, and discharges into the furrow formed behind the knife. At the same time, a smaller part of the soil raised along the agitator 11 meets the upper previously loosened soil layers, mixes with them and is dumped into the same furrow on top of the previously dumped soil. Right- and left-hand rippers ensure the stability of the rectilinear movement of the unit.

 At this final stage of layer-by-layer soil cultivation, rippers 5 and 6 cut the roots, the soil layer, loosen it and mix all three layers. Achieving mulching of the upper layer, its fine grain, lumpiness of the lower layer, which provides moisture retention, accelerate the decomposition of crop residues and improve soil structure. In the aggregate, all working bodies are significantly unloaded and, as experimental studies have shown, it can operate efficiently at extremely high speeds of 12 ... 15 km / h using less powerful tractors. In general, a complex tillage unit in one pass provides complete pre-sowing, sowing and autumn tillage with less time and energy costs.

Bibliographic data
1. Agricultural machinery. Catalog, Volume 1, edited by t. box VASKHNIL V.I. Chernoivanova, M. 1991, p. 157.

 2. A.S. N 523653, A 01 B 49/02, USSR.

 3. A.S. N 519154, A 01 B 49/02, USSR - prototype.

Additionally studied:
4. A.S. N 372957, IPC A 01 B 39/22, USSR.

 5. A.S. N 492248, IPC A 01 B 39/22, USSR.

 6. A.S. N 298265, IPC A 01 B 35/26, USSR.

 7. A.S. N 536768, IPC A 01 B 35/26, USSR.

 8. A.S. N 357898, IPC A 01 B 33/08, USSR.

 9. A.S. N 373980, IPC A 01 B 5/00, USSR.

 10. A.S. N 1493126, IPC A 01 B 49/02, USSR.

 11. A.S. N 1572435, IPC A 01 B 49/00, USSR.

 12. A.S. N 1166681, IPC A 01 B 49/00, USSR.

 13. A.S. N 1701131, IPC A 01 B 49/02, USSR.

Claims (4)

 1. A complex tillage unit for layer-by-layer tillage, containing disk batteries and wide-grip flat-cutting knives sequentially mounted on the frame, characterized in that it is equipped with left- and right-hand share plowing machines arranged behind the flat-cutting knives mounted on the frame symmetrically on both sides of the axis of the unit at the same time, each flat-cutting knife and ripper are installed with the possibility of their linear height and angle adjustments, and in the working position of the blade of the disc, the plane chewing knives and rippers installed in steps with decreasing in relation to each other in the order of their location.  2. The complex tillage unit according to claim 1, characterized in that each soil tiller is made in the form of a broadband knife located at an acute angle to the horizon line, in the bow of which a narrow-band trapezoidal arc-shaped agitator coupled to it is installed, with a dropper fixed in the upper part.  3. The complex tillage unit according to claim 2, characterized in that the tedder at the interface has a width equal to at least one third of the length of the knife, decreasing upward.  4. The complex tillage implement according to claim 1, characterized in that the wide-grip flat-cutting knives are equipped with vertical knives fixed to the posts, the blades of which are made in the form of two conjugate curved and inclined sections, the curved section is formed by a second-order line, the apex of which is located below the base of the frame, and its lower part passes at an angle to the base of the plowshares to an inclined section, mating with the top of the line of joint plowshares, forming a gentle profile running uphill with a rise, while ka is formed as a flat, arc-shaped, rigid lever.

Images