RU2111635C1 - Method for weediness control and beet planting - Google Patents

Abstract

FIELD: agriculture, in particular, feed and sugar beet cultivation. SUBSTANCE: method involves performing precision, small seeding rate or single-grain drilling; providing first cultivation with following single or double mellowing of soil depending on soil state and weediness extent. Mellowing is conducted by combined tool at the stage of appearance of 3 to 5 pairs of leaves. Strips of 5-10 cm width adjacent to protective zone are tilled by cutters for 4 cm depth. Soil in protective zone and rows is mellowed in transverse strips at an angle of 60-90 deg relative to row axis with interval of 5-10 cm at variable depth of 3-7 cm by means of finger ripper and, simultaneously, overall tillage of soil in rows and spacings is carried out by rotary tools for depth of up to 4 cm. Method allows up to 95% of weedage to be eliminated. EFFECT: increased efficiency in weed control and simplified method. 3 dwg

Description

 The invention relates to agriculture and can be used in the cultivation of sugar and fodder beets.

 A known method of weed control, including the care of cultivated plants by repeatedly loosening the soil in rows and rows [1].

 The disadvantage of this method is that repeated loosening of the soil in rows and row-spacings leads to damage to some of the crops grown and does not ensure the complete destruction of weed vegetation, especially with precision sowing or sowing with small norms.

 The closest in technical essence to the claimed method is a method of weed control according to the “machine technology for the production of sugar and fodder beets without the use of herbicides” developed by VIM [2], selected as a prototype, including sowing, the first ball and subsequent loosening of the soil. According to this technology, three balls are made and manual or automatic thinning of beets is carried out. The first beet ball is held at the first appearance of the beet rows, the second - at 1 - 3 pairs of real leaves, and the third - at 4 - 5 pairs of real beet leaves.

 The disadvantage of this technology is that it does not ensure the complete destruction of weeds and the presence of manual labor in the formation of beet crops, and the use of this method at low rates or accurate sowing will lead to a significant reduction in plant density and yield.

The essence of the invention lies in the fact that in the method of combating clogging and the formation of crops of beets, including sowing, the first ball and subsequent loosening of the soil, according to the invention, the subsequent 1 to 2-fold loosening of the soil is carried out in a phase from 3 to 5 pairs of real leaves, while strips with a width of 5-10 cm near the protection zone are treated with cutters to a depth of 4 cm, the soil in the protection zones and rows is loosened with transverse stripes at an angle of 60 - 90 ^o to the row axis with an interval of 5-10 cm for a variable depth of 3 to 7 cm with a finger loosening and simultaneous sp by loosely loosening the soil in rows and row-spacings by rotary working bodies to a depth of 4 cm.

Comparison of the proposed method with the prototype shows that it is new to conduct 1 to 2-fold loosening of the soil in a phase of 3 to 5 true leaves with a combined tool - a mill + a finger cultivator + rotary. Milling the soil near the protective zone in a strip - with a width of 5-10 cm to a depth of 4 cm on both sides of the row; with a finger cultivator - the soil in protective zones and rows is loosened in transverse strips at an angle of 60 - 90 ^o to the row axis with an interval of 5 - 1 cm to a variable depth of 3 to 7 cm, and then rotational working bodies loosen the soil in rows and row-spacings.

 Loosening near the protective zone gives an increase in weed control due to increased mechanical tillage and desiccation of the soil.

 Transverse variable loosening provides an increase in the degree of destruction of weeds due to the complete combing out of weeds and desiccation of the soil in the layer of germination of their bulk and the formation of beet crops.

 Loosening by rotary working bodies in rows and row-spacings ensures smoothing of the soil surface and the creation of a finely lumpy structure that reduces moisture evaporation from the lower (below the depth of loosening) soil layers.

 Thus, the claimed technical solution meets the criteria of the invention of "Novelty."

 The invention meets the criterion of "Inventive step", as a result has been achieved, attempts to obtain which have not been successful for a long time by specialists: the efficiency of weed control due to deep loosening of the soil in rows and row-spacings with precise sowing or sowing with low rates has been increased and manual labor has been eliminated or significantly reduced when checking crops.

 The invention is "industrially applicable", as it can be used in agriculture for growing fodder and sugar beets.

 In FIG. 1 shows a diagram of loosening the soil, a top view; figure 2 is the same side view (in section); figure 3 is the same after the passage of the rotary working bodies.

 An example of a specific implementation.

 The way to combat clogging and the formation of beet crops involves precise sowing with small norms or just sowing, the first ball and the subsequent one-two-fold loosening of the soil with a combined implement. The number of loosening - one or two is determined by the condition of the soil and its contamination. This loosening of the soil is carried out in a phase of 3 to 5 pairs of real leaves.

 The combined tool contains three working bodies - a milling cutter, a finger cultivator and a rotary one.

 The milling cutters produce continuous row-round loosening of the soil near the protective zones in strips of 5-10 cm wide to a depth of 4 cm on both sides of the row.

With a finger cultivator, the soil is loosened in the protective zone and rows in transverse strips at an angle of 60 - 90 ^o to the row axis to a variable depth of 3 to 7 cm, with an interval of 5 to 10 cm.

 Rotary working bodies produce continuous loosening of soil in rows and row-spacings to a depth of 4 cm.

 The method is as follows.

 The technology produces precise, low standards or dotted sowing of beets.

 When seedlings appear from the “fork” phase to the phase of 2–3 pairs of true leaves, the first ball is produced.

 With sufficient rooting of beet seedlings, i.e. in the development phase, from 3 to 5 pairs of true leaves carry out loosening of the soil with a combined tool: mill + finger cultivator + rotary working bodies.

 Loosening by the cutter near the protective zone gives an increase in the destruction of weeds due to intensive mechanical cultivation of the soil and desiccation of the soil in the zone of weed germination.

 Transverse alternating loosening of the soil in the protective zone and in rows with a finger cultivator provides an increase in the degree of destruction of weeds due to their complete combing out and desiccation of the soil in the layer of germination of their bulk, as well as the partial formation of beet crops.

 Loosening of soil by rotary working bodies in rows and row-spacings ensures smoothing of the soil surface and the creation of a finely lumpy soil structure, reduction of moisture evaporation from the lower (below the depth of loosening) soil layers.

 If necessary, loosening can be repeated.

 The use of this technology provides an increase in the efficiency of weed control up to 95% and the elimination or reduction of manual labor in the formation of beet crops to 50%.

Claims (1)

A method of combating clogging and the formation of beet crops, including sowing, the first ball and subsequent loosening of the soil, characterized in that the subsequent one-two-fold loosening of the soil is carried out in a phase of 3 to 5 pairs of real leaves, with strips 5-10 cm wide about protective zones are treated with cutters to a depth of 4 cm, the soil in the protective zones and rows is loosened in transverse strips at an angle of 60 - 90 ^o to the row axis with an interval of 5 - 10 cm to a variable depth of 3 - 7 cm with a finger cultivator with simultaneous continuous loosening of the soil in rows and aisles rotary working bodies to a depth of 4 cm.

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