RU2427996C1 - Method and roller for treatment of strip crops - Google Patents

Abstract

FIELD: agriculture. ^ SUBSTANCE: invention refers to the field of agricultural machine building. The method includes subsurface compaction of soil, tillage of soil surface layer with simultaneous smoothing of its surface, where extracted cut weeds are thrown out. Subsurface soil compaction is carried out above the crops with simultaneous tillage and fluffing of the surface soil layer, stubble remains are combed out, as well as cut weeds, and are laid on the field surface in areas of sown strips in strip crops at the depth of 15-20 mm lower than the seeding depth. In unsown strips at the seeding depth the soil is additionally ground and mixed with the surface soil, which is drier, with simultaneous combing of weeds and stubble remains, which are laid onto the field surface. Besides, the soil in areas of sown strips, which is 25-30 mm above the sown seeds, is moved into zones of unsown strips to form soil banks on the unsown strips. The roller is arranged in the form of a spiral arranged at the angle towards the motion and connected to an axis of rotation installed in bearing units by means of spikes. Bearing units of the roller spiral axis are installed in the lower ends of leashes, upper ends of which are installed movably at the ends of the roller spiral bar. Mobility of leashes towards the soil is limited with stops. Leashes with the roller spiral bar are additionally connected by means of helical springs, some ends of which are fixed at the roller spiral bar, and the other ones - on the leashes via the adjustment helical traction rods. The roller spiral consists of small diameter sections Ds and large diameter sections Dl. Small diameter spiral sections Ds are arranged as helical strips with width a and pitch ts, and are fixed on the roller axis by means of spikes with the pitch Cs, making an angle with the cylindrical surface generatrix, which circumscribes the sections of the roller small diameter section Ds. At the same time the large diameter sections of the roller along the length are divided into two equal parts, helical strips of each one are installed so that when moving towards the working direction, the processed soil mass is moved towards the middle of an unsown strip. The roller spiral bar is fixed with bolt axes on the frame of longitudinal bars with the possibility to change the angle of the roller axis installation in direction, which is perpendicular to direction of its movement from 0 to 20, which are fixed in frames of seeding or weeding machines by means of parallelogram mechanisms that are turnbuckle controlled. Behind the roller, along the width of each sown strip, there are double-sided detachable mouldboards installed as fixed on the roller spiral bar, which move soil from the depth by 25-30 mm less than the depth of sowing into unsown strips to form soil banks. ^ EFFECT: group of inventions makes it possible to carry out mechanised weeding in zones of unsown sown strips, increases crop capacity, reduces maturing times, seeds consumption, and practically fully eliminates crops lodging. ^ 4 cl, 7 dwg

Description

The claimed invention relates to the field of agricultural engineering, namely to tillage working bodies designed for subsurface rolling of strip crops of grain and leguminous crops with the simultaneous creation of optimal conditions for germination and seedlings with subsequent growth of seeds of sowed plants and slowing or impossibility of germination and seedling of weed seeds, and if necessary, their weeding.

A known method of tillage and sowing, including loosening the lower and upper soil layers with the creation of a compacted layer between them, cultivating and loosening the soil to the entire depth of processing is carried out in strips, loosening the upper soil layer to a depth exceeding 2 ... 4 cm sowing depth, fertilizer applied locally and simultaneously with the cultivation of the soil, and sowing the seeds is carried out on a compacted bed, squeezed during pre-sowing rolling in areas of local application of fat, followed by sheltering seeds and after sowing soil cultivation, as well as a device for its implementation, comprises ripper drums with driving teeth mounted on the frame, mounted with the possibility of free rotation and interconnected by acceleration gear, rear cultivating drum, cultivating legs mounted between the cultivating drums, and the racks of cultivating legs located in the middle between the tracks drive teeth of the front ripper drum, a protective casing and press rollers, cultivator legs have slip guides connected to with a fat box that feeds the tuks into areas located from the racks of the cultivator paws at a distance equal to ¼ the installation width between the legs, while the first packer roller in the direction of travel is made with flanges with a height not less than the depth of sowing of seeds that are installed along the trail of sowing , and then followed by seed guides connected by the vas deferens with the seed box, shortcuts and a second packer (patent RU No. 2363127).

According to the above method, sowing of seeds on a compacted bed is carried out in zones of local application of fertilizers, and since the fertilizers are applied locally and simultaneously with the cultivation of the soil, which is carried out in strips, there is strip sowing, where the soil above the seeded strip seeds is rolled over the entire surface according to the device of the second packer rollers without loosening its upper layer.

The disadvantage of this method and device for its implementation is that when they are used, a solid compaction of the soil is carried out not only over the sown seeds of cultivated plants, but also over the seeds of weeds, which are sometimes located at a lower depth of planting, which allows them to more quickly ascend and begin to develop constituting serious competition for the normal growth of seeded plants, and continuous rolling of the field surface without surface loosening causes increased evaporation of capillary soil moisture. The disadvantages of the method and device for its implementation should also include the fact that when strip sowing in the zone of rolled soil, where the most favorable conditions for germination and seedlings are created, not only seeds sown in the stripes and weeds accidentally located there, but also seeds weeds in unseeded sowing strips. Having the same conditions for germination and subsequent seedlings, the seeds of the sown plants and weeds in the sown sowing strips subsequently are in fierce competition, and the seeds of those weeds that are in the un sown strips emerge and develop generally freely and sometimes completely obscure cultivated plants, which can lead to a significant or even complete loss of crop. This is one of the main reasons due to which farmers do not use this method of sowing grain crops despite the fact that it can provide a yield increase of up to 2 times, a reduction in ripening time by one to two weeks compared to ordinary or continuous sowing .

Closest to the invention, the technological and technical result achieved in terms of soil cultivation over sown seeds is a method of tillage with fertilizers and sowing, including cutting the soil and weeds at a given depth by cutting working bodies, mainly in the form of pointed arms, preliminary crumbling or cutting of the soil , fertilizing and sowing seeds, compaction of the soil, extraction of clipped weeds, loosening of the soil over the compacted layer and leveling its surface, with This uses multifunctional rollers having annular rims with spokes located in the axial direction remotely from each other at an acute angle of attack. Moreover, soil cutting is carried out below the level of seed sowing, while under the cutting working bodies on the bed formed by them, the main doses of fertilizers are spread, in strips, and multifunctional rollers perform subsurface soil compaction over the main doses of fertilizers with the preparation of a compacted sowing bed for seeds, loosen the soil above sowing bed and level its surface, on which the extracted weeds are thrown, and then seeds are sown in the soil with starting doses of fertilizers or without them (RU patent 2362288).

The disadvantage of this method is that the cutting and loosening of the soil below the sowing level is performed and the soil above the sown seeds is not compacted and does not pack. The first drawback leads to the fact that access to the seeds of capillary soil moisture from deeper layers of the soil is significantly hampered by the presence of a loosened soil layer in its path, the absence of compacted soil above the seeds worsens their contact with soil particles, and, therefore, the transfer of soil moisture. All this delays seedlings for 2 ... 4 days. The introduction of the main doses of fertilizer for sowing seeds can lead, especially in dry years, to the death of plants due to the high concentration of fertilizer solutions in the soil, therefore this is not recommended.

Closest to the invention in terms of the technological and technical result achieved regarding the packer roller arrangement is a combined tillage unit containing working bodies in the form of flat-cutting legs mounted on the frame, front and rear sections of the packer roller mounted behind the working bodies, made in the form of a spiral connected with the axis of rotation with the help of bushings sliding along the axis connected to the coil of the spiral by means of a spoke, and the pitch of the spiral of the packer roller sections can zmenyatsya by axial displacement of the sliding sleeves, and the sections packer roller placed at an angle to the direction of travel, the direction of the winding helix of the front and rear sections formed opposite the packer roller (patent RU №2345513). The rollers of the soil-cultivating unit, made in the form of a spiral, roll the soil while leveling its surface by displacing the soil and combing the weeds with laying them on the field surface, forming a loose mulched layer 3 ... 4 cm thick over a continuous layer.

The disadvantage of this device is that the rolling of the soil with the formation on the surface of a loose mulch layer of soil with weeds and crop residues is carried out over the entire surface of the field, which creates equal conditions for germination and seedlings in strip sowing for both planted plants and weeds or fall crops . Having the same conditions for germination and subsequent shoots, the seeds of the sown plants and weeds in the sown stripes subsequently engage in fierce competition, and the seeds of those weeds that are in the un sown stripes sprout and develop generally freely and sometimes completely obscure cultivated plants, which can lead to significant or even complete crop loss.

The disadvantages of the design of this roller device include the fact that its manufacture requires high alloy steels and sophisticated technological and technical equipment for winding spirals and their heat treatment to give them elastic properties.

The aim of the invention is to create the most favorable conditions for germination, subsequent seedlings and growth of seeds of planted plants and the worst possible conditions for weeds, up to the complete impossibility of their germination and seedlings or when germination of weeds is possible mechanized weeding.

The aim of the invention is also to simplify the technology and the required equipment for the manufacture of rollers and the possibility of using cheaper materials.

The purpose of the invention is achieved in that in the known method of rolling strip crops, including subsurface soil compaction (rolling) of soil, loosening the surface soil layer while leveling its surface onto which the harvested (combed) weeds are thrown out, characterized in that the subsurface compaction with simultaneous loosening and by plowing the surface layer of the soil, combing out the trimmed weeds and crop residues with laying them on the surface of the field, they are produced only in seeded strip strips of sowing to a depth of 15-20 mm less than the sowing depth, and in unseeded strip strip sowing at the depth of sowing, the soil is additionally crushed and mixed with surface drier soil with the simultaneous combing of weeds and crop residues with laying them on the field surface, in addition, the soil in the zones of sown strips, which is located 25-30 mm higher above the sown seeds, is shifted to the zones of un sown stripes of sowing with the formation of unshowned stripes of soil shafts, when weeds grow in areas of unseeded strip sowing strips, the grown weeds are trimmed, followed by combing and laying on the surface of the field with simultaneous grinding and mixing of the upper drier and lower wetter layers of the trimmed soil.

The object of the invention is achieved by the fact that in the known roller, made in the form of a spiral placed at an angle to the direction of movement associated with the axis of rotation by means of spokes installed in the bearing units, according to the invention, the bearing units of the axis of the spiral of the roller are installed in the lower ends of the leads, the upper ends which are mounted movably at the ends of the roller of the roller of the roller, the mobility of the leads towards the soil is limited by stops, the leads with the beam of a roller of the roller are additionally connected by means of coil springs , one end of which is fixed on the bar of the roller spiral, and the second on the leads of the roller spiral through adjustable screw rods, the roller spiral consists of sections of small diameter D _m and sections of larger diameter D _b . Sections of a spiral of small diameter D _{m are} made in the form of screw strips with a width of α with a pitch of t _m and are fixed on the axis of the roller motionlessly with needles with a pitch of C _m and make an angle δ with a generatrix of a cylindrical surface that describes a section of small diameter D _{m of the} roller, with the projection tilting screw strips on any surface passing through the axis of the sections of the roller of small diameter D _m to the axis of the roller is determined by the expression:

Where

H ₁ - the minimum height of the ridges of the rolled soil during the movement of the roller section of small diameter D _m in the direction perpendicular to its axis;

C ₁ - the distance between adjacent screw strips along the generatrices of the cylindrical surface describing the sections of the roller of small diameter D _m

The pitch of the helical strip of the roller section with a diameter of D _{m is} determined by the expression:

the number of screw strips in the roller section with a diameter of D _{m is} determined by calculation from the expression:

The resulting calculated number is rounded to the nearest whole number.

The diameter of the large sections of the roller is calculated by the expression:

D _b = D _m + 2H,

where H is the minimum allowable thickness of the packed soil layer over the sown seeds laid on the seed bed.

The sections of the roller with a larger diameter D _{b are} also made in the form of screw strips with a width of α with a step t _b and are fixed on the axis of the roller motionlessly with spokes with a step C _b , similarly, for the sections of the roller with a larger diameter D _b , the angle of inclination of the projections of the screw strips on any surface is calculated passing through the axis of the sections of the roller of larger diameter D _b to the axis of the roller:

Where

H ₂ - the maximum height of the ridges untreated soil roller while moving the roller sections of large diameter D _b in a direction perpendicular to its axis;

C ₂ - the distance between adjacent screw strips along the generatrices of the cylindrical surface that describes the sections of the roller of large diameter D _b .

The pitch of the helical strips of the roller section of a larger diameter D _{b is} determined by the expression:

The number of helical strips in sections of the roller of larger diameter D _b that make up the angle δ + (10 ÷ 15) ° with the generatrix of the cylindrical surface that describes the sections of the roller of larger diameter D _b will be determined from the expression:

the calculated number is rounded to the nearest whole number.

The angle between the axis of the roller and the perpendicular to the direction of its movement is determined by the expression

Where

H _max - the maximum permissible height of the ridges of rolled soil in the sown strip strip planting.

The length of the sections of the roller of small diameter D _{m is} determined from the expression

Where

b is the width of the sown strip strips.

The length of the sections of the roller large diameter D _b is determined by the expression:

Where

b 'is the width of the un sown strips of strip sowing;

wherein the sections of the roller of large diameter D _b are divided in length into two equal parts on which the screw strips are mounted so that when moving in the working direction, the mass of the cultivated land is moved to the middle of the non-sown strip.

The roller of the roller spiral is fixed by bolt axes to the frame of the longitudinal bars with the possibility of changing the angle of installation of the axis of the roller to the direction perpendicular to the direction of its movement, from 0 to 20 °, which are fastened to the roller on the frames of sowing or weeding aggregates by means of parallelogram mechanisms regulated by a turnbuckle, the width of each sowed strip mounted double-sided removable dumps fixed to the beam of the roller spiral, shifting the soil from a depth of 25-30 mm less than the sowing depth, to un seeded strips from images land shafts. Before the sections of the roller of large diameter D _b along their width, removable knives are installed on the beam of the spiral of the roller, made in the form of lancet paws installed at a depth of 30-40 mm, to cut the roots of weeds, and instead of sections of the roller of small diameter D _m spacers are installed, length which is equal to the width of these sections, double-sided heaps behind spacer sleeves are not installed.

These differences are significant, since the introduction to the method of operations in which sections of the roller with a smaller diameter D _m press the seeds to an unloosened bed and roll a subsurface layer of soil with a thickness of 15-20 mm over the sown seeds, while at the same time, the surface layer of soil is poured and re-crushed and combed out weed plants and crop residues with laying them on the surface, and sections of the roller of large diameter D _b in unseeded sowing strips, fluffing with regrinding of the soil to deep a sowing bed with simultaneous mixing of the upper drier layers of soil with the lower wetter ones and combing out weeds and crop residues with laying them on the field surface, as well as raking with double-sided dumps of fluffy and regrind soil from a depth of 25-30 mm less than the sowing depth from zones of sown strips into zones of unseeded stripes of the field with the formation of soil shafts on them ensures the creation of the most favorable conditions for the supply of soil (capillary) moisture to the seeds of plants and their subsequent germination, on the one hand, and, on the other hand, conditions are created to ensure the supply of air moisture in the form of dew or rain. Weed plants that sprouted before sowing are combed out from the topsoil with laying on the surface of the field, where they die. Weed seeds that have not sprouted before sowing in the zones of unseeded sowing zones are mixed together with the lower, wetter layers of soil and the upper drier layers of soil to the depth of sowing, and in the zones of sown stripes along with the fluffy soil to a depth of 15-20 mm less than the sowing depth, with its subsequent shift to the zone of un sown strips from a depth of 25-30 mm less than the sowing depth. The formation of lowering fields and sown stripes of soil rolls on sown stripes ensures the formation of dew in a larger volume in low places, and when it rains, water also flows into lower zones, which provides better conditions for the germination of sown seeds and their subsequent growth. One of the options for the operation of the skating rink when weeds overgrow the unseeded stripes of the sown field allows weeding them with combing out the weeds and laying them on the field surface. Such an operation for weeding strip crops can be carried out until the seeded plants completely shade the unseeded stripes of the surface of the crops.

Thus, the creation of new options for the construction of rollers provides the most favorable conditions for the germination and growth of sown crops in the strip method and the creation of worse conditions for the germination and growth of weeds, as well as the possibility of mechanized weeding in areas of un sown strip strip crops. Sowing crops in a strip method, for example, the width of sown strips of 20 cm and unseeded strips of 25 cm, increases yields up to 2 times, reduces ripening time from one to 2 weeks, reduces seed consumption by 25% and eliminates almost all lodging.

The invention is illustrated by drawings. Figure 1 shows the roller, top view, figure 2 shows the roller, side view, figure 3 shows the section of the roller large diameter, figure 4 shows the element of the roller, figure 5 shows a diagram showing N _max and H in the process of movement of the roller at a position of its axis at an angle α to the perpendicular to the direction of its movement, Fig. 6 shows a cross-sectional diagram of a strip sowing, Fig. 7 shows a roller in an embodiment for weeding strip crops.

The roller for processing strip crops contains longitudinal bars with holes at the ends 1, with which they are bolted to the frames of the sowing or weeding units (not shown), a frame of longitudinal bars 2, on which a roller of the roller of the roller 4 is mounted by means of the bolt axles 3, at the ends of which the leads 5 are movably mounted, at the lower ends of which a shaft 7 is mounted (axis) on the bearing units 6, the mobility of the leads to the soil side is limited by the stops 8, the leads 5 with the spiral bar of the roller 4 are additionally connected via twist of coil springs 9, one end of which is fixedly mounted on the coil of the roller of the roller 4, and the other on the lead 5 through the adjusting screw rods 10, on the shaft 7 by means of spokes 11 are mounted screw strips 12 of width α (Fig. 4), having a pitch t and components the angle δ with the generatrix of the cylindrical surface describing the roller 13, consisting of sections of the roller with a small diameter D _m 14 and sections of the roller with a large diameter D _b 15, and the length of the sections of the roller with a larger diameter D _b 15 is divided into two equal parts in which the helical strip 12 fixed so that when moving and in the working direction, the soil is moved to its middle, behind the skating rink 13 on the helix of the skating rink 4 along the entire width of each of the sowing strips of strip sowing, removable two-sided dumps 19 are installed by means of racks 16, parallelogram mechanisms 17 and springs 18, which shift part of the fluffy earth to unseeded strips of strip seeding, and spacer sleeves 20 (Fig. 7), which are installed instead of sections of rollers of small diameter D _m 14 when using the roller on weeding strip crops. Knives in the form of lancet legs 22 are mounted on the spiral bar of the roller 4 in front of the roller sections of a larger diameter D _b 15. To adjust the depth of the roller in the longitudinal bars 1, parallelogram mechanisms 23 with turnbuckles 24 are installed.

Roller for processing strip crops works as follows. When it is mounted on a sowing unit, it is installed so that the centers of the sections of the roller with a small diameter D _m 14 and the centers of the sections of the roller with a large diameter D _{b are} located respectively in the middle of the seeded strips of strip crops and on unseeded strips. In the process of sowing crops in a strip method: for example, with a width of sown strips of 20 cm and un seeded strips of 25 cm, the skating rink is installed by sections of a small-diameter skating rink D _m 14 on sown strips, and large-diameter sections of a skating rink D _b 15 on non-sown strips and works as follows. The roller section with a small diameter D _m 14 of the roller 13, which cuts into the soil to a depth of 15-20 mm less than the sowing depth, rolls a subsurface layer 15-20 mm thick above the seeds, and the surface layer of the soil, which is higher fluffs, is additionally crushed with simultaneous combing from him weeds and crop residues and puts them on the surface of the field. The sections of the rink with a large diameter D _b 15 of the rink 13 simultaneously with the section of the rink with a small diameter D _m 14 cut into the soil in the areas of unseeded stripes to the depth of sowing, fluffing and regrinding the soil with its simultaneous mixing with the upper drier layers and combing weeds from it and crop residues with laying them on the field surface, behind the roller 13 by means of the racks 16 of the parallelogram mechanisms 17 and the springs 18, double-sided dumps 19 are moved along the sown strips, which are displaced by a depth of 25-30 mm than the sowing depth th regrinding and land on uninoculated strip band sowing, soil shafts form.

The operation of the sections of rollers with a small diameter D _m 14 of the roller 13 allows you to roll the soil over the sown strips with a thickness of 15-20 mm, while pressing the seeds to the seed bed, which provides the most favorable conditions for saturation of the seeds with capillary moisture, and the movement of the soil with bilateral dumps 19 from depth 25-30 mm higher than the depth of sowing, from sown strips of strip sowing to areas of un sown strips provides after germination the combination of tillering nodes with root nodes in plants. This condition is necessary to obtain lodging resistant plants, as well as the highest possible yield and reduce their ripening time.

The work of the sections with a large diameter D _b 15 of the roller 13 allows you to fluff, regrind and at the same time mix the upper drier layers of soil with the lower wetter to the depth of sowing in unseeded stripes. This creates extremely unfavorable conditions for seedlings of weeds, which are even worse after the shift by the bilateral dumps of 19 of the upper soil from the sowed strips to the un sown zone, in which soil shafts form above the un sown strips (see Fig. 6). This allows you to get additional moisture (precipitation), which rolls into sown stripes and favorably affects the development of sown crops. In this case, the weeds are covered with an additional dry layer of soil, without receiving atmospheric and capillary moisture, they do not germinate for a long time, and meanwhile, grain crops tighten unseeded strips, depriving the weeds of light and preventing them from developing, and there is no need for weeding. But if weeds in unseeded strips still managed to ascend and develop to a sufficient level, then we carry out inter-row weeding with a weaving roller 21, which is shown in Fig.7. Weeding roller 21 with knives in the form of lancet paws 22 is mounted on a weeding unit, which is mounted on a strip sowing so that the centers of sections of the roller of large diameters D _b 15 and knives in the form of lancet paws 22 of the weaving roller 21 are located in the middle of the sown strips. When this weeding roller 21 is moving, knives in the form of lancet paws 22 cut the soil with plant roots in the areas of unseeded strip strip sowing, and sections of the roller with a larger diameter D _b 15 loosen it to the cutting depth while combing weeds from the soil and laying them on the field surface where they die. In the fluffy unseeded stripes in the soil, adverse conditions are again created for the germination of weeds, which delays their development for a long time.

Claims (4)

1. A method of rolling in strip crops, including subsurface soil compaction, loosening of the surface soil layer with simultaneous leveling of its surface onto which the harvested weeds are thrown out, characterized in that the subsurface soil compaction above crops with simultaneous loosening and fluffing of the surface soil layer, combing out crop residues and trimmed weeds with their laying on the field surface is carried out only in the zones of sowed strip strip sowing to a depth of 15-20 mm less more than the sowing depth, and in the un sown strips of strip sowing to the sowing depth, the soil is additionally crushed and mixed with a surface drier soil with the simultaneous combing of weeds and crop residues with their laying on the field surface, in addition, the soil in the zones of sown strips, which is located 25-30 mm higher above the sown seeds, they are shifted to the zones of unseeded strips with the formation of soil shafts on the unseeded strips. 2. The method of claim 1, characterized in that when weeds grow in areas of unseeded strip sowing strips, the grown weeds are trimmed, combed and laid on the field surface with simultaneous grinding and mixing of the upper drier and lower wetter layers of the cut soil. 3. Roller for caring for strip crops, made in the form of a spiral placed at an angle to the direction of movement associated with the axis of rotation, installed in the bearing units by means of spokes, characterized in that the bearing units of the axis of the spiral of the roller are installed in the lower ends of the leads, the upper ends which are mounted movably at the ends of the roller of the roller of the roller, the mobility of the leads towards the soil is limited by stops, the leads with the beam of the roller of the roller are additionally connected by means of coil springs, one ends of which are fixed s on the bar of the roller of the roller, and the second on the leads through the adjusting screw rods, the spiral of the roller consists of sections of small diameter D _m and sections of large diameter D _b , sections of the spiral of small diameter D _{m are} made in the form of screw strips a width a with a step of t _m and fastened to the roller axis by means of spokes fixed increments _m and C form an angle δ with the generatrix of the cylindrical surface, which describes the small-diameter roller sections D _m, the angle of inclination of the projections of helical stripes on any surface sections extending through the axis of the roller of small diameter D to the roller axis, defined by the expression:

where H ₁ - the minimum height of the ridges of the rolled soil during the movement of the sections of the compactor of small diameter D _M in the direction perpendicular to its axis;
C ₁ - the distance between adjacent helical strips along the generatrices of the cylindrical surface describing the sections of the roller of small diameter D _m ;
the pitch of the helical strip of the sections of the roller of small diameter D _m is determined by the expression:

;
the number of screw strips in the roller section with a diameter of D _M is determined by calculation from the expression:

,
the resulting calculated number is rounded to the nearest whole number;
the diameter of the large sections of the roller is calculated by the expression:
D _b = D _m + 2H,
where H is the minimum allowable thickness of the packed soil layer over the sown seeds;
sections of a spiral of a roller of large diameter D _{b are} also made in the form of screw strips with a width of a and a pitch of t _b and fixed to the axis of the roller motionless by means of spokes with a step of C _b ; for sections of a roller of a larger diameter D _{b, the} angle of inclination of the projections of the screw strips on any surface passing through the axis of the sections of the roller of larger diameter D _b to the axis of the roller:

where H ₂ - the maximum height of the ridges of the untreated roller of the soil when moving sections of the roller of large diameter D _b in the direction perpendicular to its axis;
C ₂ is the distance between adjacent helical strips along the generatrices of the cylindrical surface describing the sections of the roller of large diameter D _b ;
the pitch of the helical strip of the section of the roller of large diameter D _b is determined by the expression:

the number of screw strips in sections of the roller of large diameter D _b ,
constituting an angle δ + (10 ÷ 15) ° with the generatrix of the cylindrical surface that describes the sections of the roller of large diameter D _b , is determined by the expression:

the resulting calculated number is rounded to the nearest whole number;
the angle between the axis of the roller and the perpendicular to the direction of its movement is determined by the expression:

where H _max - the maximum permissible height of the ridges of rolled soil in the sown strip strip planting;
the length of the sections of the compactor of small diameter D _m is determined from the expression:

where b is the width of the sown strips of strip sowing,
the length of the section of the roller large diameter D _b is determined by the expression:

where b 'is the width of the un sown strips of strip sowing;
while the sections of the large-diameter roller are divided in length into two equal parts, the screw strips of each part are set so that when moving in the working direction, the mass of the cultivated land is moved to the middle of the non-sown strip, the roller of the spiral of the roller is bolted to the frame of the longitudinal bars with the possibility changes in the angle of installation of the axis of the roller to the direction perpendicular to the direction of its movement from 0 to 20 °, which are fixed to the frames by means of parallelogram mechanisms controlled by the turnbuckle osevnyh weeding or aggregates of the roller across the width of each seeded strip mounted on a bar fixed spiral double-sided removable roller blades, shearing the soil with a depth of 25-30 mm less than the depth of seeding on uninoculated strip to form ground shafts. 4. Roller for caring for strip crops according to claim 3, characterized in that on the roller of the roller of the roller, in front of the roller, along the width of the sections of the roller of large diameter D _b , removable knives are made in the form of lancet paws installed at a depth of 30-40 mm sufficient to cut the roots of the weeds, and instead of sections of the roller of small diameter D _m , spacer bushings are installed, the length of which is equal to the width of these sections, bilateral dumps are not placed behind the spacer bushings.

Images