RU2141750C1 - Tilled crop cultivation method and apparatus (versions) - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves cultivating soil; providing covering harrowing, presowing cultivation, sowing, irrigation and interrow tillage. During early spring period upon termination of covering harrowing, soil aerating slits with compacted walls are cut in direction perpendicular to following sowing direction. Subsequent interrow tillage is combined with cutting of water interception slits with zonal reservoirs in their parts. Soil aerating slits are cut by means of slitter working member with tine, chisel and ripping member having width exceeding tine width. Ripping member is made detachable and may be repositioned through tine height in process openings, which are offset in equally spaced relation to tine rear cut. Interception slits are cut by means of working tool having tine, chisel and ripping member, whose width exceeds tine width. Annular ripping member is provided with retainer and is made detachable. Ripping member may be repositioned through height of tine in process openings, which are offset in equally spaced relation to tine rear cut. EFFECT: increased efficiency and simplified construction. 14 cl, 13 dwg

Description

 The invention relates to agriculture and can be used in the cultivation of, for example, corn for grain and silage in irrigated agriculture.

A known method of cultivating crops, including loosening the arable and subsurface layers, the formation of cracks in the subsurface layer and filling the soil with a fertile layer, in which in order to increase productivity by increasing soil fertility, liquid organic fertilizers are applied every 3-4 years, combining with integrated tillage for row crops, containing slitting - the formation of molehills in the subsurface layer, while liquid organic fertilizers are introduced into molehills, and liquid mineral fertilizers Senia - to the seed bed: the soil is prepared for sowing seeds over molehills of specialized loosening of the upper part of the walls of the cracks and the formation of slopes with an angle between them of 60-90 ^o (see SU, copyright certificate, N 1531877. M. cl. ⁴ A 01 In 79/02. The method of cultivation of crops // N.I. Domrachev and B. M. Kozyrev. Declared October 21, 1986, published December 30, 1989).

 Implementation of the claimed method requires capital expenditures, complex and expensive equipment.

There is also known a method of soil sowing in winter crops, including cutting of water-catching slots with tier-shaped focal reservoirs, whereby focal reservoirs are created below the tillering site in the zone of formation of secondary roots with the placement of extruded soil in order to reduce damage to plants and increase water absorption in the root zone when snapping in the sidewalls of cracks and reservoirs (see SU, N 1604171. Mcl. ⁵ A 01 B 13/16. Method of soil cleavage in winter crops // V.P. Ermolenko, V.A. Fedorov, E.V. Poluektov and I.N. L stopadov. Stated 04.05.1988, published on 11.07.1990).

 The disadvantage of this method is that focal reservoirs during irrigation are not able to intercept irrigation water from the surface of an inclined area, and a tool with a working body, when making cracks, form a shaft and fluff up the soil, destroying the root systems of winter crops.

The closest method of the same purpose to the claimed object according to the totality of signs is a method of cultivating row crops, including tillage, planting, watering and row-spacing, in which, in order to reduce water consumption during irrigation, irrigation pipelines are placed along a row of crops, and water is supplied during irrigation only in the aisles no closer than 15 cm from the row of plants, and the cultivation of the soil is carried out no later than 5 days after irrigation; furrows for laying irrigation pipelines are cut 4-5 cm deep at the same time as cultivation (see SU, copyright certificate, N 1768015. M. class. ⁵ A 01 B 79/02, A 01 G 25/02. Method for cultivating row crops // E.I. Ponomarev, L.G. Shurova, A. Karakhanov and A.P. Kosov. Declared 11.11.1990, published 07.10.1992).

 The reasons that impede the achievement of the required technical result when using the known method adopted for the closest analogue in terms of the method include the high labor costs associated with the layout of the pipelines and the low absorbency of the soil with the described irrigation method. This leads to water erosion and uneven distribution of irrigation water on the surface of the irrigated area.

The closest device of the same purpose to the claimed object is a working device of the slotter, comprising a stand, a chisel and a loosening plate pivotally attached to the chisel, the width of which is greater than the width of the stand, in which, in order to increase the degree of loosening of the walls of the slot, the loosening plate is additionally connected to the chisel by an elastic element and made curvilinear in the plane of symmetry of the rack; the loosening plate is made with lateral vertical faces / cm. SU, copyright certificate, N 1360604. Mkl ⁴ A 01 B 35/26. The working body of the slot machine // A.P. Sapunkov. Declared May 20, 1986, published December 23, 1987 /.

 The reasons that impede the achievement of the required technical result when using the known device adopted for the closest analogue in the device part include insufficiently wide functionality. The loosening plate, placed in the alignment of the bit, does not provide the art of water-catching slots with focal tanks, as well as the implementation of sealed / corrugated / walls of the cracks.

 The invention consists in the following.

 The problem to which the invention is directed, is to increase the yield of row crops.

 The effect and technical result that can be obtained by carrying out the invention are expressed in a decrease in irrigation rates, surface runoff and soil erosion, as well as in the effective use of soil moisture.

 The specified effect and technical result in the implementation of the invention is achieved by the fact that in the known method of cultivating row crops, including tillage, cover harrowing, pre-sowing cultivation, sowing, watering and cultivating row-spacings, in the early spring period at the end of cover harrowing cut slots for soil aeration with compacted walls perpendicular to the direction of subsequent sowing, and the last row-spacing processing is combined with the work of water-catching slots with focal reservoirs in the bottom her part.

 To implement this method, in the first part of the new technological operation, a working device for the slotter is provided, comprising a rack, a chisel and a loosening element, the width of which is greater than the width of the rack, the loosening element is detachable and has the ability to be reinstalled along the height of the rack in technological holes offset equidistant to the rear end of the rack, the loosening element is made detachable and has the ability to reinstall the rack height in the technological holes displaced equidistant to the rear end of the rack; the loosening element has the shape of a body of revolution, on the middle part of which there is a threaded winding, and the extreme sections are in the form of cones facing each other with bases, while an opening for installation work is made in the body of one of the cones; technological holes are threaded; technological holes are equipped with threaded plugs.

 For the implementation of this method, a working device of the slotter is provided, comprising a rack, a chisel and a loosening element, the width of which is greater than the width of the rack, the loosening element provided with a latch is detachable and has the ability to be reinstalled along the height of the rack in technological holes offset equidistant to the rear end of the rack; the loosening element is made in the form of a ring; the outer diameter of the ring is made equal to 80-200 mm; the lock of the loosening element is made in the form of a sleeve with a slot; the slot of the sleeve is made in 1.05-1.10 times the thickness of the loosening element; each clamp sleeve and technological holes are tightened; the inner diameter of the hole of the sleeve of the retainer and the thickness of the ring of the loosening element are as 1: 1.5-2.0; the inner hole of the clamp sleeve is made in the form of truncated cones mated with small bases; on the rear edge of the rack in the direction of the technological holes made slots.

 An analysis of the level of technologies / methods / and techniques carried out by the Applicants, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, made it possible to establish that the Applicants did not find analogues / both in part of the method and in part devices for implementing the method /, characterized by features identical to all the essential features of the claimed invention. The proposed closest analogues for the method and for the device made it possible to identify a set of essential distinguishing features in relation to the technical result perceived by the Applicants in the claimed method and devices for implementing the method set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the compliance of the claimed invention with the requirements of the inventive step, the Applicants conducted an additional search for known methods and technical solutions in order to identify signs that match the distinctive features of the claimed invention from the closest analogue. The results of the verification show that the claimed invention does not follow for the specialist explicitly from the known level of technology and technology, in particular, the known inventions do not provide for known transformations.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 The proposed method of cultivating row crops and devices for its implementation are illustrated by diagrams and drawings.

 In FIG. Figure 1 shows the irrigated field when performing a technological operation - cutting cracks for soil aeration, plan view.

 FIG. 2 is a section AA in FIG. 1, a cross section of a slit with sealed (corrugated) walls by slits.

 In FIG. Figure 3 shows an irrigated field when cultivating a row crop, for example corn, during the last cultivation and making a water-catching slot with a focal reservoir in the lower part.

 Figure 4 is a section bB in figure 2, a cross section of a water-catching slit with a focal reservoir.

 Figure 5 shows the working body of the alkali machine, left view.

 Figure 6 is the same, left view.

 In Fig.7 is the same plan view.

 In FIG. 8 is a section BB in FIG. 6, the position of the loosening element in the technological hole of the rack.

 In Fig.9 - section GG in Fig.3, a threaded plug in the technological hole.

 In FIG. 10 shows a working organ of a slot machine for making water-catching slots with focal reservoirs in the lower part, left view.

 11 is the same, front view.

 In FIG. 12 is the same, plan view.

 In FIG. 13 is a section DD in FIG. 11, the relative position of the latch and the loosening element in the technological hole of the rack.

 The proposed method is implemented as follows.

 On the irrigated field 1, after harvesting the precursor, stubble cultivation is carried out and the main tillage is carried out - plowing with a turnover of the formation to a depth of 27 - 32 cm. In the early spring period after the cover harrowing, one or two tracks cut slots 2 for soil aeration with compacted / corrugated / walls 3 / see Fig. 1 and 2 /. Slots 2 are cut perpendicular to the direction of subsequent sowing. Slots 2 are cut with a distance from each other of 1.2 - 1.6 m to a depth of 0.4 - 0.5 m. The width of the slit 2 is 2 cm. The compaction of the walls 3 is carried out by local deformation of the soil in the lateral direction. With a slit width of 2 cm, lateral deformation is carried out by 8-10 cm. This allows you to create corrugated, compacted walls 3 of the shell 2, resistant to collapse. Through slits 2, intensive aeration of the soil occurs in the layer of 0.4 - 0.5 m and the soil is heated. Existing soil moisture from the upper layer is carried downward, increasing the soil moisture reserves.

When the soil temperature is reached in a layer of 0 - 10 cm 5-8 ^o C, pre-sowing cultivation is carried out to a depth of 6-8 cm. Cultivation is carried out by an aggregate including a caterpillar tractor DT-75M or VT-100 with a steam trailer cultivator KPS-4.0. The direction of movement of the cultivator unit coincides with the direction of the craft of slot 2. Sowing is carried out with a pneumatic mounted six- or eight-row seeder SUPN-6 or SUPN-8 in an aggregate with tractors MTZ-80/82 or MTZ-100/102. The sowing depth and sowing rate are set taking into account the type of hybrid corn and technological recommendations. The direction of sowing is made across the previously cut cracks 2. Depending on the weediness of the sowing, pre- and post-emergence harrowing and cultivation are carried out. When performing the last cultivation, the water-catching cracks 4 / cm are made. See FIG. and 4 / with focal reservoirs 5 in the lower part. The depth of the cracks 4 is 0.30-0.35 m. The width of the cracks is 4-16 mm. Slots 4 are performed in increments of 1.4 m from each other. Slots 4 are placed in the middle of the row spacing /0.7 m /. Watering is carried out by multi-support sprinkling machines of 6 different modifications. Watering norms are established taking into account zonal recommendations. During irrigation, irrigation water from the surface of the irrigated field 1 is intercepted by slots 4, excluding runoff, and sent to focal reservoirs 5. In focal reservoirs 5, water in the soil and subsurface horizons moves in the cavity of the cracks 2 cut in the early spring. Slots 2 must prevent surface runoff and ensure water absorption during the first vegetative irrigation. Slots 2 and 4, together with reservoirs 5 and corrugated walls 3, evenly distribute irrigation water over the surface of the irrigated area 1. Corn is harvested by commercially available maize harvesters.

 To implement the described method of cultivating row crops, a slitherer is used, which includes a frame, support wheels with screw mechanisms, hinge brackets, and working elements of the slot machine (see fig. 5-7 and 10 - 12 /.

The working body of the slot machine / see fig. 5-7 / for aeration of the arable and subsurface horizons contains a rack 7, a chisel 8 and a loosening element 9, the width of which l _{1 is} greater than the width t of the rack 7. The upper part 10 of the rack 7 is provided with mounting holes 11 for attaching the working body to the frame of the crevice. The front part 12 of the rack 7 is provided with three different inclined cutting edges 13, 14 and 15 of the dihedral blades 16, 17 and 18. The lower part 19 of the rack 7 is equipped with a bit 8. The width of the bit 8 V _{1 is} greater than the width t of the rack 7, but less than the width l _{1 of the} loosening element 8. The loosening element 8 is detachable and has the ability to be reinstalled in the height of the rack in the technological holes 20. The technological holes 20 are shifted towards the cutting edges 13-15 equidistant to the rear edge 21 of the rack 7. The loosening element 8 has the shape of a body of revolution, on the middle part 22 of which completed and threaded winding, and the extreme sections - in the form of cones 23 and 24, facing each other with bases. In the body of the cone 23, a hole 25 / FIG. 8 / for installation work. Technological holes 20 along the height of the rack 7 are threaded. Taking into account the physicomechanical properties of the cultivated soil, seven loosening elements 8 can be simultaneously installed along the height of the stand 7. With a smaller number of loosening elements 8, threaded plugs 26 / Fig. nine /.

 The cones 23 and 24 are made of different sizes. The cone 23 has a base with a diameter larger than the base of the cone 24. The base of the cone 23 is trimmed. This made it possible to bring the thread winding on the middle part 22 of the loosening element 8 as close as possible and to ensure proper mating with the side surface of the rack 7. The base of the cone 24 is slightly smaller than the diameter of the middle part 22 of the element 8. The diameter of the hole 25 is 11 mm, which ensures free placement of the winder with a diameter of 10 mm for screwing or screwing the loosening elements 8 into the threaded parts of the technological holes 20. The threaded plug 26 has an axisymmetric hexagonal hole for the hexagonal head / Fig.9 /.

 A device for cutting aeration cracks works as follows. Two racks 7 are simultaneously hung on the slitherer frame. The upper part 10 of the racks 7 is fixed by means of bolts installed in the mounting holes 11, in the required order the working elements of the slotting machines are fixed. The support wheels set the required depth of craft cracks. On the rack 7, loosening elements 8 are installed in the proper order. Threaded plugs 26 are screwed into the free technological holes 20.

 When lowering the frame of the tractor, the slit saw bit 8 touches the surface of the field and carries the stand 7 and loosening elements 8 into the soil and soil 8. The cutting edges 15, 14 and 13 of the blades 18, 17 and 16 respectively cut the layer of soil and soil in a vertical plane. The blades 16-18 and the lateral surfaces of the rack 7 deform the soil in the lateral directions, forming a slit 2 2 cm wide. The loosening elements 8 with their different-sized cones 23 and 24 deform the soil and soil in the walls 3 of the slit 2, forming compacted corrugations. The densified walls 3 of slit 2 have a density of 5-6 times greater than the density on the vertical surfaces of slit 2. Prior to the start of vegetative irrigation, excess moisture from the upper layer moves downward, increasing the overall humidity of the arable and subsoil horizons. At the same time, aeration of the soil occurs through the corrugated surface of slit 2. During the first irrigation, in the initial period of plant vegetation, slots 2 entrain non-absorbed water into the underlying horizons and this excludes surface runoff. The effectiveness of these cracks with an increase in the number of irrigations and irrigation norms decreases due to siltation of the upper parts of the cracks 2.

Device for making water-catching slits 4 with focal tanks 5 in the lower part / cm. FIG. 10-12 / comprises a stand 27, a chisel 28 and a loosening element 29. The width of the loosening element 29 is greater than the width of the stand 27 / D ₃ > t ₄ /. Equipped with a latch 30, the loosening element 29 is detachable and has the ability to be reinstalled by the height of the strut 27 in the technological holes 31 offset equidistant to the rear edge of the strut 27. The loosening element 29 is made in the form of a ring. The outer diameter D _{3 of the} ring is made equal to 80-200 mm The diameter D _{3 of the} ring of the loosening element 29 is selected taking into account the real density of the soil and its physical and mechanical properties.

 Each loosening element 29 in the technological hole 31 is fixed by a latch 30. The latch 30 of the loosening element 29 is made in the form of a sleeve with a slot 32. The slot 32 / b / of the sleeve of the latch 30 is made 1.05-1.10 times the thickness d of the ring of the loosening element 28 / b / d = 1.05-1.10).

In the working position, each retainer sleeve 30 in the process hole 31 is interfaced. The inner diameter of the hole of the sleeve D _{1 of the} retainer 30 D ₂ and the thickness d of the ring of the loosening element 29 D ₃ are referred to as 1: 1.5: 2.0. The inner hole of the sleeve retainer 30 is made in the form of truncated cones mated with small bases. The taper of the latter 1: 5. On the rear edge 33 of the rack 27 in the direction of the technological holes 31 are made slots 34 of width b.

 The upper part 35 of the strut 27 is provided with mounting holes 36 for connection with the cherezhere frame. The front part 37 of the strut 27 is equipped with two straight, multivariate cutting edges 38 and 39 of the dihedral blades 40 and 41. The bit 28 with the strut 27 is connected by welds.

 A device for making water-catching slots 4 with focal tanks 5 is as follows. When combining the operations of the last cultivation and craft slots 4 on the frame of the cultivator KRN-4,2, three parallelogram sections of the cultivator-plant feeder and two brackets for mounting the racks of 27 working bodies of the slotter are installed. When the workflow is carried out normally by sections of the cultivator's working bodies, bits of 28 racks 27 cut a slot 16 mm wide to a depth of 30 cm. When the rack 27 moves, the cutting edges 38 and 39 cut through the soil and are sealed with blades 40 and 41 of the walls of the cracks. Loosening elements 29 in the form of rings deform the soil in the lateral direction and form focal reservoirs 5. The loose top layer of soil from under the cultivating paws mulch the top layer and covers the stomata of each water-catching slot 4. When irrigation is irrigated with a multi-support sprinkler 6 (Fig. 3), the irrigation water is absorbed into the soil, and in the depressions it is intercepted by slots 4, rolls along its walls into focal reservoirs 5. When filling the volume of reservoirs 5, it rushes towards the unfilled slots 2, uniformly irrigating in th surface field occupied by row crops.

Thus, the above information indicates the fulfillment of the following conditions when using the claimed invention:
the claimed method and devices for its implementation are intended for use in agriculture during pre-sowing treatment - cutting slots for aeration of the soil and combined inter-row processing - making water-catching slots with focal tanks; the possibility of carrying out the invention is achieved using known methods and means; the proposed method of soil cultivation and inter-row cultivation when cultivating row crops is extremely effective, achieved at all stages of the plant life cycle, from seed growth to harvesting, the treatment method favorably affects the soil and irrigation water is used to the maximum; The technical result of the proposed devices for implementing the method is achieved with simplicity of design, the use of known elements and is characterized by wide possibilities.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (14)

 1. A method of cultivating row crops, including tillage, cover harrowing, pre-sowing cultivation, sowing, irrigation and row-spacing, characterized in that in the early spring period when the cover harrowing is completed, slots are cut for aeration of soil with compacted walls perpendicular to the direction of subsequent sowing, and the last row-spacing processing is combined with the work of water-intercepting slots with focal reservoirs in the lower parts.  2. A working element of the slotter containing a rack, a chisel and a loosening element, the width of which is greater than the width of the rack, characterized in that the loosening element is detachable and has the ability to be reinstalled in height of the rack in technological holes offset equidistant to the rear edge of the rack.  3. The body according to claim 2, characterized in that the loosening element has the shape of a body of revolution, on the middle part of which a screw winding is made, and the extreme sections are in the form of cones facing each other with bases, while an opening is made in the body of one of the cones for installation work.  4. The body according to claim 2, characterized in that the technological holes are threaded.  5. The body according to claim 2, characterized in that the technological holes are equipped with threaded plugs.  6. A working element of the slotter containing a rack, a chisel and a loosening element, the width of which is greater than the width of the rack, characterized in that the loosening element provided with a lock is detachable and has the ability to be reinstalled along the height of the rack in technological holes offset equidistant to the rear edge of the rack.  7. The body according to claim 6, characterized in that the loosening element is made in the form of a ring.  8. The body according to claim 7, characterized in that the outer diameter of the ring is made equal to 80 - 200 mm  9. The body according to claim 6, characterized in that the lock of the loosening element is made in the form of a sleeve with a slot.  10. The body according to claim 9, characterized in that the slot of the sleeve is made in 1.05 - 1.10 times the thickness of the ring of the loosening element.  11. The body according to PP.6 and 9, characterized in that each retainer sleeve in the technological holes is interfaced with an interference fit.  12. The body according to claims 7 and 9, characterized in that the inner diameter of the hole of the retainer sleeve and the thickness of the ring of the loosening element are 1: 1.5 - 2.0.  13. The body according to claim 9, characterized in that the inner hole of the retainer sleeve is made in the form of truncated cones mated with small bases.  14. The body according to claim 6, characterized in that the slots are made on the rear edge of the rack in the direction of the technological holes.

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