RU130473U1 - COMBINED SOIL PROCESSING UNIT - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, namely to tillage machines designed for tillage.

A combined tillage unit containing a frame on which the wheels are mounted and bars, a skating rink, a harrow section are installed on the left and right, which is made in the form of movable mounted axles with paired spring teeth, the axles are connected by means of rods to the levers for adjusting the angle of installation of the spring teeth to the vertical plane , the lifting mechanism of the harrow section is made in the form of two identical circular sectors with an opening angle equal to α = 125 °, its upper part with an opening angle equal to β = 25 ° ends horizontal noy shelf and the inner part of the circular sector formed shaped with radii of curvature R ₁ = R ₂ in the region of intersection obtained arcs formed with a central hole, and on its edges formed outermost holes, wherein the distance R ₃ from the center hole center formed six holes, the first of which it is made at an angle of 47 °, the second - 60 °, the fourth - 75 °, the fifth - 97 °, the sixth - 107 ° from the axis passing through the centers of the central and lower holes of the circular sectors, with the possibility of installation in them fixing bent under t pym angle with equal sides of fingers and on the distance R ₄ from the center of the central opening is provided with two openings with angles of 60 ° and 65 ° from the axis extending through the centers of the central and lower openings of circular sectors, through the central hole circular sector attached to the joists, and by the upper extreme holes circular sectors pivotally connected through a horizontal rod with two angular parallel to each other levers, in the middle of which holes are made with the possibility of fastening through them with a beam installed between the circles sectors and angular levers, the lower hole of the latter and the lower extreme hole of the circular sectors are pivotally connected to their uprights, which are rigidly fixed on one side to the I-beam, in which three holes are made, an axis is installed and rigidly fixed in the central hole, and through the extreme holes the rotating axes are located at an equal distance from the central axis, on these axes on the other side of the I-beam, different-height struts are rigidly fixed, pivotally connected to each other by a thrust, while These racks end with handles in the upper parts, which have holes coaxial with each of the five holes made in the angular sector of adjusting the angle of installation of the spring teeth of the harrow at an equal angular distance from each other and from its vertical face equal to γ = 10 °, and rigidly fixed to the opposite side of the racks of different I-beams.

The utility model allows the ability to adjust the depth of the spring teeth of the harrow separately from the depth of the main working bodies.

1 p. Fs; 4 ill.

Description

The utility model relates to the field of agricultural engineering, namely to tillage machines designed for tillage.

A well-known cultivator of continuous tillage (application of the Russian Federation for invention No. 2009115053 АВВ 35/00), including a sectional frame, support-transport wheels, working bodies in the form of loosening paws fixed to the frame and at least one press-up roller, attachment for mounting a harrow and adjustment mechanism. The cultivator additionally contains a device for hitching the harrows made in the form of rods, reducers and leashes, and for attaching a trailed cultivator to the tractor on the frame equipped with two symmetrical wings, a tongue is placed, which is rigidly attached to the front beam and pipes of the cultivator frame with brackets, and the support transport wheels serve as a supporting part of the cultivator and are a pair of wheels connected to the hydraulic cylinder and pivotally mounted to the frame by the hydraulic cylinder support and saddle, in addition, the cultivator equipped with a hydraulic cylinder that is unloaded during long-distance transportation with a latch, which is made with the possibility of stacking on the beam of the frame during operation, as well as pipelines with explosive couplings for connecting hydraulic cylinders to the tractor, while the racks with paws fixed to them are mounted with the possibility of adjusting the depth of the working bodies by moving emphasis and with the possibility of adjusting the position of the packer rollers. The wheels are made with a width of 175 mm and a diameter of 750 mm and, together with the disks, hubs and wheel axle, are cantileverly attached to the bar of the wheelset. It additionally contains a hinge for aggregating cultivators in a hitch, made in the form of a bracket with the axis of the hitch and a half shaft connected by a spider and fork with a bolt, nuts, washers and cotter pins.

The disadvantages of the known combined tillage unit include the following:

1. The inability to adjust the angle of attack of the tooth harrow;

2. The inability to adjust the depth of the tooth harrow separately from the depth of the main working bodies.

The closest analogue to the claimed utility model includes a combined soil cultivating aggregate (RF patent No. 2435345 AB 49/02), containing a frame with a towing device on which transport wheels are mounted movably from below, by levers, the levers of which are connected to each other, left and right on the frame is equipped with bars with the possibility of lifting up, on the external 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 Indres are connected to the levers of the transport wheels, the frame’s lift relative to the transport wheels is limited by restrictive racks with fingers, the frame retainers in the transport position, screw rollers and harrow sections mounted on horizontally arranged brackets with bolt couplers are mounted on the left and right rails and the central part of the frame by means of the length of the anchor chains, the harrow sections are made in the form of frames on which the axles with paired spring teeth are movably mounted, the axles are connected via rods Movably, with the angle adjusting levers Fitting teeth springs from 0 to 70 ° to the vertical plane. Harrow sections are located in front of the left and right bars and the central part of the frame with a mechanism for lifting the harrow sections, and horizontally mounted brackets of the harrow sections are fixed directly to them, motionless, with bolt ties, screw rollers are located behind the left and right bars and the central part of the frame, and rollers are mounted on them by means of longitudinal bars through parallelogram mechanisms and turnbuckles on which rollers are fixed with clamps of rollers at an angle α with the possibility of its change from 0 to 20 ° to perpendicular a lead drawn to the direction of movement of the unit, on the rollers of the rollers at an angle to the horizontal plane, leashes are fixedly mounted, on the lower ends of which in the bearing assemblies are mounted shafts of the screw rollers, on which are fixed, with a pitch C, motionless by means of knitting needles, screw strips of width a t and constituting the angle σ with the generatrix of the cylindrical surface that describes this roller, while the angle of inclination of the projections of the screw strips on any surface passing through the axis of the roller to its axis 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 screw strip t is determined by the expression:

;

;

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

and is assumed to be rounded to an integer n _p ; the installation angle of the roller to the direction of movement of the unit and the perpendicular to its axis 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, and 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 accordingly, on the braces of the left and right bars with an offset from their axis of rotation up to the outer ends, sections of the harrow are suspended on the beam by means of adjustable anchor chains, horizontally positioned ennye brackets harrow sections are mounted on the front cross beam of the frame is pivotably upwards and downwards limited by stops.

The disadvantages of the known cultivator of continuous tillage include the fact that it is impossible to adjust the depth of the harrow separately from the depth of the main working bodies.

The objective of the utility model is the ability to adjust the depth of the spring teeth of the harrow separately from the depth of the main working bodies.

The problem is solved due to the fact that the combined tillage unit containing a frame on which the wheels are mounted and bars, a skating rink, and a harrow section are installed on the left and right, which is made in the form of movable mounted axles with paired spring teeth, the axles are connected movably to the levers by means of rods adjustment of the angle of installation of spring teeth to a vertical plane, the lifting mechanism of the harrow section is made in the form of two identical circular sectors with an opening angle equal to α = 125 °, its upper part with an angle askrytiya equal to β = 25 ° end horizontal flange, and the inner part of the circular sector formed shaped with radii of curvature R ₁ = R ₂ in the region of intersection obtained arcs formed with a central hole, and on its edges formed outermost holes, wherein the distance R ₃ from the center there are six holes in the central hole, the first of which is made at an angle of 47 °, the second - 60 °, the third - 75 °, the fourth - 85 °, the fifth - 97 °, the sixth - 107 ° from the axis passing through the centers of the central and lower circular holes sectors, with the possibility for the installation in them of fixing fingers bent at an obtuse angle with equal sides, and at a distance of R ₄ from the center of the central hole, two holes are made with angles of 60 ° and 65 ° from the axis passing through the centers of the central and lower holes of the circular sectors, through the central holes sectors are attached to the bars, and through the upper extreme holes, circular sectors are pivotally connected through a horizontal rod with two angular parallel levers parallel to each other, in the middle of which holes are made with the possibility of mounting through them with a beam installed between the circular sectors and angular levers, the lower hole of the latter and the lower extreme hole of the circular sectors are pivotally connected to their uprights, which are rigidly fixed on one side to the I-beam, in which three holes are made, and is rigidly mounted in the central hole an axis is fixed, and through the extreme holes rotary axes are located at an equal distance from the central axis, on these axes on the other side of the I-beam, different-height racks, hinges are rigidly fixed but interconnected by a thrust, while the high struts end with handles in the upper parts, which have holes coaxial with each of the five holes made in the angular sector of adjusting the angle of installation of the spring teeth of the harrow at an equal angular distance from each other and from its vertical edge equal to γ = 10 °, and rigidly fixed on the opposite side from the different racks of the I-beam.

New significant features:

1. The lifting mechanism of the harrow section is made in the form of two identical circular sectors with an opening angle equal to α = 125 °, its upper part with an opening angle equal to β = 25 ° ends with a horizontal shelf.

2. The inner part of the circular sector is made curly with curvature radii R ₁ = R ₂ , a central hole is made in the intersection region of the arcs obtained, and extreme holes are made along its edges.

3. At a distance of R ₃ from the center of the Central hole, six holes are made, the first of which is made at an angle of 47 °, the second - 60 °, the third - 75 °, the fourth - 85 °, the fifth - 97 °, the sixth - 107 ° from the axis, passing through the centers of the central and lower holes of the circular sectors.

4. The ability to install in the holes of the circular sector fixing bent at an obtuse angle with equal sides of the fingers.

5. At a distance of R ₄ from the center of the central hole, two holes are made with angles of 60 ° and 65 ° from the axis passing through the centers of the central and lower holes of the circular sectors.

6. Through the central holes, circular sectors are attached to the bars.

7. The lower hole of the angular levers and the lower extreme hole of the circular sectors are pivotally connected to their uprights, which are rigidly fixed on one side to the I-beam.

8. An axle is mounted and rigidly fixed in the central hole of the I-beam.

9. Through the extreme openings, the rotating axes are located at an equal distance from the central axis.

10. On the rotating axes on the other side of the I-beam, uneven racks are rigidly fixed, articulated by a link.

11. High racks end with handles in the upper parts.

12. High racks have holes coaxial with each of the five holes made in the angular sector to adjust the angle of installation of the spring teeth of the harrow at an equal angular distance from each other and from its vertical edge equal to γ = 10 °, and rigidly fixed on the opposite side from racks of different heights I-beams.

The listed new essential features, together with the known ones, are necessary and sufficient to achieve a technical result in all cases to which the requested amount of legal protection applies.

Technical result:

1. The lifting mechanism of the harrow section is made in the form of two identical circular sectors with an opening angle of α = 125 °, its upper part with an opening angle of β = 25 ° ends with a horizontal shelf, these angles determine the maximum and minimum movement of the parallel angular levers relative to the mechanism lifting sections of circular sectors.

2. The inner part of the circular sector is made curly with curvature radii R ₁ = R ₂ , a central hole is made in the intersection of the arcs obtained, and extreme holes are made along its edges to reduce material consumption.

3. At a distance of R ₃ from the center of the Central hole, six holes are made, the first of which is made at an angle of 47 °, the second - 60 °, the third - 75 °, the fourth - 85 °, the fifth - 97 °, the sixth - 107 ° from the axis, passing through the centers of the central and lower holes of the circular sectors, which gives a wide range of regulation of the installation height of the harrow section.

4. The ability to install in the holes of the circular sector fixing bent at an obtuse angle with equal sides of the fingers to reduce the time of fixing the section of the harrow.

5. At a distance of R ₄ from the center of the central hole, two holes are made with angles of 60 ° and 65 ° from the axis passing through the centers of the central and lower holes of the circular sectors, necessary for additional adjustment of the deepening of the spring teeth.

6. Through the central holes, the circular sectors are attached to the bars, preventing the translational movement of the circular sectors relative to the bars, giving the circular sectors only rotational movement during adjustment.

7. The lower hole of the angular levers and the lower extreme hole of the circular sectors are pivotally connected to their posts, which are fixed on one side to the I-beam, allowing generally parallel movement of the axes of the harrow section relative to the horizontal plane.

8. An axis is installed and rigidly fixed to the central holes of the I-beams, which gives rigidity to the construction of the harrow section, while maintaining the parallel arrangement of the I-beams relative to each other.

9. Through the extreme openings of the I-beam, rotating axes are located at an equal distance from the central axis, on which spring teeth are mounted with the possibility of changing their angle of attack.

10. On the rotating axes on the other side of the I-beam, different-height struts are rigidly fixed, pivotally connected to each other by a thrust equal in length to the distance between the extreme openings of the I-beam. The thrust makes it possible to simultaneously and synchronously change the angle of the rotating axes.

11. High racks end with handles in the upper parts for the convenience of adjusting the installation angle of the spring teeth.

12. High racks have holes coaxial with each of the five holes made in the angular sector to adjust the angle of installation of the spring teeth of the harrow, at an equal angular distance from each other and from its vertical edge, equal to γ = 10 °, and rigidly fixed on the opposite side from racks of different heights of an I-beam for fixing the installation of spring teeth of a harrow.

Figure 1 - General view of a combined tillage unit.

Figure 2 - Diagram of the harrow section.

Figure 3 - Scheme of the circular sector.

Figure 4 - Diagram of the angular sector.

A combined tillage unit comprising a frame 1, on which wheels 2 are mounted and bars 3, a roller 4, a harrow section 5 which is made in the form of movably mounted axles 6 with paired spring teeth 7, are mounted on the left and right, the axles 6 are movably connected to levers adjust the installation angle of the spring teeth 7 to a vertical plane. The lifting mechanism of the harrow section 5 is made in the form of two identical circular sectors 8 with an opening angle equal to α = 125 °, its upper part with an opening angle equal to β = 25 ° ends with a horizontal shelf. The inner part of the circular sector is made curly with radii of curvature R ₁ = R ₂ . A central hole 9 is made in the intersection region of the arcs obtained. Extreme holes 10, 11 are made along its edges, and six holes are made at a distance of R ₃ from the center of the central hole 9, the first 12 of which are made at an angle of 47 °, the second 13-60 ° , the third 14-75 °, the fourth 15-85 °, the fifth 16-97 °, the sixth 17-107 ° from the axis passing through the centers of the central 9 and lower 11 holes of the circular sectors 8, with the possibility of installing fixing bent at an obtuse angle in them with equal sides of fingers 18. At a distance R ₄ from the center of the central up responses ment 9 is provided with two holes 19, 20 with angles of 60 ° and 65 ° from the axis extending through the centers of the central and lower openings of circular sectors. Through the central holes 9, the circular sectors 8 are attached to the bars 3, and through the upper extreme holes 10, 11, the circular sectors 8 are pivotally connected through a horizontal rod 21 with two parallel angular levers 22 in the middle of which holes 23 are made with the possibility of fastening through them with a beam 3, mounted between the circular sectors 8 and the angular levers 22, the lower hole 24 of the latter and the lower extreme hole 11 of the circular sectors 8 are pivotally connected to their posts 25, 26, which are rigidly fixed on one side to an I-beam 27, in which three holes 28, 29, 30 are made. An axis 31 is mounted and rigidly fixed to the central hole 29. Rotating axles 6 are located through the extreme holes 28, 30 at an equal distance from the central axis 31. On these rotating axes 6 s on the other side of the I-beam 27, multi-height struts 32, 33 are pivotally fixed to each other by a link 34. The tall struts 32 end with handles 35 in the upper parts, which have holes 36 coaxial with each of the five holes 37 made in the angular sector 38 of the regulation alignment of the angle of installation of the spring teeth 7 of the harrow at an equal angular distance from each other and from its vertical edge 39 equal to γ = 10 °, and rigidly fixed on the opposite side from the different racks 32, 33 of the I-beam 27.

The lifting mechanisms of the harrow section 5 are symmetrically-mirrored at the ends of the rotating axles 6 with paired spring teeth 7.

The device operates as follows.

The combined soil cultivating unit is a structure consisting of the following parts: frame 1 with an attachment, support wheels 2, main working bodies with spring guards (not shown in the figure), harrow section 5 and roller 4. Depending on the soil cultivation technology, we choose main working bodies, they can be:

- staple-shaped working bodies (tillage depth up to 20 cm);

- spring struts with lancet paws (depth of tillage 6-20 cm);

- spring struts with chisel plows (depth of tillage 6-20 cm);

- racks deep-rippers (depth of tillage up to 50 cm). With the help of an attachment, we attach the unit to the tractor, then carry out the adjustment: on a flat platform we set the set depth of the main working bodies using the support wheels 2; then we set the depth of penetration of the harrow section 5, by moving the fingers 18 in the holes 12, 13, 14, 15, 16, 17, 19, 20 of circular sectors 8; the angle of installation of the spring teeth 7 is adjustable by moving the fingers 18 in the holes 37 of the angular sectors 38 depending on the type and moisture of the soil; then we adjust the depth of the roller 4. In order to adjust the depth of the spring teeth 7 of the harrow section 5 to the required depth, the worker needs to remove the locking fingers 18, then hold the ends of the axles 6 to move the harrow section 5 relative to the bars 3 and fix by rearranging the fingers 18 into one from the holes 12, 19, 20, 13, 14, 15, 16, 17 of circular sectors 8, while moving the locking fingers 18 into one of the holes in this sequence 12, 19, 20, 13, 14, 15, 16, 17 , the depth of the spring teeth 7 will be changed Xia 20 mm (hole 12 - the minimum value of penetration of the teeth of the spring 7, the opening 17 - the maximum). The locking fingers 18 must be installed above and below the bars 3, thus preventing the harrow sections 5 from moving in the vertical plane (up and down). To adjust the installation angle of the spring teeth 7 of the harrow section 5, we take the handle 35, turning it to align the desired angle, for example 10 °, combining the first hole 37 from the vertical face 39 of the angular sector 38 with the hole 36 of the rack 32, and fix the position with fixing fingers 18 The ability to adjust the installation angle of the spring teeth 7 is in the range from 0 ° to 40 °.

Claims (1)

A combined tillage unit containing a frame on which the wheels are mounted and bars, a skating rink, a harrow section are installed on the left and right, which is made in the form of movable mounted axles with paired spring teeth, the axles are connected by means of rods to the levers for adjusting the angle of installation of the spring teeth to the vertical plane , harrow section lifting mechanism, characterized in that the harrow section lifting mechanism is made in the form of two identical circular sectors with an opening angle equal to α = 125 °, its upper part opening angle of β = 25 °, it ends with a horizontal shelf and the inner part of the circular sector formed shaped with radii of curvature R ₁ = R _2, provided with a central hole in the region of intersection obtained arcs, and along its edges made outermost holes, wherein the distance R ₃ from the center of the central hole there are six holes, the first of which is made at an angle of 47 °, the second - 60 °, the third - 75 °, the fourth - 85 °, the fifth - 97 °, the sixth - 107 ° from the axis passing through the centers of the central and lower holes of circular sectors, with in zmozhnostyu loading the fixing bent at an obtuse angle with equal sides of fingers and on the distance R ₄ from the center of the central opening is provided with two openings with angles of 60 ° and 65 ° from the axis extending through the centers of the central and lower openings of circular sectors, and through central aperture circular sectors are attached to the bars, and through the upper extreme holes circular sectors are pivotally connected through horizontal traction with two angular parallel levers, in the middle of which holes are made with the possibility of fastenings through them with a beam installed between the circular sectors and angular levers, the lower hole of the latter and the lower extreme hole of the circular sectors are pivotally connected to their posts, which are rigidly fixed on one side to the I-beam, in which three holes are made, in the central hole is installed and the axis is rigidly fixed, and through the extreme openings the rotating axes are located at an equal distance from the central axis, on these axes on the other side of the I-beam, different-height stiffeners are rigidly fixed the yoke pivotally interconnected by a thrust, while the high struts end with handles in the upper parts that have holes coaxial with each of the five holes made in the angular sector of adjusting the angle of installation of the spring teeth of the harrow at an equal angular distance from each other and from its vertical face equal to γ = 10 °, and rigidly fixed on the opposite side from the different racks of the I-beam.

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