RU2284093C1 - Method for forming of ridges in the process of presowing treatment of loamy soil and apparatus for performing the same - Google Patents

Abstract

FIELD: agriculture, may be used in vegetable growing.

SUBSTANCE: method involves cutting furrows by means of hiller hoes; forming ridges by raising, turning and laying of undercut soil layers on ridge bases; grinding soil crumbs by means of rotavator knives to seeding depth; leveling and forming ridges having height below 15 cm and apex width within 15-20 cm; forming concave curvature on surface of apex of each ridge, said curvature having elliptical section, and said ridges having slopes with angles of 45-55 deg; grinding soil crumbs to sizes of about 3 mm in sowing zone on surface at the level not below 60% of ridge surfaces by means of rotavator knives; providing soil density within the range of 1.15-1.25 g/cm³ using pressure of roller. Apparatus for forming ridges comprises frame carrying sequentially arranged sections of hiller hoes, rotavation drum with housing, and roller for compacting of ridges formed. Side shields of housing serve as ridge forming members. Roller is pivotally mounted on frame by means of pressing spring-loaded bar, is positioned between side shields and has width smaller than width of ridge surfaces. Side wings of hiller hoes on landward edges are equipped with cutting plates pivotally attached to land edges and are connected with one another through tensioning mechanism allowing ridge slope angle and width to be adjusted.

EFFECT: provision for retention of atmospheric precipitations, elimination of water and wind erosion, and provision for growing of small-sized seed vegetable crops without irrigation thereof in water deficiency zones.

3 cl, 5 dwg

Description

The invention relates to agriculture, in particular in the manufacture and processing of ridges on loamy soils intended for sowing small-seeded vegetable crops, for example, carrots.

A known method of processing loamy soils with the subsequent formation of ridges on them (see USSR, AS 1521321, A 01 B 79/00, 79/02, 1987). The known method relates to the processing of heavy loamy soils, for example, under potatoes, includes crushing soil lumps to the entire depth of the arable horizon and the formation of ridges from it. To increase productivity by improving the development of the root system of plants when processing loamy soils, a fraction of less than 25 mm is separated from the arable horizon and laid in the lower layer of the horizon, and the remaining part of the large soil fraction is crushed to a size of 25-30 mm and laid on a layer of small soil fraction . Then, with the formation of ridges, a small fraction of the soil from the lower arable horizon is laid at the base of the ridges, and a larger fraction of the soil from the upper arable horizon is laid on the surface of the ridges. The known method of processing loamy soils with the simultaneous formation of ridges is intended for planting (sowing) of large-seed crops, in particular potatoes, and is not acceptable for sowing small-seeded vegetable crops. Since when seeding the ridges between the soil lumps and seeds in the loose soil layer, full contact is not ensured, the seeds lose moisture, dry out and are subject to wind and water erosion during atmospheric precipitation. As a result, the seeds die or sprout in time with a great delay, which is associated with a loss of productivity.

Known cultivator comb for the pre-sowing tillage for planting potatoes and other vegetable crops (see USSR, AS 1817664, A 01 B 13/02, 1993). In the known cultivator, a method and device for cultivating the soil with simultaneous crafts of ridges are implemented. The essence of the method consists in the fact that the soil lumps are crushed with frezbara knives over the entire working width of the aggregate, then grooves are cut by ridges with the formation of ridges by lifting, wrapping, laying the trimmed soil layers on the base of the ridges and forming, with simultaneous compaction, the ridges formed by the profiling roller.

The cultivator-comb generator for the implementation of the method includes a frame and a milling drum fixed to it in a technological sequence for continuous tillage, sections of ridges for the formation of ridges and a profiled roller for the formation and compaction of the formed ridges, driven forcibly into rotation through the hydraulic motor from the tractor hydraulic system. The well-known comb-cultivator is also intended for soil preparation for planting (sowing) large-seeded crops, such as potatoes and other vegetable crops. Since the preliminary crushed fraction of soil lumps by fret knives, when ridges form ridges, will wake up at their bases, and on the surface of the ridges a larger fraction of soil lumps will be located, which is not acceptable for sowing small-seeded crops. In addition, the implementation of a single milling drum and skating rink for compaction of ridges over the entire working width of the unit creates difficulties in regulating the parameters (width, height, slope angles) of the ridges formed and the use of care techniques for growing vegetable crops.

There is a method of making ridges for pre-sowing treatment of loamy soils, implemented in the device - comb KFK-2,8, adopted by us as a prototype (see Machines and equipment for the agricultural sector, manufactured in the CIS countries: Katolog. - M .: FGNU "Rosinformagroteh", 2001 .-- 292 p.). A known method of making ridges involves cutting furrows with ridders, the formation of ridges by lifting, wrapping and laying the trimmed soil layers on the base of the ridges, grinding the soil lumps with milling knives, leveling and forming ridges. A device for implementing the known method includes a frame and hills sectionally mounted on it in a technological sequence and a milling drum with a casing, the horizontal and side shields of which simultaneously serve as forming elements of the ridges. The known method of making ridges and a device for implementation does not provide optimal parameters for combing and soil structure in the seed sowing zone, which would allow the cultivation of small seeded vegetable crops on non-irrigated areas of loamy soils and exclude wind and water erosion during atmospheric precipitation.

The technical task of the present invention was the development of optimal parameters of the method of forming ridges, soil structure in the area of sowing seeds and devices for its implementation.

Regarding the method, this is achieved by the fact that, in contrast to the prototype, ridges form peaks with a height of not more than 15 cm, with a width of 15-20 cm, peaks whose surfaces form a concave curvature in the form of ellipses, and slope angles of 45-55 °, and grinding soil lumps with milling knives in the seeding zone is carried out to a size of 3 mm not less than 60% and the soil density is brought to the limits of 1.15-1.25 g / cm ^{3 by the} pressure of the roller. The formation of ridges with the indicated parameters and the concave curvature of the compacted surfaces of the ellipse type allows to improve the moisture, air and thermal conditions of the soil and eliminates wind and water erosion of the soil. The fine fraction of soil in the zone of sowing seeds with a structure of soil lumps of at least 60% and a soil density in the range of 1.15-1.25 g / cm ³ provides the subsequent sowing of small seeded vegetable crops, contact between soil lumps and seeds and moisture access to the latter. Regarding the device for implementing the method, this is achieved by the fact that, unlike the prototype, it is equipped with a roller located behind the milling drum between its side flaps of the casing for sealing formed ridges, pivotally mounted on the frame by means of an arm and a spring loaded rod and made with a working width less than crest surface; the side wings of the pups are equipped with cutting plates attached to the field edges to regulate the slopes of the ridges, and for divorce are interconnected by a screw tension mechanism. Providing the device after the milling drum with a roller for compaction of the ridges formed, pivotally mounted on the frame by means of a spring-loaded pressure rod and made with a working width less than the surface of the ridges, provides the necessary soil density in the seeding area and creates a compacted bed for seeds with concave curvature on the surface of the ridges kind of ellipses. The supply of the side wings of the hills on the field edges with cutting plates and their connection for divorce with a screw tension mechanism ensures the regulation of the width of the ridges formed and their slope angles.

The invention meets the requirement of unity, because the "Method of making ridges during pre-sowing treatment of loamy soils and a device for its implementation" is aimed at solving the same problem - the development of optimal parameters for the formation of ridges and soil structure in the seed zone and can only be used together. The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and identification of sources containing information about analogues of the claimed method and device for its implementation, allowed to establish that the applicant did not find analogues for both the method and the device, characterized by signs, all the essential features of the claimed method and device.

Thus, the patented invention meets the criterion of "novelty."

To verify the compliance of each object of the patented invention with the criterion of "inventive step", the applicant conducted an additional search for known solutions to patent and scientific and technical sources of information. The search results showed that the method and device for its implementation of the patented invention on the set of distinctive features does not fall under the well-known technical solutions and does not follow for the specialist explicitly from the prior art.

Figure 1 shows a cross section of ridges and figure 2 is the same - the structure of soil lumps in the seeding zone formed by the claimed method; figure 3 - device for implementing the method, side view; figure 4 - section aa - the location of the packer roller between the side shields of the casing, figure 5 - device - view in plan. The method of making ridges involves cutting furrows with ridders, forming ridges by lifting, wrapping, and laying the cut soil layers on the base of the ridges, crushing the soil lumps with milling knives to the seeding depth, leveling and forming ridges. A distinctive feature of the method is that ridges are formed with a height of not more than 15 cm and a vertex width of 15-20 cm, the surfaces of which in section form a concave curvature of the shape of ellipses (Fig. 1) and slope angles of 45-55 °, and the crushing of soil lumps in the seeding zone (figure 2) is carried out to a size of 3 mm not lower than 60% and the soil density is brought to the limits of 1.15-1.25 g / cm ³ .

The device for implementing the method (Figs. 3-5) comprises spouts 2 mounted on the frame 1 in a technological sequence, a milling drum 3 with a casing, side flaps 4 of which are simultaneously forming elements of the ridges, a roller 5 for sealing the ridges located between the side flaps of the casing and made with a working width less than the surface of the ridges. The roller is mounted on the frame pivotally, by means of an arm 6 and a spring-loaded push rod 7. The pressure on the roller is regulated by a spring 8 and a lock nut 9. The side wings of the pupils on the field edges are equipped with pivotally attached plates 10 and interconnected by a screw mechanism 11.

The method is carried out by the device and occurs in the following technological sequence. Hooks 2 cut furrows and form ridges with a height of not more than 15 cm by lifting, wrapping and laying cropped soil layers on the base of the ridges. Next, the knives of the milling drum 3 in the zone of sowing seeds (figure 2) crush the soil lumps on the surface of the ridges to a size of 3 mm not less than 60%. Grinding the soil lumps to the size of the required fractions is achieved by adjusting the speed of the milling drum and the translational speed of the unit. The ridges are formed by the side shields 4 of the milling drum with optimal parameters for the width of the peaks within 15-20 cm and slope angles of 45-55 °. The roller 5, located along the track of the milling drum between its side flaps 4, is made across the width of the grip less than the surface of the ridges, compacts the ridges and forms a concave curvature in the form of ellipses on their surface (Fig. 1). The ellipsoidal compacted surface of the ridges ensures the preservation of atmospheric precipitation, the reception of radiant heat of the sun and eliminates water and wind erosion of the soil, which allows you to grow small seeded vegetables without watering in areas of insufficient moisture. The roller 5 is mounted on the frame 1 pivotally by means of an arm 6 and a pressure-loaded spring rod 7 (Figs. 3, 4) when establishing optimal soil density parameters in the seed zone within 1.15-1.25 g / cm ^{3 is} regulated by a force spring 8 and lock nut 9. The adjustment of the optimal parameters of the slope angles of the ridges within 45-55 ° is ensured by the cutting plates 10 pivotally attached to the field edges of the ridger 2, and the width of the furrows is regulated by the screw mechanism 11 for the separation of the side wings of the ridger 3 (Fig. 5) depending on the track firs technical means of cultural care for vegetable crops.

The patented method for making ridges during presowing treatment of loamy soils and a device for its implementation have been tested experimentally on carrot crops. The verification results confirmed the economic efficiency of the proposed method in comparison with the control - flat surface; formed KFL-2.8 ridge surface (prototype) (table 1, 2, 3).

Table analysis 1 shows that in favorable years (or when using irrigation), the effect of the proposed ridge profile increases by 13% compared to a flat surface and by 7% in comparison with ridges formed by KFK-2.8 (prototype). According to the proposed method, a special effect is caused by an altered lump of the soil, especially in adverse years. The increase in standard products is 28%. This is due to increased field germination of seeds. The effect of using soil density in the seed sowing zone in the upper part of the ridge is also created maximum in adverse years and reaches 29.4%. Table 2 shows the economic efficiency from the use of the proposed ridge surface. Income from the sale of standard products compared to a flat surface is 35% higher and 25% higher, respectively, than on the ridge surface formed by KFK-2.8 (prototype).

Table 3 shows the indicators of cost reduction from the use of the proposed ridge surface when transporting land in a heap per ton of standard products in comparison with a flat surface. These costs are reduced by 24% and, accordingly, with ridge (KFK-2.8) of the prototype by 18%.

Table 1
Standard Output Surface shape When changing the ridge profile When the lumpiness of the upper layer of the ridge changes When changing the seal of the upper layer of the ridge t / ha % t / ha % t / ha % 2002 year Flat 14.3 one hundred 14.3 one hundred 14.3 one hundred Ridge existing (KFK-2.8) 10.9 76,2 10.9 76,2 10.9 76,2 Combs offered 15.7 109.9 18.3 128.0 18.5 129.4 2003 year Flat 21,4 one hundred 21,4 one hundred 21,4 one hundred Ridge existing (KFK-2.8) 22.9 107.0 22.9 107.0 22.9 107.0 Combs offered 24.3 113.3 24.3 113.6 22.9 107.0 table 2
Economic efficiency from the introduction of promising ridge surface Surface shape Cost of production, thousand rubles / t Productivity, t / ha Selling price, thousand rubles / t Production costs, thousand rubles / t Revenue from the sale of standard products, thousand rubles / t Profit common standard products thousand roubles % Flat 1,2 45.7 21,4 3,5 54.8 74.9 20.1 one hundred Ridge existing (KFK-2.8) 1.3 44,2 22.8 3,5 57.4 79.8 22.3 110 Combs offered 1.3 45.7 24.2 3,5 57.4 84.7 27,2 135

Table 3
Reducing the cost of transporting land in a heap per ton of standard products Surface shape Productivity, t / ha Earth mass, t The cost of transporting a heap from the field, rub. Costs of land removal, rubles. The cost of transporting the heap from the field and the removal of land common standard products per ton of production in a heap rub / t standard products % Flat 24.3 14.3 0.2 4.86 1225 34 88 one hundred Ridge existing (KFK-2.8) 17.1 10.9 0.08 1.36 775 10 72 82 Combs offered 22.9 15.7 0.08 1.83 1039 13 67 76

Claims (3)

1. The method of forming ridges during pre-sowing treatment of loamy soils, including cutting furrows with hills, forming ridges by lifting, wrapping and laying the trimmed soil layers on the base of the ridges, grinding the soil lumps with milling knives to the seeding depth, leveling and forming ridges, characterized in that the ridges form a height of not more than 15 cm, with peaks 15-20 cm wide, on the surface of which they form a concave curvature having an ellipse shape in cross section and slope angles of 45-55 °, while milling but by pressing in the seeding zone, at least 60% of the soil lumps are crushed to 3 mm in size, and the soil density is brought to the limits of 1.15-1.25 g / cm ^{3 by the} pressure of the roller. 2. A device for forming ridges during pre-sowing treatment of loamy soils, including a frame and ridgers and a milling drum with a casing having horizontal and side shields for simultaneous formation of ridges mounted on it sectionally in the technological sequence, characterized in that it is provided located between the milling drum between the side shields of its casing with a roller for sealing formed ridges mounted on the frame articulated by an arm and a spring-loaded pressure rod with a working width less than the surface of the ridges. 3. The device according to claim 2, characterized in that the side wings of the ridgers are equipped with cutting inserts pivotally attached to the field edges to regulate the slope angles of the ridges, and to adjust the width and angle of the slope of the ridges formed are interconnected by a screw tension mechanism.

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