RU2581530C1 - Combined tillage machine (plus screw roller harrow) - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to agricultural machine building. Proposed unit comprises frame with towing device. At bottom of frame by means of movable arms are mounted transport wheels. Levers of transport wheels are connected to each other. Left and right bars are installed on frame with working wheels. Bars are additionally connected with frame via suspensions and lifting levers, which by means of hydraulic cylinders are connected with levers of transport wheels. Frame lifting relative to transport wheels is limited in transport position by limiting stands with pins-retainers. Harrow sections with lifting mechanisms are located in front of left and right bars and central part of frame are made as frames, on which are movably installed axis with paired spring teeth. Horizontally arranged brackets of harrow sections are fixed directly on left and right bars and on central part of frame. Screw rollers are arranged behind left and right bars. On bars rollers are fixed on lower ends of leashes, which in bearing assemblies are mounted shafts of screw rollers. On shafts rollers are fixed by means of spokes helical strips. Lifting mechanism of harrow sections, mounted on central part of frame, is made in form of a beam at ends of which are mounted spacer rollers. Beam is mounted above front cross bar frame in end and paired guide posts with lifting limiters and thrusts ends on lifting rollers. Axes of rollers are secured on left and right propulsor bars with an offset from axis of rotation up to outer ends. On beam by means of controlled anchor chains suspended harrow sections. Horizontally arranged brackets of harrow sections are arranged at front transverse bar frame to turn upward. Bracket downward turning is limited by stops. Extreme ends of screw rollers installed on left and right bars are maximally close to extreme ends of said bars. Internal ends of rollers extend beyond transport wheels and partially overlap them. Operating wheels on left and right bars are arranged between them and their screw rollers, which are movable, are maximally close to extreme ends of bars. On central part of frame is mounted by means of longitudinal bars fixed on frame via parallelogram mechanisms and turn-screw unit rollers. Two rollers of unit are parallel to each other and are parallel to screw roller mounted on far right bar. Third screw wheel of unit is located parallel to screw roller left timber unit.

EFFECT: such design will allow improve tillage quality.

1 cl, 7 dwg

Description

The claimed invention relates to the field of agricultural engineering, mainly to tillage tools with passive working bodies, and can be used in agriculture for preparing a seed bed before sowing, for subsurface rolling of crops with the creation of a loose soil layer on the surface and post-harvest harrowing with simultaneous rolling for provoking seedlings of weeds and carrion, as well as to level the surface of the fields.

Known tillage implement Rangier III manufactured by MORRIS (Canada) (http://www.moms-indusMes.com), including a frame with a towing device, on which transport wheels are mounted movably from below using levers, the levers of which are interconnected. Bars are installed on the left and right on the frame with the possibility of lifting upwards, on the outer ends of which the wheels are mounted. The bars are additionally connected to the frame movably through suspensions and lifting levers, and the lifting levers are connected via hydraulic cylinders to the levers of the transport wheels. Screw rollers are mounted behind the left and right bars and the central part of the frame, behind the screw rollers by means of brackets, transverse bars of the harrow are also installed on the bars and frame. Brackets with bolt ties and transverse bars of the harrow are horizontally attached to the brackets, on which the frames of the harrow are mounted with chains, axes with paired spring teeth are movably mounted on them. The axes are connected by rods with a lever that adjusts the angle of installation of the teeth of the springs to the vertical plane from 0 ° to 70 °.

The disadvantage of the above tools is that the screw rollers are structurally moved only perpendicular to the direction of movement. In this case, the rolling surface of the sown field, as well as the destruction of the soil lumps, will be carried out only in that area of the field surface in which the helical strip of rollers touch it, and in that part of the field where this contact is not present, there is no rolling with crushing of soil lumps, then there is the task of rolling in crops with these tillage implements. In addition, a gear-spring harrow is installed behind the screw roller, which, no matter how it is regulated, in any case loosens, fluffs, additionally crushes the soil, as well as leveling its surface, that is, even the slightest thing that screw rollers rolled in to us, the harrow again loosens. Therefore, the use of this tillage implement for rolling crops does not completely solve the whole problem, it only closes the sowing furrows and levels the surface of the field.

Closest to the invention is the soil cultivating machine adopted by us for the prototype (patent RU No. 2435345), including a frame with a towing device, on which transport wheels are mounted movably, using levers, the levers of which are connected to each other, left and right on the frame the bars are installed with the possibility of lifting upwards, at the outer ends of which the wheels are mounted, while the bars are additionally connected to the frame movably through the suspensions and lifting levers, and the lifting levers by means of hydraulic cylinders with are connected to the levers of the transport wheels, the frame’s lift relative to the transport wheels is limited by restrictive racks with locking pins in the transport position, screw rollers and harrow sections mounted on horizontally located brackets with bolt couplers by means of adjustable chains are mounted on the left and right bars and the central part of the frame sections of the harrow are made in the form of frames on which the axles with paired spring teeth are movably mounted, the axes are connected by means of rods, movably, with the reg the angle of installation of the spring teeth from 0 ° to 70 ° to the vertical plane, the harrow sections are located in front of the left and right rails and the central part of the frame with a mechanism for lifting the harrow sections, and the horizontally mounted arms of the harrow sections are fixed directly to them by fixed bolt ties, screw rollers are located behind the left and right bars and the central part of the frame, and they are mounted on them by means of longitudinal bars through parallelogram mechanisms and turnbuckles, on which are secured with clamps b Russia rollers at an angle α with the possibility of its change from 0 ° to 20 ° to the perpendicular drawn to the direction of movement of the unit. On the rollers of the rollers, at an angle to the horizontal, leashes are fixedly mounted, at the lower ends of which in the bearing assemblies are mounted shafts of screw rollers, on which, with a pitch C, screw strips of width a , having a pitch t and making an angle δ with a generatrix of a cylindrical surface describing the roller, while the angle of inclination, the projections of the helical strips on any surface passing through the axis of the roller, to the axis of the roller is determined by the expression:

where H is the maximum height of the ridges of the rolled soil when the roller moves in a direction perpendicular to its axis;

D is the diameter of the screw roller;

C is the distance between adjacent screw strips along the generatrices of the cylinder describing the screw roller,

The pitch of the helical strip t is determined by the expression:

The number of helical stripes in the roller is calculated by the formula:

and is taken equal to rounded to an integer n _p ;

the angle between the direction of movement of the unit and the perpendicular to the axis of the roller is determined by the expression:

where H ₁ - the maximum allowable height of the ridges of the rolled soil over the sown seeds;

the maximum thickness of the rolled soil over the sown seeds is determined by the expression

H _max = H _min + H ₁ ,

where H _min - the minimum allowable thickness of the rolled soil over the sown seeds.

The lifting mechanism of the sections of the harrow mounted on the central part of the frame is made in the form of a beam, on the ends of which spacer rollers are mounted, the beam is mounted above the front transverse beam of the frame in end and pair guide racks with lifting limiters and is supported by the ends on the lifting rollers, the axes of which are fixed respectively on the braces of the left and right bars with an offset from the axis of their rotation up to the outer ends, sections of the harrow are suspended on the beam by means of adjustable anchor chains. The horizontally located brackets of the harrow sections are mounted on the front transverse beam of the frame with the possibility of turning upwards, and the turning down is limited by stops.

The disadvantages of the above tillage implement are that structurally the screw rollers mounted on the left and right bars and the central part of the frame are located only between the wheels of the unit, therefore, when processing the fields, subsurface rolling with loosening of the surface soil layer will be carried out only in terms of the location of the screw rollers, in the same part of the width of the implement, in which the wheels are located, will only be rolled. When rolling, as is known, capillaries are formed in the soil, which supply moisture from the deeper layers of the soil to the seeds, but if the surface layer of the soil is not loosened, then these capillaries will also bring moisture to the surface of the field, where in the daytime the air and soil in the zone their contact heats above 50 ° C. The heated air rises, while also taking with it the vapor of capillary moisture, the following portions are pulled in place of the evaporated moisture. Thus, in the zone of passage of the wheels of the unit, we can say that a pump is formed to pump out moisture from the soil, which is unacceptable.

The aim of the invention is to improve the quality of surface treatment of the fields due to the overlapping of the wheels of the tillage aggregates by the screw rollers and the introduction of the screw rollers into the block structure.

The purpose of the invention is achieved by the fact that in the known tillage unit, comprising a frame with a towing device, on which transport wheels are mounted movably by means of levers, the levers of which are interconnected, bars are installed on the left and right of the frame with process wheels to be lifted upward, while the bars are additionally connected to the frame movably through the suspensions and lifting levers, and the lifting levers are connected via hydraulic cylinders to the levers of the transport wheels, the frame is raised relatively transport wheels is limited by restrictive racks with locking pins in the transport position, the harrow sections with their lifting mechanisms are located in front of the left and right bars and the central part of the frame, made in the form of frames on which the axles with paired spring teeth are movably mounted, the axles are connected by means of rods with a lever for adjusting the angle of installation of spring teeth from 0 ° to 70 ° to the vertical plane, and horizontally located brackets of the harrow sections are mounted directly on the left and right m on the bar and on the central part of the frame, the screw rollers are located behind the left and right bars, and they are mounted on them by means of longitudinal bars through parallelogram mechanisms and turnbuckles, on which the roller bars are fixed with clamps at an angle α with the possibility of changing it from 0 ° to 20 ° to the perpendicular drawn to the direction of movement of the unit. On the rollers of the rollers, at an angle to the horizontal, leashes are fixedly mounted, at the lower ends of which in the bearing assemblies are mounted shafts of screw rollers, on which, with a pitch C, screw strips of width a, having a pitch t and making an angle δ with a generatrix of a cylindrical surface describing the roller, while the angle of inclination of the projections of the screw strips on any surface passing through the axis of the roller to the axis of the roller is determined by the expression

where H is the maximum height of the ridges of the rolled soil when the roller moves in a direction perpendicular to its axis;

D is the diameter of the screw roller;

C is the distance between adjacent screw strips along the generatrices of the cylinder describing the screw roller,

The pitch of the helical strip t is determined by the expression:

the number of helical stripes in the roller is calculated by the formula:

and is taken equal to rounded to an integer n _p ;

the angle between the direction of movement of the unit and the perpendicular to the axis of the roller is determined by the expression:

where H ₁ - the maximum allowable height of the ridges of the rolled soil over the sown seeds;

the maximum thickness of the rolled soil over the sown seeds is determined by the expression

H _max = H _min + H ₁ ,

where H _min - the minimum allowable thickness of the rolled soil over the sown seeds. The lifting mechanism of the sections of the harrow mounted on the central part of the frame is made in the form of a beam, at the ends of which spacer rollers are mounted, the beam is mounted above the front cross beam of the frame in end and pair guide racks with lift limiters, rests on the ends of the lifting rollers, the axes of which are fixed respectively on the braces of the left and right bars with a shift from the axis of their rotation up to the outer ends, on the beam by means of adjustable anchor chains sections of the harrow are suspended horizontally located to the harness sections brackets are mounted on the front transverse beam of the frame with the possibility of upward rotation, and the downward rotation is limited by stops, the extreme ends of the screw rollers mounted on the left and right bars being maximally close to the extreme ends of these bars, and the inner ends go beyond the transport wheels and partially overlap them, technological wheels on the left and right bars, located between them and their screw rollers, are as close as possible to the extreme ends of these bars, on the central part of the frame is mounted in the middle by means of longitudinal bars fixed on the frame through parallelogram mechanisms and turnbuckles, a block of screw rollers, in which two parallel to each other parallel to the screw roller mounted on the distant beam, the first of these two screw rollers of the block is located between the transport wheels of the unit, and the second behind one of the transport wheels and covers the distance between the nearest screw roller of one of the bars and the first screw roller of the block, the third screw roller of the block is parallel to the screw roller of the other unit beam and is located behind the second transport wheel, blocking the distance between the first screw roller of the block located between the transport wheels and the screw roller of one of the near beam.

These differences are significant, since the block of screw rollers located behind the central part of the frame together with the elongated screw rollers of the left and right bars overlap the transport wheels, and the arrangement of the wheels on the left and right bars between them and their screw rollers closer to the extreme ends of these bars to provide subsurface rolling of the cultivated field with simultaneous loosening of the upper soil layer over the entire width of the aggregate.

The presence of a loose soil layer on the surface of the treated field prevents capillaries from supplying soil moisture to the field surface, this dramatically reduces moisture evaporation, in addition, a loose surface soil layer from 3 cm to 5 cm above the rolled soil prevents overheating of deeper soil layers in the daytime, which will ensure the implementation of the process of dry irrigation or atmospheric irrigation. The invention is illustrated by drawings.

In FIG. 1 shows a tillage unit, a top view, a rear view, in FIG. 2 is the same, front view, in FIG. 3 shows a tillage implement in a transport position; FIG. Figure 4 shows a screw roller with its parameters and a diagram showing the cross section of the treated soil, where H is the maximum height of the ridges of the rolled soil when the roller moves in the direction perpendicular to its axis, when the aggregate performs the rolling function and H _about shows the maximum depth of the additionally crushed and fluffy soil , and when processing untreated soil, H - shows the maximum height of the ridges of the untreated soil and N _about shows the maximum depth of the crushed and fluffed (processed) soil, on FIG. 5 shows the angle between the direction of movement of the unit and the perpendicular to the axis of the roller, in FIG. 6 shows the assembly of the lifting mechanism of the harrow sections mounted on the front transverse beam of the frame, FIG. 7 shows a section through an aggregated sowing field.

The tillage unit contains a frame 1, a towing device 2, levers of the transport wheels 3, transport wheels 4, the right beam 5 and the left beam 6, the wheels of the bars 7, the suspension of the bars 8, the lifting levers 9, the hydraulic cylinders 10 and the limiting racks 11, screw rollers 12 and 13 mounted respectively on the right 5 and left 6 bars, a block of screw rollers 14 mounted on the back of the frame 1 and consisting of screw rollers No. 1-15, No. 2-16 and No. 3-17, the harrow sections 18 are extreme, mounted on horizontal brackets 19 by means of anchor chains 20 and hoist chains 21, mounti mounted on the right 5 and left 6 bars by means of bolt ties 22, the middle sections of the harrow 18 are mounted on horizontal lifting brackets 23 mounted movably on the front transverse beam 24 of the frame 1 with the possibility of upward rotation, and downwardly limited by a stop 25 by means of anchor chains 20 and lifting chains front 26 and rear 27, mounted on a beam 28, at the ends of which spacer rollers 29 are installed, the beam 28 is mounted above the front transverse beam 24 of the frame 1 in the end 30 and paired 31 guides with a lift limiter 32 and is supported by ntsami on the lifting rollers 33, mounted on the braces 34 of the right 5 and left 6 bars.

On the sections of the harrow 18, the axles 35 are movably fixed with the pair of spring teeth 36, the axles 35 are connected to the adjusting levers 39 for setting the angle of the spring teeth 36 through the levers 37 by the rods 38. The helical rollers 12 and 13 are mounted on the longitudinal bars 40 through parallelogram mechanisms 41 with turnbuckles 42 and mounted on them through the rollers of the rollers 43 with clamps 44, on which the leads 45 are fixedly mounted, the screw rollers 12, 13, 15, 16, 17 consist of roller shafts 46, which are mounted in bearing assemblies 47 mounted on the leads 45, on the roller shafts 46 nep izhno C increments secured by spokes 48 helical strip 49 having a step t. The leads 50 of the screw rollers No. 1-15, No. 2-16 and No. 3-17 are fixedly mounted on the frame 51 of the block of screw rollers 14, which is mounted on the longitudinal bars 40 by means of brackets 52 and parallelogram mechanisms 41 with lanyards 42, the wheels of the bars 7 are mounted on right 5 and left 6 bars also through brackets 52 and parallelogram mechanisms 41 with lanyard 42.

The process of transferring the tillage unit from the working position to the transport one and vice versa takes place in the following sequence: oil is supplied from the hydraulic system of the tractor to the hydraulic cylinders 10 of the unit, which, by retractable rods, first raise the unit frame 1 with the block of screw rollers 14 to the stop in the limiter of the limiter posts 11, then through the lifting levers 9 and the suspension of the bars 8 begin to turn the right 5 and left 6 bars, lifting up the sections of the harrow 18 and the screw rollers 12 and 13, while using lifting ro 33, a beam 28 rises, on which the middle sections 18 of the harrow are suspended, the lift is made until the rods of the hydraulic cylinders 10 are fully extended, then the locking fingers are installed in the limit posts 11 and the lift arms 9, which are fixed with spring cotter pins (not shown in the figures), transferring the unit to working position is carried out in reverse order.

The unit operates as follows.

During the movement of the tillage unit on the surface of the sown field, the pair of spring teeth of 36 sections of the harrow 18 close the sowing furrows and level the field surface, the screw rollers 12, 13 moving behind the harrow and the block of screw rollers 14, installed at a certain angle and to the required depth, are produced throughout to the width of the aggregate, the subsurface rolling of the soil over the seeds, pressing them to the seed bed, and the soil, which is above the rolled surface, fluff up with additional grinding and combing m of it weeds and crop residues with their laying on the surface of the treated field (Fig. 7). Thus, optimal conditions are created for seeds for supplying soil moisture to them and their germination, and the formation of a surface fluffy soil layer above the rolled soil significantly complicates the evaporation of soil moisture. When using the unit for postharvesting seedling emergence of weeds, as well as carrion, spring harrow teeth in the process of moving across the field loosen the soil, thereby planting weed seeds and carrion seeds in it, and screw rollers moving behind the harrow roll the loosened soil, providing optimal conditions for their seedlings . When autumn frosts or low temperatures occur in winter, these plants die. So you can destroy up to 65% of weed seeds, which could in the next summer season of seedlings. The same unit can be used to prepare the seed bed before sowing and treat the vapors in order to clean them from seeds accumulated in the soil of weeds, but weed seedlings must be destroyed mechanically or chemically.

Claims (1)

A combined soil cultivating unit comprising a frame with a towing device on which transport wheels are mounted movably from below using levers, the levers of which are connected to each other, bars with technological wheels are installed on the left and right on the frame with the possibility of lifting upward, while the bars are additionally connected to the frame movably through suspensions and lifting levers, and lifting levers by means of hydraulic cylinders are connected with levers of transport wheels, the frame lifting relative to transport wheels is limited in transport position by restrictive racks with locking pins, harrow sections with their lifting mechanisms are located in front of the left and right rails and the central part of the frame, made in the form of frames on which axes with paired spring teeth are movably mounted, the axles are movably connected to the adjustment lever via rods installation angle from 0 ° to 70 ° of spring teeth to a vertical plane, and horizontally located brackets of the harrow sections are mounted directly on the left and right bars and on the central part of s, screw rollers are located behind the left and right bars and mounted on them by means of longitudinal bars through parallelogram mechanisms and turnbuckles, on which the roller bars are fixed with clamps at an angle α with the possibility of its change from 0 ° to 20 ° to the perpendicular drawn to the direction of movement of the unit , on the rollers of the rollers at an angle κ to the horizontal, leashes are fixedly mounted, at the lower ends of which in the bearing assemblies are mounted shafts of screw rollers, on which screw p VOCs width a, with step t and δ components of the angle with the generatrix of the cylindrical surface described by the roller, wherein the angle of inclination of the projections of helical stripes on any surface passing through the axis of the roller to the roller axis defined by the expression:

where H is the maximum height of the ridges of the rolled soil when the roller moves in a direction perpendicular to its axis;
D is the diameter of the screw roller;
C is the distance between adjacent screw strips along the generatrices of the cylinder describing the screw roller, the pitch of the screw strip t is determined by the expression:

, the number of helical stripes in the roller is calculated by the formula:

and is taken equal to rounded to an integer n _p ; the angle between the direction of movement of the unit and the perpendicular to the axis of the roller is determined by the expression:

where H ₁ - the maximum allowable height of the ridges of the rolled soil over the sown seeds; the maximum thickness of the rolled soil over the sown seeds is determined by the expression
H _max = H _min + H ₁ ,
where H _min - the minimum allowable thickness of the rolled soil over the sown seeds,
the lifting mechanism of the sections of the harrow mounted on the central part of the frame is made in the form of a beam, on the ends of which spacer rollers are mounted, the beam is mounted above the front transverse beam of the frame in end and pair guide racks with lifting limiters and is supported by the ends on the lifting rollers, the axes of which mounted respectively on the braces of the left and right bars with a shift from the axis of their rotation up to the outer ends, harrow sections are suspended on the beam using adjustable anchor chains, horizontally spaced The lively brackets of the harrow sections are mounted on the front transverse beam of the frame with the possibility of upward rotation, and the downward rotation is limited by stops, characterized in that the extreme ends of the screw rollers mounted on the left and right bars are as close as possible to the extreme ends of these bars, and the inner ends go beyond transport wheels and partially overlap them, and technological wheels on the left and right bars are located between them and their screw rollers, made movable, as close as possible to the extreme ends of these bars yev, and on the central part of the frame is mounted by means of longitudinal beams fixedly mounted on the frame, through parallelogram mechanisms and lanyards, a block of screw rollers, in which two rollers parallel to each other are parallel to a screw roller mounted on a distant beam, the first of these two screw rollers block is located between the transport wheels of the unit, and the second behind one of the transport wheels and covers the distance between the nearest screw roller of one of the bars and the first screw roller of the block, the third screw cat The block ok is located parallel to the screw roller of the other unit beam and is located behind the second transport wheel, overlapping the distance between the first screw roller of the block located between the transport wheels and the screw roller of one of the nearest bars.

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