RU2588541C1 - Combined disc harrow - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to agricultural machine building, particularly to tillage machines. Combined disc harrow comprises a frame with connecting device and placed on frame boxes for ballast, rows of spherical discs with posts mounted on frame cross beams and chisel plows. Chisel plows are arranged behind front row of discs, have inclined buried part towards longitudinal axis of harrow and are fixed on extreme harrow frame beams. Buried part of post is arranged on trace of front disc. Front rib of inclined part of chisel plows is deviated from its vertical part by an angle 40°±5°. Height of inclined part of post of chisel plow is greater than maximum treatment depth. Bending line of post is arranged at an angle 60°±5° to vertical.

EFFECT: such design solution provides for stable operation of harrow depth without driving, as well as prevention of erosion on slopes or formation of stagnant pools in marsh on flat fields.

3 cl, 3 dwg

Description

The invention relates to the field of agriculture, in particular to tillage machines.

Known disk harrows BDF (medium) with the arrangement of disks or disk sections in several transverse rows (Zhuk A.F. Soil-moisture-saving agricultural methods, combined machines and machines. M., Federal State Budgetary Institution Rosinformagroteh, 2012, pp. 104 ... 105 , Annex 1). Their specific gravity is about 500 kg per meter of working width, which makes the construction cheaper.

A disadvantage of the known harrows is the unstable deepening during processing of compacted soils and, as a consequence, the limited application thereof primarily on such soils and on sloping erosion-hazardous lands.

Heavy harrows are widely known for which the specific gravity is 1000 kg / m or more (for example, the prospectus of discopack II of the semi-mounted company Gregoire Besson, France, Appendix 2).

The best penetration of known harrows when processing compacted soil is achieved by deliberate weighting of the structure, which entails an increase in their price. However, even this does not solve the problem of decompression of the lower compacted soil layer to improve its water permeability, to prevent runoff and erosion on the slopes and stagnant pits on flat fields.

Combined disk harrows are known, containing several rows of disk and loosening working bodies located between them, performing deep cultivation over the entire width of the implement’s implements (for example, a disk ripper avenue (John Deere 512 disk ripper avenue, Appendix 3).

Subsoilers ensure the stability of the deepening of the tools and the permeability of the lower layers of the soil. However, the vertical racks of paws placed between the rows of discs create grooves and ridges along their edges, worsen the microrelief and the working conditions of a number of disks located behind the paws, which leads to clogging of disks at high humidity of clogged soils. Medium harrows with a small disc diameter and low specific gravity are more susceptible to this drawback.

Continuous deep loosening of the formation is energy-intensive, not always agriculturally rational, therefore, to prevent erosion after disking by the harrow without paws, slotting or other types of broadband loosening of the lower soil layers are used.

The technical task of the invention is to provide stable in depth and without clogging the work of the harrow with a low specific gravity and to prevent erosion on the slopes or the formation of stagnant potholes on flat fields after snowmelt and rainfall.

The technical task is achieved by the fact that in a combined disc harrow containing a frame with a connecting device, rows of spherical disks with racks mounted on the transverse beams of the frame, and subsoilers located behind the front row of disks, according to the invention, the subsoilers are made with the tilt of the depth of the racks to the side the longitudinal axis of the harrow and mounted on the extreme transverse beams of its frame, the height of the inclined part of the rack is greater than the maximum processing depth, and its deepened part azmeschena on the trail of the front drive. In addition, the working surface of the inclined part of the rack is placed at an angle of 40 ° ± 5 ° to the direction of movement, the bending line of the rack is made at an angle of 60 ± 5 ° to the vertical, and the harrow is equipped with drawers for ballast.

The invention is illustrated by drawings.

In FIG. 1 shows a combined disc harrow - top view; in FIG. 2 - the same - side view; in FIG. 3 - subsoiler, front view (A) and side view (B).

The combined disk harrow contains a frame 1 with a connecting device 2, disk working bodies 3 placed in two transverse rows, mechanisms 4 for group adjustment of their angle of attack, rippers 5 installed between these rows, boxes 6 for ballast, frame 7 of the roller 8, shields 9 limiting the waste of soil by the extreme disks and supporting posts 10.

Frame 1 contains transverse beams 11, on which racks of disk working bodies 3 are fixed, and longitudinal beams 12, containing brackets 13 with tiered openings for attaching subsoilers 5. Boxes 6 for ballast are mounted on frame 1, frame 7 of roller 8 and devices 14 are fixed in the form of cheeks with tiered openings for adjustable restriction of its rise (harrow deepening). The roller 8 is made in the form of a tubular drum.

Disk working bodies 3 are made in the form of double-disk sections with a bearing assembly, on the casing of which a spring-loaded swivel stand is mounted with a leash pivotally coupled to the thrust of the mechanism 4 for adjusting the angle of attack of the disks 3 (rack rotation). It is allowed to use a rigid or spring strut, including with one disk.

The mechanism 4 for adjusting the angle of attack of the disk working bodies 3 comprises a lanyard mounted on the frame and a rod with which the leashes of the racks of the disk working bodies 3 are articulated.

Subsoilers 5 contain a rack 15 with a vertical mounting and inclined working part with plowshares 16 on its upper surface. At the bottom of the rack, a chisel 17 is fixed. The front edge of the inclined part of the rack 15 is deviated from its vertical part by an angle of 40 ± 5 °, and the bending line between the vertical and inclined parts of the rack is placed at an angle of 60 ± 5 °. The height of the inclined part of the struts 15 (the height of the bending zone between the vertical and inclined part of the rack 15) is greater than the maximum processing depth. The middle line on the bend zone is the bend line.

The deepening of the deep-ripper 5 is regulated by changing the height of the mounting of its rack 15 on the bracket 13, and its buried part is placed on the trail of the front disc.

Boxes 6 for ballast have easily removable sides, simplifying the process of unloading ballast.

The device operates as follows.

The front row of disk working bodies 3 crushes plant debris and crumbles the upper soil layer in a strip to a depth of 6 ... 12 cm. Subsoilers 5 loosen the lower layer to a depth of 25 ... 35 cm, improve its water permeability, and prevent the formation of runoff, erosion and stagnant urea. When moving in soil on a recessed inclined part of the rack 15, a reaction of the undercut formation occurs, directed downward, which increases the stability of the harrow. The placement of deep-rippers 5 on the extreme beams 12 of the frame 1 of the harrow is most effective to ensure the same deepening of its wings, to prevent their deepening. In this case, the inclination of their buried part towards the longitudinal axis of the harrow allows you to make adjacent passes with the necessary overlap without fear that the traces of deep-rippers 5 will coincide and the deepening efficiency of the previous passage moving along the track (furrow) will decrease, which will lead to a deterioration in the depth of one of the wings of the harrow.

In the wake of the inclined part of the rack with plowshares 16, a furrow is not formed, the nanorelief of the field surface does not deteriorate, and the working conditions of the discs 3 of the back row are maintained the same as in the absence of deep rippers 5. Performing the inclined part of the racks higher in height than the maximum processing depth parts of the rack along the track P of the front disc excludes the possibility of enveloping it with plant residues and prevents the formation of a furrow in its wake.

The implementation of the bending line at an angle of 60 ± 5 ° to the vertical provides in one horizontal plane a higher placement of the rear edge of the rack 15 than its front edge (ploughshare blade), provides a rise in the formation and is optimal for providing an effective deepening reaction on the inclined part of the rack, increases the effectiveness of crushing the soil of the lower layer with a small increase in its traction resistance.

Boxes 6 for ballast are used only when processing over-compacted soils. Their occupancy is limited by the hingedness of the energy aggregating harrow.

Thus, a rational combination of devices will increase the stability of deepening of the medium harrow with a low (40% less than that of heavy harrows) specific gravity due to soil reaction on the inclined part of the racks of 15 deep rippers, prevent clogging of the disk working bodies located behind the deep rippers, as well as runoff and erosion on the slopes and the formation of wells on compacted soil due to the low-cost strip decompression of its lower layers. Subsoilers with an inclined lower part (as opposed to a vertical one) do not worsen the working conditions of the disks installed behind them, since the inclined stand does not worsen the nanorelief in front of the disk and, moreover, is not enveloped by plant debris, since its working part is placed along the front track disk, and the inclination of the deepened part of the racks of deep-rippers in the direction of the longitudinal axis of the harrow eliminates their repeated passage along the previous track.

Claims (3)

1. Combined disk harrow containing a frame with a connecting device, rows of spherical disks with racks mounted on the transverse beams of the frame, and rippers located behind the front row of disks, characterized in that the rippers are made with the inclination of the buried part of the racks in the direction of the longitudinal axis of the harrow, fixed on the extreme transverse beams of its frame, the front edge of the inclined part of the rack is deflected from its vertical part by an angle of 40 ± 5 °, and the buried part of the rack is placed along the track of the front disk . 2. The combined disc harrow according to claim 1, characterized in that the height of the inclined part of the rack is greater than the maximum processing depth, and the line of bending of the rack is made at an angle of 60 ± 5 ° to the vertical. 3. The combined disc harrow according to claim 1, characterized in that it is equipped with drawers for ballast.

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