RU2305392C1 - Method for cultivation of farm crops, preferably winter cereal crops, under sharply continental climate conditions and apparatus for performing the same - Google Patents

Abstract

FIELD: intensive process for growing of winter wheat under acute soil moisture deficiency conditions, and agricultural engineering.

SUBSTANCE: method involves harvesting precursor; shelling stumble; applying fertilizer; plowing while turning soil layer; providing early spring covering harrowing; cultivating at 0.10-0.12 m depth; keeping fallow in clean state, i.e., free of weedage; sowing to 0.08-0.10 m depth; post-sowing rolling-down; creating seed bed during cultivation in early spring period; keeping fallow in clean state, i.e., free of weedage by mellowing and cultivating top layer to 0.04-0.06 m depth combined with undercutting of weedage roots without carrying-away of wet layer onto day surface. Cultivation hoe has tine, and right-hand and left-hand flat wings offset with respect to one another in lengthwise direction. Right-hand and left-hand wings are made L-shaped and are formed from carbon steel strip. On front part of upper face of each strip there is blade with cutting edge, and on lower face, under cutting edge and on opposite side of strip there are faceplates formed as tapes 6-8 mm wide and 0.1-0.2 mm thick. Tapes are formed from wear-resistant material.

EFFECT: provision for retention of soil moisture stocks, increased yield and improved quality of grain.

6 dwg

Description

The invention relates to agriculture and can be used to obtain sustainable yields of winter cereal crops with high grain quality when cultivated in a sharply continental climate.

A known method of cultivation of crops, in particular winter cereals - winter rye, winter wheat and winter barley, including optimizing the timing of sowing, in which it is recommended to use to determine the middle of the average long-term sowing season and ensure a favorable habitus of plants: tillering coefficient 4-6, height - up to 25 cm, while sowing in the steppe zone of chernozemic soils should start from 16.08, in the dry-steppe zone of dark chestnut soils from 21.08, the dry-steppe zone of chestnut soils from 26.08 and the semi-desert zone of light chestnut hours - from 01.09, the duration of the optimal sowing season is not more than 10 days (Methodological recommendations on adaptive technology for the cultivation of winter wheat in the Volgograd region / Comp. Ivanov V.M., Filin V.I., Korotich A.I., Belyakov A. M. Volgograd Institute for Advanced Studies in Agribusiness. - Volgograd, 1999. - 52 p. - P.30-37).

The disadvantages of this method include the fact that it does not take into account the moisture supply of crops.

There is a method of evaluating and forming the high potential productivity of agricultural plants, mainly winter cereal crops, when cultivated in a sharply continental climate, including optimizing the timing and norms of sowing, in which the average long-term sowing period of 10 days is determined by the sum of average daily temperatures within 550- 650 ° C, taking into account the formation of densities of productive stems per 1 m ² for harvesting, 650 pieces in the steppe zone of chernozem soils and 300-450 pieces of stems per square meter on chestnut trees soils, while the highest productivity is expected in the steppe zone of chernozem and dry steppe - dark chestnut soils with sowing from 08.25 to 05.09 and sowing rates (3.5-4.0) × 10 ⁶ germinating seeds per 1 ha, and in the dry steppe zone of chestnut and semi-desert zone of light chestnut at sowing rates (2.5-3.5) × 10 ⁶ units / ha and sowing dates from 01.09 (see. Production technology of high-quality winter and spring wheat grains (recommendations) / Responsible for production V.A .Vykhodtsev. - Volgograd: LLC "Print", 2002. - 76 p. - S. 36-38).

The disadvantages of this method of forming the high potential productivity of winter crops can be attributed to the fact that this method does not take into account the moisture content of the territory, which is described by the hydrothermal coefficient (SCC), which characterizes the degree of lack or excess of moisture relative to the available heat resources.

A known method for predicting and generating high potential productivity of winter wheat when cultivated using intensive technology, including sowing, coinciding with the date of transition of the average daily air temperature through 18-19 ° C, in the steppe zone of chernozem soils from August 16, in the dry steppe zone of dark chestnut soils - from August 21, in the dry steppe zone of chestnut soils - from August 26 and the semi-desert zone of light chestnut soils - from September 1, while the duration of the period of optimal sowing of winter crops is 10 days with sowing rates e a (4,0-4,5) × June ¹⁰ pieces / ha germinating seeds (Evidence-based dry farming system Volgograd region 1986-1990 gg.- operate:.. Nizh.-Volga region book publishing house, 1986, 256 S. - S.128-132).

The disadvantages of this method include the fact that it does not take into account the reserves of productive moisture in the sowing and arable soil layers and the heat supply of crops during the period from sowing to the termination of the growing season.

The closest analogue as a method for the formation of high productivity of winter crops in the extremely arid climate of the south of the Russian Federation is the recommendations on the strategy and tactics of sowing winter crops in the farms of the Volgograd region in 2002, including sowing winter wheat in the first soil and climate zone since August 16, in the second zone - from 21, the third - from August 26 and in the fourth zone - from September 1, limiting its duration to ten days, taking into account the establishment of the middle of the optimal sowing period necessary with ummah of positive temperatures 600-650 ° C from sowing to stop the autumn vegetation, sowing norms are set within (2.5 ... 3.5) × 10 ⁶ germinating seeds per 1 ha for the IV and III zones of the region and (2.0 ... 4.5) × 10 ⁶ germinating seeds per 1 ha in the II and I zones (see Recommendations on the strategy and tactics of sowing winter crops in the farms of the Volgograd region in 2002 / Comp. Alekseenko V.N., Balakshina V. I., Balashov V.V. et al. - Volgograd, 2000 .-- 16 p.).

Despite many years of experience in cultivating winter crops in a sharply continental climate, the described method does not take into account the supply of productive moisture in the soil and SCC of various soil and climatic zones during the formation of crops in the autumn period.

Maintaining vapors in a sharply continental climate in good condition during the May-August months is the key to maintaining soil moisture reserves and creating favorable mineral nutrition regimes. Steam care is carried out by steam cultivators equipped with flat-cutting legs.

Known is the working body of the cultivator containing the nose, wings with cutting wedges, a shank located behind the bit and adjacent to the trailing edges of the wings, a reinforcing layer of metal on the rear faces of the wedges, in which, in order to increase operational reliability, the central part of the wings at the nose has at a width equal to (0.85-1.10) L, where L is the width of the base of the shank, the taper angles are larger, and the width of each rear edge of the wedges in this part of the wings is smaller than the corresponding taper angles and the width of the corresponding edge Flying wedges in the sections of the wings adjacent to the central part of them, and the end sections of the wings bounded by their lateral faces and straight perpendicular to these faces have sharpening angles of the cutting wedges and the width of their hind edges equal to the corresponding angles and faces of the cutting wedges of the central part of the wings ( SU, copyright certificate No. 1613012 A1, M. class ⁵ А01В 35/20. Working body of the cultivator / Rogoznikov P.A., Tsepulin V.A., Khazov SM, Tasilin V.I., Starginsky I.M. (THE USSR). - Application No. 4409501 / 30-15; Stated April 12, 1988; Publ. 12/15/1990, Bull. No. 46).

The disadvantages of the described working body of the cultivator in relation to the problem we are solving - the destruction of weeds without the removal of moist soil layers on the day surface - include poor quality of weed root cutting, overhanging of the stems on the stand, low self-cleaning of the wings, and lateral shift of soil aggregates.

At each pass of the cultivating unit with the described working bodies, a new soil bed is formed. This leads to the drying out of soils in the entire arable horizon.

The closest analogue to the claimed object in terms of technical means for maintaining vapors during the period May-August in its pure form without weedy vegetation is a cultivating leg containing a stand, right- and left-wing plane-cutting wings that are offset one from the other in the longitudinal direction, in which in order to improve the quality of soil cultivation at work, the paw is equipped with a vertical flap located between its wings and connected to them and with a stand, with a front face having lower and upper inclined one to the other part, with the longitudinal displacement of the wings of the paw and the height in the lower part of its flap is determined by the ratio l / h = 2-5.3, and the height of the lower part of the flap is respectively 30-35 mm, and at the lowest height of the lower part of the flap the longitudinal displacement of the wings of the paw will be the largest (SU, copyright certificate No. 1701129 A1, M. Cl. ⁵ A01B 35/22. Cultivating paw / G.I. Ivko, Yu.A. Kolesnikov, BC Novokhatsky, D.Z. Seleznev, V. A. Selivanov (USSR). - Application No. 4792882/15; Declared December 29, 1989; Publ. 12/30/1991, Bull. No. 48).

The disadvantages of the described working body include, despite the presence of a shield, overhanging of weeds on the stand, formation of furrows behind it, the complexity of the design and the shift of soil aggregates to the side due to the presence of a rear angle in the wings. The design of the wings of the legs does not provide its plane-parallel movement.

The essence of the claimed invention is as follows.

The task to which the claimed invention is directed is to preserve and increase the reserves of available soil moisture in the root-inhabited horizon, to accumulate and preserve the reserves of mineral nutrition, introduced mineral and organic fertilizers during primary tillage.

The technical result is an increase in yield and grain quality of winter cereal crops.

The specified technical result in terms of the method is achieved by the fact that in the known method of cultivating crops, preferably winter cereal crops in sharply continental climates, including harvesting the predecessor, stubble cultivation, fertilizing, plowing with the formation revolution, early spring cover harrowing, cultivation to a depth of 0 , 10 ... 0.12 m, maintaining vapors in a pure form without weed vegetation, sowing to a depth of 0.08 ... 0.10 m, post-sowing rolling, according to the invention, seed bed pops they grow during cultivation in the early spring, and the maintenance of vapors during the period May-August months in their pure form without weed vegetation is carried out by loosening and cultivating the upper layer to a depth of 0.04 ... 0.06 m with cutting the roots of weed vegetation without removing the wet layer day surface.

The specified technical result in terms of technical means is achieved by the fact that in the known cultivating paw containing a stand, right- and left-handed plane-cutting wings that are offset one from the other in the longitudinal direction, according to the invention, the right-and left-handed wings are made L-shaped and formed from steel carbon strip, on the frontal part of the upper face of each strip, a blade with a cutting edge is made, and on the lower face under the cutting edge and on the opposite side of the strip are made on shops in the form of tapes of width 6 ... 8 mm and a thickness of 0.1 ... 0.2 mm of wear resistant material.

The invention is illustrated by drawings.

Figure 1 presents a cultivating paw, side view.

Figure 2 is the same plan view.

Figure 3 is the same front view.

In Fig.4 - section aa in Fig.1, the displacement of one relative to the other vertical parts of the L-shaped right- and left-wing wings in the longitudinal direction.

In Fig.5 is a section bB in Fig.2, a cross section of the left-wing plane-cutting wing with the deposition of surfacing under the blade and on the opposite side of the lower edge of the strip.

Figure 6 is a scan of the right-handed plane-cutting wing before giving it an L-shaped shape, view from the side of the blade on the upper face of the structural steel carbon strip.

Information confirming the possibility of implementing the claimed invention in terms of technology for the cultivation of winter cereal crops, are as follows.

A method of cultivating crops, preferably winter cereal crops, in a sharply continental climate involves harvesting the precursor. A layer of perennial herbs, including alfalfa, clover and other legumes, is considered as a predecessor.

Then, stubble is peeled to a depth of 0.12 ... 0.16 m with disk cultivators of the LDG-10 family. Organic fertilizers are applied at a rate of 10 ... 20 t / ha with organic fertilizer spreaders of the ROU-6 or ROU-8 models. Mineral fertilizers based on N 10 ... 20 kg / ha, P 50 ... 80 kg / ha and K 10 ... 20 kg / ha are applied superficially with machine 1 RMG-4 in aggregate with a wheeled tractor MTZ-80. Plowing is carried out by plowshares of the PLN - 5-35 family, equipped with skimmers. When plowing the arable layer, plant and crop residues introduced by potash, phosphorus and organic fertilizers are embedded in the arable horizon. During the autumn-winter period there is an accumulation of soil moisture. In the early spring, moisture is covered by harrowing in two tracks with BZSS -1.0 tooth harrows connected through a SP-16 coupler to a traction tractor of draft class 3. Harrowing is carried out across the plowing. This achieves the alignment of the surface of the plowed field. In the last decade of April, the steam field is cultivated to a depth of 0.10 ... 0.12 m. This operation accomplishes two tasks: the destruction of cold-resistant weeds and laying the seed bed during cultivation in early spring under the August sowing. During this period, soil moisture reserves are sufficient. A seedbed made by cultivating paws cuts off soil moisture reserves from the arable horizon. Then - during May, June, July, August months - they keep the vapor in its pure form without weed vegetation. Maintenance of vapors during the May-August months in their pure form without weed vegetation is carried out by loosening the surface layer only to a depth of 0.04 ... 0.06 m and cultivating weed vegetation with cutting their roots without removing the wet layer to the day surface. When performing this operation with plane-cutting cultivator paws at a depth of 5 ± 1 cm, a significant decrease in the traction resistance of the cultivator, an increase in the working speed of the tractor unit to 10 ... 12 km / h, a reduction in hectare fuel consumption of up to 3.16 l / ha and an increase in productivity are achieved up to 8 ha / h. The introduction of nitrogen fertilizers with a norm of 10 ... 20 kg / ha is carried out when sowing with grain seeders NWT - 3.6. Sowing winter crops lead to a depth of 0.08 ... 0.10 m. Seeds are laid on a soil bed prepared in the early spring. With a sowing depth of 0.08 ... 0.10 m, friendly and stable seedlings appear on the 6 ... 8 day after sowing. Post-sowing rolling is carried out by ring-spur rollers ZKKSh-6A. The achievement of the technical result of the described method is implemented by steam cultivators equipped with cultivating legs, one of which is shown in Fig.1-3.

The cultivator leg contains a rack 1, a right-handed plane-cutting wing 2 and a left-side plane-cutting wing 3. The wings 2 and 3 on the front parts have cutting edges 4. The cutting edges 4 are made by sharpening the upper faces 5 of wings 2 and 3 at an angle i equal to 15 ... 18 °. Under the cutting edges 4 on the back side of the faces 5 are surfaced 6 in the form of tapes 6 ... 8 mm wide and 0.1 ... 0.2 mm thick from wear-resistant material. Right and left-wing wings 2 and 3 are equipped with vertical shelves 7 and 8. The wing 2 with the shelf 7 is connected in arcs with a radius R equal to 8 ... 12 mm (see figure 3). Similarly, the wing 3 is connected to the vertical shelf 8. In the front view, the wing 2 with the shelf 7 and the wing 3 with the shelf 8 acquire L-shaped. The cutting edges 4 of the wings 2 and 3 in a plan view to the direction of movement of the rack 1 are inclined at an angle γ (see figure 2). The angle γ is set within 45 ° ± 5 °. Vertical shelves 7 and 8 are offset relative to one another in the longitudinal direction (see figure 1). The cutting edges 4 of the vertical shelves 7 and 8 are inclined to the direction of movement at an angle β (see figure 1), the value of which is set within 45 ° ± 5 °. The angles γ and β are related by: <γ + <β = 90 °. This is obvious from the drawings shown in figures 1, 2 and 6. Wing 2 with a shelf 7 and a wing 3 with a shelf 8 are made of steel structural strip section 5 × 60 mm Each of them is given an L-shaped form by folding the latter along line 9 (see FIG. 6) until they are given a vertical (perpendicular) position to one another. The length l _{1 of the} horizontally mounted wing 2 refers to the length l _{2 of the} vertical shelf 7 as (4 ... 6): 1. The vertical shelves 7 and 8 are provided with holes 10 for mounting on the lower part 11 of the rack 1. The lower part 11 of the rack 1 has an upper and lower inclined edges 12 and 13 (see figure 1). Shelves 7 and 8 to the lower part 11 of the rack 1 are fixed by fasteners 14 (see figure 2 and 3). The mounting part 15 of the rack 1 is installed in the short and long leads of the steam cultivator.

The cutting edges 4 of the blades on the upper face 5 of the steel billet and surfacing 6 under the cutting edge 4 (see FIGS. 4 and 5) and surfacing 16 on the opposite sides of the wings 2, 3 and shelves 7, 8 are performed until they are L-shaped.

Surfacing 16 in the form of tapes 6 ... 8 mm wide and 0.1 ... 0.2 mm thick made of wear-resistant material on the back faces of wings 2, 3 and shelves 7, 8 ensure their stable movement when cutting weed roots and crumbling top layer of soil.

The cultivating paw works as follows.

Racks 1 are mounted in the holders of the leashes of a steam cultivator, for example KSO-4. The helical mechanisms of the support wheels set the cultivation depth within 5 ± 1 cm. When the cultivator moves, the cutting edge 4 of the vertical shelf 7 cuts the soil layer into the left and right parts. Due to the inclination of the cutting edge 4 at an angle β to the horizontal (see Fig. 1), the condition of cutting the stems of weed vegetation on an elastic basis is achieved. The roots in the layer h with a cutting edge 4 are cut into the left and right parts. Due to the continuity of the cutting edge 4, overhanging or uncut roots from the vertical flange 7 smoothly descend to the cutting edge 4 of the right plane-cutting wing 2. Smooth weed exit from the lower part 11 of the rack 1 is facilitated by the lower inclined face 13, which bends the stems to the surface of the field, creates bending voltage in the roots of weeds, as well as the fact that the installation of the lower part 11 of the rack 1 is made above the surface of the field by Δh (see figure 3). The inclination of the cutting edges 4 of the wings 2 and 3 at an angle δ to the direction of movement and the shelves 7 and 8 at an angle β to the horizontal provide the actual cutting angle δ, significantly smaller than the sharpening angle i itself. These design conditions ensure complete cutting of weeds in the soil layer at a shallow depth of 4 ... 6 cm from the day surface.

Presented on the drawings and in the description of the geometry of the wings 2 and 3 and their operating modes exclude the removal of the wet soil to the day surface. The topsoil is crushed into agronomic valuable soil fractions and, together with cut weeds, mulch the topsoil. By the time of sowing, the vegetative part of the weeds under the influence of wind, sun and rainfall is destroyed, enriching the root horizon of the soil with organic matter.

The claimed method for the cultivation of winter cereal crops in a sharply continental climate and the proposed working bodies for a steam cultivator for steam care in comparison with the basic technology for the cultivation of winter crops will provide a guaranteed increase in yield by 16 ... 22%. The gross harvest of winter wheat in the Volgograd region is 4.6 ... 5.8 t / ha.

Claims (2)

1. The method of cultivation of crops, preferably winter cereal crops, in a sharply continental climate, including harvesting the predecessor, stubble cultivation, fertilizing, plowing with a turnover of the reservoir, early spring cover harrowing, cultivation at a depth of 0.10 ... 0.12 m , maintaining vapors in a pure form without weed vegetation, sowing to a depth of 0.08 ... 0.10 m, post-sowing rolling, characterized in that the seed bed is created during cultivation in the early spring, and maintaining vapors in a pure form without weeds are loosening and cultivation of the upper layer to a depth of 0.04 ... 0.06 m with a cut roots of weeds without removal of the wet layer on the surface. 2. A cultivating leg containing a stand, right- and left-handed plane-cutting wings that are offset one relative to the other in the longitudinal direction, characterized in that the right and left-handed wings are made L-shaped and formed of a carbon steel strip, on the frontal part of the upper face of each the strip has a blade with a cutting edge, and on the lower edge under the cutting edge and on the opposite side of the strip are surfaced in the form of tapes 6 ... 8 mm wide and 0.1 ... 0.2 mm thick from wear-resistant material.

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