RU2849075C1 - Combined soil cultivation unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: combined soil cultivation unit comprises a supporting frame with longitudinal and transverse beams and a connecting device, rollers with drums, a rotating carriage with support and transport wheels, and a hydraulic cylinder. The front and rear beams of the supporting frame are equipped with leg supports (10) with working bodies. In the front part of the leg (10) and in the middle part of each wing, above and below, there are adjacent grooves with slots for platforms with working bodies rigidly fixed to them. Each of the working bodies is made in the form of a triangular ripper (36) at the top and a triangular slitter (37) at the bottom. The length of each platform and plugs for the grooves is half the length of the bases of the ripper (36) and slitter (37). The height of the rippers (36) is one-third less than the height of the slitters (37). The angle of attack of the flat claw (10) is 10-15° . The inclination of the cutting parts of the ripper (36) and slitter (37) to the surface of the claw (10) is 35° and 25°, respectively. The ratio of the thickness of the working parts to the thickness of the wing is 1:3. The width of each platform is equal to the width of the groove under it and four times the thickness of each working part.

EFFECT: improved soil cultivation quality.

1 cl, 25 dwg

Description

The invention relates to the field of agriculture, in particular to soil-cultivating machines.

A deep-ripping cultivator is known, comprising a hitch hinged to a frame on which support wheels with depth adjustment mechanisms are mounted, rippers arranged in a single row between two rows of overlapping arrow-shaped paws, wherein each ripper stand is located in the same longitudinal plane as the corresponding arrow-shaped paw of the first row. (Patent RU No. 2365074, IPC A01B 49/02, 2009).

The disadvantage of the known design is that the cultivator paws are not capable of cultivating the soil in different combinations and in different configurations.

The closest technical equivalent to the claimed device is the soil cultivation device selected as a prototype, comprising a supporting frame with longitudinal and transverse beams and a connecting device, rollers with drums, a rotating carriage with support and transport wheels and a hydraulic cylinder, with racks with a working element attached to the front and rear beams of the supporting frame. Two rows of disc working elements and two rows of loosening elements are mounted behind the rows of disc working elements mounted on beams with racks, paws, and holders (Patent RU No. 2730659, IPC A01B 49/02, 2020).

The disadvantage of the known device is that in order to perform the loosening and slitting operation with changed parameters, it is necessary to change the holder with the ripper and slitter, which requires additional material and operating (financial) costs.

The technical challenge is to improve the working element of the cultivator paw of a combined unit, to simultaneously carry out several operations: cultivation, soil loosening, slitting, finishing, soil compaction and the ability to change the processing pattern.

The technical result of the proposed invention is to improve the quality of soil cultivation and increase economic efficiency.

The technical result consists in the fact that a combined soil-cultivating unit comprising a supporting frame with longitudinal and transverse beams and a connecting device, rollers with drums, a rotary carriage with support and transport wheels and a hydraulic cylinder, racks with working bodies are fixed on the front and rear beams of the supporting frame, according to the invention, in the nose part of the paw and in the middle part of each wing, adjacent grooves with slots for platforms with working bodies rigidly fixed thereto are made at the top and bottom, each of which is made in the form of a triangular ripper at the top and a triangular paracultivator at the bottom, the length of each platform and plugs is half the length of the bases of the ripper and paracultivator, the height of the rippers is one third less than the height of the paracultivator, the attack angle of the flat paw is 10-15°, the inclination of the cutting parts of the ripper and paracultivator to the surface of the paw is 35° and 25°, respectively, the ratio of the thickness of the working bodies to the thickness of the wing is 1:3, the width of each platform is equal to the width of the groove for it and four times the thickness of each working element.

The invention is explained by drawings.

In Fig. 1 is shown a combined soil-cultivating unit, side view; in Fig. 2 - the same, top view; in Fig. 3 - general view of a cultivator paw with working bodies; in Fig. 4 - the same, front view; in Fig. 5 - the same, top view; in Fig. 6 - the same side view; in Fig. 7 - a paw with three rippers; in Fig. 8 - a paw with three paracultrers; in Fig. - 9 a paw in full set; in Fig. 10 - a paw with one ripper and a paracultrer in the nose part of the paw; in Fig. 11 - a paw with two rippers and with two paracultrers on the wings; in Fig. 12 - a paw with one paracultrer in the nose part of the paw; in Fig. 13 - a paw with two paracultrers under the wings; in Fig. 14 - a paw with one ripper and a paracultivator in the nose part of the paw and with one ripper and a paracultivator to the left of the center line of the paw; in Fig. 15 - a paw with one ripper and a paracultivator in the nose part of the paw and with one ripper and a paracultivator to the right of the center line of the paw; in Fig. 16 - a paw with plugs; in Fig. 17 - a paw with slots and grooves; in Fig. 18 - a ripper for the groove of the paw in the nose part; in Fig. 19 - a ripper for the groove of the right wing; in Fig. 20 - a ripper for the groove of the left wing; in Fig. 21 - a paracultivator for the groove of the paw in the nose part; in Fig. 22 - a paracultivator for the groove of the paw of the left wing; in Fig. 23 - a paracultivator for the groove of the paw of the right wing; in Fig. 24 - a plug for the groove of the ripper; Fig. 25 - plug for the groove of the slotter.

The combined tillage unit comprises a hitch 1, a turnbuckle 2, pivotally connected to the supporting frame 3, links 4 of a parallelogram mechanism 5 with front 6 and rear 7 beams, posts 8 mounted thereon with holders 9 and paws 10. The supporting frame 3 comprises longitudinal beams 11, beams 12 adjustable in width, a middle cross beam 13, on which a hydraulic cylinder 14 with a hydraulic lock 15, connected to the frame 3, is mounted, connected to a carriage 16, on which support and transport wheels 17 are mounted.

On the rear beam 18 of the frame 3, posts 19 are fixed, to which a drawbar 20 and a lever 21 with a bolt 22 intended for adjusting the installation height of the rollers are pivotally connected. Lever 21 is pivotally connected to a rod 23, on which a spring 24 with a nut for adjusting its compression is mounted. Drawbar 20 is pivotally connected to the brackets of the frame 25 of the roller section. By changing the length of the section of rod 26, the inclination of the frame 25 and the relative height of the rollers 27 are adjusted. This adjustment is necessary when changing the overall tillage depth and the inclination of drawbar 20 by means of bolt 22.

Rollers 28 with slatted-toothed and tubular drums (not shown in the figure) are mounted on frame 25. Drawbar 20 and frame 25 of the rollers are connected at the top by means of a rod 29 containing a row of openings located along its length. A height-adjustable rod 29 with a harrow 30 with spring teeth and an adjusting rack 31 is secured to drawbar 20. Rack 31 contains a row of openings allowing the length of the section between the pins for its attachment to frame 25 to be varied.

In the nose section of the paw 10 and in the middle section of each wing 32, adjacent grooves 33 with slots 34 are formed at the top and bottom for platforms 35 with working elements rigidly attached thereto. Each working element is designed in the form of a triangular ripper 36 at the top and a triangular paracultivator 37 at the bottom. The length of each platform 35 and plugs 38 is half the length of the bases 39 of the ripper 36 and paracultivator 37.

The length of each platform 35 and plugs 38 is made half the length of the bases 39 of the ripper 36 and the paraplough 37, which allows for a reduction in its metal consumption, and the support of the rear part of its base on the surface of the paw 10 will allow it to be securely fixed on it and perform its function.

One ripper 36 and one paraplough 37 are fixed in the nose part of the paw 10 and in the middle part of each wing of the paw 10. The height of the ripper 36 is one third less than the height of the paraplough 37.

The execution of each ripper 36 and paraplough 37 with platforms for grooves 33 of paw 10 makes it possible to reinstall the working bodies according to different schemes and in different configurations, while the distances between the processed strips will change.

Making the height of rippers 36 one third less than the height of paraploughs 37 allows changing the depth of loosening and slitting after their reinstallation.

The angle of attack of flat paw 10 is 10-15°. The inclination of the cutting parts of ripper 36 and paraplough 37 to the surface of paw 10 is 35° and 25°, respectively. The ratio of the thickness of the working elements to the thickness of wing 10 is 1:3; the width of each platform 35 is equal to the width of groove 33 under it and four times greater than the thickness of each working element.

The flat paw attack angle of 10° to 10-15° allows for shifting soil cultivation, which improves the quality of soil cultivation.

Making the thickness of the working elements one third smaller than the thickness of the paw 10 and the width of each platform 35 four times greater than the thickness of each working element will allow the rippers to withstand frontal loads, and the platforms 35 to be securely held in the grooves 33 during operation.

The working units are installed to allow for variable tillage patterns, and, if necessary, the process can be carried out with one, two, or three working units. The distances between tilled strips will vary accordingly.

When dismantling all working parts and installing plugs 38 in their place, in this case one operation to destroy weeds will be performed.

The combined tillage unit operates as follows.

Before starting work, working bodies 36 and 37 with platforms are inserted into grooves 33 of the nose part of the paw 10 and in the middle of the cultivator wings.

As the unit moves, cultivator tines 10, mounted on the front 6 and rear 7 beams of the supporting frame 3, cut the soil, destroying weeds. Simultaneously, rippers 36, mounted above tines 10, loosen the soil, while paraploughs 37 create slits, which helps regulate the water-air balance.

Behind the cultivator paws 10, rollers 27 and 28 are installed on frames 25, and slatted-toothed and tubular drums are secured, which carry out final processing and compaction of the soil.

In one pass, the unit performs several operations: loosening, slitting, soil cultivation with weed control, final processing and soil compaction, which increases economic efficiency.

Cultivation is carried out so that during sowing, the seeds of the agricultural crop are placed on a dense soil bed and covered with a loose soil layer on top.

During cultivation, soil layers are mixed, particularly the moist bottom layer with the drier top layer. This mixing causes the top layer to lose moisture, while the underlying layer maintains capillary action and receives moisture from the layers below. Seeds should be placed in the bottom layer, which was raised during cultivation, to promote uniform germination.

Therefore, pre-sowing cultivation should be carried out to the seed sowing depth.

In dense and excessively wet soil, the cultivation depth can be increased to 12 cm, which will loosen the soil to a depth of 12 cm and create a slit at 8 cm. In this case, it is necessary to replace the working tool with one with the required parameters.

The root system of most weeds does not exceed 10 cm in depth. When performing pre-sowing cultivation, the cultivator blade effectively removes weeds, so pre-sowing cultivation can also result in herbicide savings.

The use of the claimed device will improve the quality and economic efficiency of soil cultivation.

Claims (1)

A combined tillage unit comprising a supporting frame with longitudinal and transverse beams and a connecting device, rollers with drums, a rotary carriage with support and transport wheels and a hydraulic cylinder, on the front and rear beams of the supporting frame the stands of the paws with working bodies are fixed, characterized in that in the nose part of the paw and in the middle part of each wing at the top and bottom there are adjacent grooves with slots for platforms with working bodies rigidly fixed thereto, each of which is made in the form of a triangular ripper at the top and a triangular paracultivator at the bottom, the length of each platform and plugs for the grooves is half the length of the bases of the ripper and paracultivator, the height of the rippers is one third less than the height of the paracultivator, the attack angle of the flat paw is 10-15°, the inclination of the cutting parts of the ripper and paracultivator to the surface of the paw is 35° and 25° respectively, the ratio of the thickness of the working bodies to the thickness of the wing is 1:3, the width of each platform is equal to the width of the groove for it and four times the thickness of each working element.