RU86384U1 - CROWN SEEDER - Google Patents

Abstract

1. A seeder-cultivator containing a frame, a grain-fertilizer hopper, a hydraulic cylinder, working bodies, a packer roller battery and a front support, including a stand and a rigidly connected bracket, adapted to hold two pneumatic wheels of a given diameter mounted coaxially with the opposite sides of the bracket on the auxiliary axis extending essentially perpendicular to the axis of rotation of the rack, while the auxiliary axis is rigidly connected to the bracket, and the rack is mounted for rotation in connected with the frame about the cage and is equipped with a plate made with the possibility of interacting with the means for fixing the rack in the selected position placed on the cage, while the axis of rotation of the column is allocated from the axis of rotation of the wheels forward along the direction of the seeder to a predetermined distance, characterized in that it is additionally equipped symmetrically placed on the plate relative to the axis of rotation of the rack with stops designed to limit the angle of rotation of the rack during its rotation by the selected angular range. ! 2. The seeder-cultivator according to claim 1, characterized in that the selected range of angle of rotation of the rack does not exceed 180 °. ! 3. The seeder-cultivator according to claim 1 or 2, characterized in that the distance between the centers of the stops is approximately 210 mm ! 4. The seeder-cultivator according to claim 1, characterized in that the stops are made in the form of tubular elements, the height of which is approximately 20 mm, and the diameter is approximately 30 mm. ! 5. The seeder-cultivator according to claim 1, characterized in that the stand is made in the form of a pipe with a diameter of approximately 60 mm ! 6. The seeder-cultivator according to claim 1, characterized in that the predetermined distance is measured

Description

The utility model relates to agricultural engineering, in particular, to stubble cultivators for sowing grain and leguminous crops.

The well-known "Stubble seeder-cultivator SZS-2" (Collection of overview information "Status and prospects for the implementation of a set of machines for soil-protective soil cultivation and sowing technology", Gosagroprom of the USSR, 1989, AgroNIIEIITO, 16-17, Fig. 7). In this seeder, in front of the frame on a parallelogram suspension, a full-turn self-aligning support wheel is installed on one pneumatic tire. The parallelogram mechanism ensures the vertical position of the wheel when cornering. However, due to the fact that the wheel is somewhat overloaded, it is deeply immersed in the upper layer of soil. In order to deviate from straight-line movement at bends, the wheel deforms the soil, forming irregularities on the surface of the field (furrows and ridges), which ultimately leads to increase the effort to rotate the drill and the deformation of parts and assemblies of the parallelogram mechanism, the rotary part and the wheel forks.

Also known from patent RU 11441 (publ. 1999.10.16) is a stubble cultivating seeder for subsoil-spread sowing, containing a frame, a front full-rotary self-aligning support mounted on a frame on a parallelogram mechanism with two pneumatic wheels mounted on a rack, working bodies for the subsoil spreading sowing, rolling ring-rod roller, hydraulic cylinder and grain box. The known seeder-cultivator is selected as the closest analogue. A disadvantage of the known seeder with two pneumatic wheels is the inadequate study of the constructive solution regarding the implementation of the rack, on which the wheels are installed, leading to frequent breakdowns of the front support, which reduces the reliability of the seeder. This utility model is based on the task of creating a seeder-cultivator design that would satisfy the requirements agricultural technology and had high reliability due to the improvement of the design of the front support.

The problem is solved in that in a seeder-cultivator containing a frame, a grain-fertilizer hopper, a hydraulic cylinder, working bodies, a roller packer rollers and a front support, including a stand and a rigidly connected bracket adapted to hold two pneumatic wheels of a given diameter mounted coaxially with the opposite sides of the bracket on the auxiliary axis, extending essentially perpendicular to the axis of rotation of the rack, while the auxiliary axis is rigidly connected to the bracket, and the rack is mounted with the possibility of rotation in the cage associated with the frame and is equipped with a plate made with the possibility of interaction with the means for fixing the rack in the selected position, the axis of rotation of the rack assigned to the axis of rotation of the wheels forward along the direction of the seeder to a predetermined distance, new is that the seeder is additionally equipped with two stops placed symmetrically with respect to the axis of rotation of the rack on the plate, designed to limit the angle of rotation of the rack during its rotation by the selected angular range.

It is advisable that the selected range of angle of rotation of the rack does not exceed 180 °.

It is desirable that the distance between the centers of the stops is approximately 210 mm.

It is preferable to make stops in the form of tubular elements, the height of which is approximately 20 mm and the diameter is approximately 30 mm.

It is possible to make a stand in the form of a pipe with a diameter of approximately 60 mm.

It is advisable that the predetermined distance by which the axis of rotation of the rack is allocated from the axis of rotation of the wheels, measured in projection onto a plane coinciding with the axis of rotation of the rack and perpendicular to the axis of rotation of the wheels, be approximately 330 mm.

It is advisable that in the selected position provided a linear motion of the seeder.

It is desirable that the means for fixing the rack in the selected position was made in the form of a finger placed during fixation in the hole of the front plate.

It is advisable to arrange the plate essentially perpendicular to the axis of rotation of the rack and perform it with a contour having the shape of an irregular hexagon.

It is desirable that the diameter of the pneumatic wheel is approximately 60 cm, while in a projection onto a conditional plane perpendicular to the axes of rotation of the wheels, the distance from the upper extreme point of the strut to the longitudinal axis of symmetry of the auxiliary axis would be approximately 840 mm.

It is possible to supply the seeder with disks spaced along the length of the auxiliary axis and rigidly connected to it with disks adapted for fixing pneumatic wheels to them.

The most complete understanding and understanding can be found in the following detailed description with reference to the drawings, which show:

Figure 1 shows the proposed seeder-cultivator in the transport position (general view).

Figure 2 shows a side view of the front support without wheels.

Figure 3 shows a view along arrow A in figure 2.

Figure 4 shows a view along arrow B in figure 3.

The proposed seeder-cultivator, shown in Figure 1, consists of the following main units and assemblies.

The seeder contains a grain-fertilizer hopper 2 mounted on the frame 1, a roller roller 3 connected to the frame 1, working bodies - openers 4, a hydraulic cylinder 5 with an emphasis on the openers depth and a front support on two pneumatic wheels 6 and 7.

Depending on the technology of sowing, as the working bodies can be installed optionally, with the possibility of replacement, tillage elements of various types - both for row and for spread sowing.

On the front of the seeder frame 1, a parallelogram mechanism 8 is mounted, comprising an upper link and a lower link, to which a ferrule 9 is attached with a front support strut 10 arranged in it and rotatably shown in detail in FIG. 2-FIG. 4. The strut 10 of the front support can be made in the form of a pipe with a diameter d of approximately 60 mm.

An arm 11 is rigidly connected to the strut 10 of the front support by means of a cover 12, on which wheels 6 and 7 (shown in FIG. 1) spaced apart from each other are mounted, mounted coaxially from the opposite sides of the bracket 11 on the auxiliary axis 13, extending essentially perpendicular to the axis of rotation 14 of the strut 10. The auxiliary axis 13 is rigidly connected to the bracket 11, while the axis of rotation 14 of the strut 10 is assigned from the axis of rotation of the wheels, coinciding with the longitudinal axis of symmetry 15 of the auxiliary axis 13 forward in the direction of travel flies at a predetermined distance H. The distance H, measured in projection onto a plane coinciding with the axis of rotation 14 of the strut 10 and perpendicular to the axis of rotation of the wheels, is approximately 330 mm.

The rack 10 is equipped with a plate 16, the plane of which is essentially perpendicular to the axis of rotation 14 of the rack 10 and may have the shape of an irregular hexagon (FIG. 3).

Under the plate 16 to the lower end of the rack 10 at a distance of h ₁ from the lower edge of the plate 16, equal to approximately 240 mm, a plate 17 is welded to which, in turn, a stiffening element is made, made in the form of a scarf 18, mounted on an arm 11.

In the plate 16 (Fig. 4), a through hole 19 is made for placing means therein for fixing the stand 10 (i.e., the front support as a whole) in the selected position, in which the seeder is linearly moved.

The rack fixing means (not shown) is a spring-loaded pin mounted on the clip 9. The rack 10 can be locked in the selected position in another suitable manner.

On the plate 16 there are two stops 20 and 21, designed to limit the angle of rotation of the rack when it is rotated by a pre-selected angular range, which practically does not exceed 180 °.

The stops 20 and 21 are installed symmetrically relative to the axis of rotation 14 of the rack 10 and are close to the edges of the plate 16, the width h ₂ (Figure 3) of which at the place of installation of the stops 20 and 21 is selected from the range of 240-230 mm, preferably approximately 246 mm. The stops 20 and 21 can be made in the form of tubular elements, the height of which can be approximately 20 mm, the diameter can be approximately 30 mm, and the distance h ₃ between their centers can be approximately 210 mm.

The lengths of the strut 10 and the bracket 11 are selected so that when the diameter of the pneumatic wheel is approximately 60 cm, in a projection onto a conventional plane perpendicular to the axes of rotation of the wheels, the distance h ₄ (Figure 2) from the upper extreme point of the strut to the longitudinal axis of symmetry 15 of the auxiliary axis 13 was selected from a range of 830-850 mm and preferably would be approximately 840 mm. In this particular example, wheels are used according to the type of wheels for a Zhiguli car. When using wheels of other types, for example with a different diameter, the geometric dimensions may differ from the above.

The stand 10 can be additionally equipped with two disks 22 and 23 (Fig. 4), which are located at the ends of the auxiliary axis 13, adapted for fixing the pneumatic wheels on them.

At the beginning of the rut, the hydraulic system of the unit is put into the “floating” position and the seeder lowers under its own weight, deepening the coulters to the set depth. During the movement of the seeder with the working bodies 4 (openers) lowered into the working position, the seeds from the grain-fertilizer bin 2 enter through the seed tubes into the openers 4 and fall to the bottom of the furrow formed in the soil by the opener 4, and the rollers 3 behind the seeders of the seeder force-compaction of the soil above the seeds .

At the corners at the end of the corral, the front two-wheeled support of the seeder does not warp, the wheels do not sink into the soil, but only roll over, even with a sharp turn and accordingly do not displace the soil, and moreover, do not leave furrows and ridges.

Claims (12)

1. A seeder-cultivator containing a frame, a grain-fertilizer hopper, a hydraulic cylinder, working bodies, a packer roller battery and a front support, including a stand and a rigidly connected bracket, adapted to hold two pneumatic wheels of a given diameter mounted coaxially with the opposite sides of the bracket on the auxiliary axis extending essentially perpendicular to the axis of rotation of the rack, while the auxiliary axis is rigidly connected to the bracket, and the rack is mounted for rotation in connected with the frame about the cage and is equipped with a plate made with the possibility of interacting with the means for fixing the rack in the selected position placed on the cage, while the axis of rotation of the column is allocated from the axis of rotation of the wheels forward along the direction of the seeder to a predetermined distance, characterized in that it is additionally equipped symmetrically placed on the plate relative to the axis of rotation of the rack with stops designed to limit the angle of rotation of the rack during its rotation by the selected angular range. 2. The seeder-cultivator according to claim 1, characterized in that the selected range of angle of rotation of the rack does not exceed 180 °. 3. The seeder-cultivator according to claim 1 or 2, characterized in that the distance between the centers of the stops is approximately 210 mm 4. The seeder-cultivator according to claim 1, characterized in that the stops are made in the form of tubular elements, the height of which is approximately 20 mm, and the diameter is approximately 30 mm. 5. The seeder-cultivator according to claim 1, characterized in that the stand is made in the form of a pipe with a diameter of approximately 60 mm 6. The seeder-cultivator according to claim 1, characterized in that the predetermined distance, measured in projection onto a plane coinciding with the axis of rotation of the rack and perpendicular to the axis of rotation of the wheels, is approximately 330 mm. 7. The seeder-cultivator according to claim 1, characterized in that in the selected position provides a rectilinear movement of the seeder. 8. The seeder-cultivator according to claim 1, characterized in that the means for fixing the rack in the selected position is a finger placed during fixing in the hole of the front plate. 9. The seeder-cultivator according to claim 1, characterized in that the plate is essentially perpendicular to the axis of rotation of the rack. 10. The seeder-cultivator according to claim 1, characterized in that the contour of the plate has the shape of an irregular hexagon. 11. The seeder-cultivator according to claim 1, characterized in that the predetermined diameter of the pneumatic wheel is approximately 60 cm, while in the projection on a conditional plane perpendicular to the axes of rotation of the wheels, the distance from the upper extreme point of the rack to the axis of symmetry of the auxiliary axis is approximately 840 mm 12. The seeder-cultivator according to claim 1, characterized in that it further comprises disks spaced along the length of the auxiliary axis and rigidly connected with it, adapted to fix pneumatic wheels to them.