RU172996U1 - Disc Tillage - Google Patents

Abstract

The disk tillage unit belongs to agricultural engineering and can be used for loosening and preparing the soil for sowing, for post-harvest tillage. The proposed disk tillage unit comprises a frame 1 with transport wheels 2, a towing device 3 pivotally connected to the frame 1 with frame 4 tilting cylinders, frame 5 lifting cylinders mounted on the longitudinal and transverse bars of the frame 1, spring struts 6 with turbo disks 7, strip rollers 8 and spring harrows 9. Each spring strut 6 is inserted with the possibility of free limited rotation into the support sleeve 11 with a rotation-limiting restrictive pin 14 installed in the hole in the spring strut and movable in the groove made in the support sleeve 11. On the upper end of the spring strut there is a cover 15 fixed by a fixing pin 16 so that the cover 15 rotates together with the spring strut 6. The spring harrows 9 and the strip rollers 8 are mounted on a single spring-loaded lever 17, connected to the spring rod 18. The hydraulic cylinders of the tilt 4 and lift 5 of the frame for adjusting the depth of processing are equipped with clip inserts 19 mounted on their rods. The proposed disk tillage unit improves the operation these characteristics, agrotechnical indicators of the quality of soil cultivation, ease of maintenance, to increase reliability and maintainability.

Description

The utility model relates to agricultural machinery, in particular to disk tillage units, and can be used for surface tillage when performing primary and pre-sowing tillages without preliminary plowing, for loosening and preparing the soil for sowing, for post-harvest tillage.

Known disk tillage aggregate containing a frame with transport wheels, a hitch connected to the frame with a towing device with a hydraulic cylinder for raising the frame, press tools mounted on the rear transverse beam of the frame, mounted on the longitudinal and transverse bars of the rack frame with convex-concave disks mounted with the possibility of adjusting the angle of attack, in each subsequent row, the disks are displaced in the transverse direction relative to the disks of the previous row by an amount equal to the quotient of the division I interdisk distance by the number of rows, and in the first pair of rows the disks of the first row are installed in one direction, and the disks of the second row are installed in the opposite direction, i.e. the concave or convex sides, respectively, in opposite directions, and the unit is additionally equipped with a mechanism for adjusting the depth of the front row of discs, and in the subsequent next to the first pair of rows, the discs are respectively installed in the same direction as in the first pair of rows (see RF patent for useful Model No. 58282, IPC АВВ 21/08, published on November 27, 2006).

In a known unit, when arranged in pairs, all the disks of the first row are in the same direction, and the disks of the second row are in the opposite direction, i.e. the concave or convex sides, respectively, in opposite directions, which leads to displacement of the disks in the transverse direction from row to row and as a result to uneven and poor-quality tillage. In the known unit, after adjusting the angle of attack of the disks, the support posts are rigidly fixed on the bars of the frame, during the operation of the unit constant monitoring of the angle of attack is required, which affects the quality of the soil treatment.

The closest in technical essence is a disk tillage unit containing a frame, transport wheels mounted on the frame with frame lifting cylinders, a towing device pivotally connected to the frame with a frame tilt cylinder, arranged in rows of turbo discs, each spring strut of which is made with spiral spiral turns with horizontal axis, is inserted with the possibility of free limited rotation in the support sleeve with a restrictive pin, mounted on the mounting support of the uprights in two rectangular plates clamped by four bolts on the beam, harrowing and rolling working bodies, with turbo disks mounted on all rows of the same working width, harrowing and rolling working bodies mounted on different individual levers, the spring strut is mounted in the support sleeve against the cover and fixed with a restrictive with a pin, turbo discs over the entire working width are installed of one standard size, and the mechanism for adjusting the depth and parallelism of the frame travel has additional lanyards (see US patent No. 8113295 for IPC A01B 7/00, publ. 02/14/2012).

In the known unit, the arrangement of turbo disks on all rows with one working width leads to an increased insertion force in the first three rows and uneven load on the racks, which entails unstable operation of the unit in terms of processing depth.

The installation of harrowing and rolling working bodies on different individual levers does not ensure the uniformity of the spring harrows, which negatively affects the quality of tillage.

The rack mount has a simple but unreliable design and when cutting the limit pin that restricts the rotation, the spring rack can be lost, since it is supported in the support sleeve with only one limit pin. Adjusting the working depth and parallelism of the frame is complex and time-consuming.

The technical result is the creation of a tillage unit with a higher quality of the technological process of tillage due to the uniform depth of cultivation along the width of the grip with a higher uniformity of the soil structure.

The technical result is achieved by the fact that in a disk tillage unit containing a frame, transport wheels with frame lifting cylinders fixed to the frame, a towing device pivotally connected to the frame with a frame tilting cylinder, arranged in rows of turbo discs, spring struts of which are mounted on mounting supports for racks with the possibility of free limited rotation with a restrictive pin, harrowing and rolling working bodies, according to a utility model, the mounting supports for racks are made in in the form of a support sleeve with a bracket fixed by means of a bracket covering the beam of the frame, and the spring strut provided with an additional safety support, made in the form of a cover fixed to the upper end of the spring strut in the form of a support disk in contact with the end of the support sleeve, turbo discs are installed in five rows, and the first three rows have a smaller working width compared to the last two rows. The hydraulic cylinders for lifting and tilting the frame to control the depth of processing are equipped with clip inserts mounted on their rods, made in the form of two semicircular arches, fastened together by spring brackets. Harrowing and rolling working bodies are installed on the rear beam of the frame on a single spring-loaded lever.

Pressing working bodies are made in the form of strip rollers. Harrowing working bodies are made in the form of spring harrows installed in three rows.

The implementation of an additional safety support in the form of a cover mounted on a rack and secured by a locking pin with the possibility of free rotation together with a spring strut eliminates the loss of the strut when the limit pin is cut. The mounting of the spring strut can be made in the form of a snap ring with a cover mounted on the strut. Harrowing and rolling working bodies can be of various designs with installation on the frame of the unit in one or more rows.

In FIG. 1 shows the proposed unit in a perspective view; In FIG. 2 shows the proposed unit, a top view; in FIG. 3 - mounting a turbo disc on the unit frame, side view; in FIG. 4 - turbo-disk mount on the unit frame, top view; in FIG. 5 - a fragment with the image of the working bodies of the unit installed on the rear beam of the frame, side view; in FIG. 6 - image of the fragment "A"; in FIG. 7 - fastening of a transport wheel with a lifting hydraulic cylinder on a beam of a frame, side view; in FIG. 8 - clip insert, side view.

The disk tillage unit comprises a frame 1 with transport wheels 2, a towing device 3 pivotally connected to the frame 1 with frame 4 tilting cylinders, frame 5 lifting cylinders mounted on the longitudinal and transverse bars of the frame 1 spring struts 6 with turbo disks 7, strip rollers 8 and spring harrows 9. Spring struts 6 are made with spiral spiral turns 10 with a horizontal axis. The spring struts 6 are mounted on the bars of the frame 1 by means of a mounting support for the struts, made in the form of a support sleeve 11 with an arm 12 fixed by a bracket 13, wrapping the beam of the frame 1. Each spring strut 6 is inserted with the possibility of free limited rotation into the supporting sleeve 11 s restricting rotation by a restrictive pin 14 installed in the hole in the spring strut and moved into the groove made in the support sleeve 11. At the upper end of the spring strut there is a cover 15 secured by a fixing pin 1 6 so that the cover 15 rotates with the spring strut 6.

Spring harrows 9 and strip rollers 8 are mounted on a single spring-loaded lever 17 connected to the spring rod 18. The hydraulic cylinders for tilting 4 and lifting 5 of the frame for adjusting the working depth are equipped with clip inserts 19 mounted on their rods and made in the form of two semicircular arches 20 fastened between self spring brackets 21.

The operation of the unit is as follows.

Before starting work, the unit is transferred using the tractor hydraulic system from the transport position to the working initial position, in which the unit is lowered and rests on the soil with roller rollers 8 and transport wheels 2, the hitch is fixed by the tilt cylinder 4, the turbo discs 7 are buried.

During the movement of the turbo-disk assembly 7, rotating, cut off the crop residues, crumble the cultivated soil layer and intensively mix with the crushed organic matter. Following the five rows of turbo disks 7, spring harrows 9 and strip rollers 8 produce additional crumbling of the soil, form a compacted layer and level the surface of the treated field.

Changing the depth of processing is carried out using the clip inserts 19 mounted on the rods of the tilt cylinders 4 and lifting the frame 5, and to increase the depth of processing, the clip inserts 19 are removed from the rods of the hydraulic cylinders, and added to reduce it. Clip inserts 19 are used to adjust the depth of tillage and the position of the frame 1 both in the direction of movement and in the direction of transverse movement.

Turbo discs 7 mounted on spring struts 6, mounted on the frame 1 so that during the movement of the unit they are able to freely rotate together with the spring struts 6 at a limited angle, which reduces the load on the bearing assembly during maneuvering.

In the process of operation, turbo-discs 7 perform high-frequency oscillations in a plane perpendicular to the soil surface, thereby enhancing the effect of destruction of the lower and lateral layers, providing a soil layer that is homogeneous in agrophysical properties, crushing and planting of plant residues.

Turbo discs 7 mounted on spring struts 6 help to improve crushing of the formation, as well as grinding of plant debris.

Mounted in five rows of turbo discs 7 allow you to process the soil behind the transport wheels 2, thereby not exposing the treated soil to excessive compaction. The turbo-discs 7 installed in different working widths, on the first three and rear two rows, make it possible to average the plunging force on all spring struts of the unit, thereby achieving a more uniform processing process and a stable stroke of the unit. The spring harrow 9 loosens and combes out the weeds, the flat rollers 8 level the microrelief, additionally crush the soil, close up the crop residues and compact the loosened layer.

At the end of the working stroke of the aggregate, the frame 1 with the help of the hydraulic cylinders for lifting the frame 5 is deepened, the hitch is fixed by the hydraulic cylinder for tilting the frame 4, the unit performs an idle turn and again takes its working starting position for the next working stroke with a repetition of the process.

In the transport position of the unit, the frame 1 is lifted by the lifting cylinders of the frame 5 with the rods fully extended, the position of which is fixed by the installed complete set of clip inserts 19, and the hitch 3 is fixed by the tilt cylinder of the frame 4 also with a full set of clip inserts 19.

The proposed disk tillage unit allows to improve operational characteristics, agrotechnical indicators of the quality of tillage, ease of maintenance, increase reliability and maintainability. The unit can be of different widths with the possibility of folding the side wings.

The application of the proposed disk tillage unit provides:

- field alignment;

- grinding and incorporating crop residues into the topsoil;

- mechanical weed control;

- creating a mulching layer;

- destruction of the lower compacted soil layers.

Claims (3)

1. A disk tillage unit comprising a frame, transport wheels mounted on the frame with frame lifting cylinders, a towing device pivotally connected to the frame with a frame tilt cylinder, rows of turbo discs, spring struts mounted on mounting supports for struts with the possibility of free limited rotation with a restrictive with a pin, harrowing and rolling working bodies, characterized in that the mounting supports for the racks are made in the form of a support sleeve with a bracket fixed to the middle By means of a bracket covering the beam of the frame, and the spring strut is equipped with an additional safety support, made in the form of a cover fixed to the upper end of the spring strut in the form of a support disk in contact with the end of the support sleeve, the turbo discs are arranged in five rows, the first three rows having a smaller working width in comparison with the last two rows, the tilt and lift hydraulic cylinders for adjusting the depth of processing are equipped with clip inserts mounted on their rods, harrowing and rolling working parts are installed on a single spring-loaded lever. 2. The unit according to claim 1, characterized in that the rolling working bodies are made in the form of strip rollers. 3. The assembly according to claim 1, characterized in that the clip inserts are made of two semicircular arches, fastened together by spring brackets.

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