RU2343657C1 - Combined plowing outfit - Google Patents

Abstract

FIELD: agricultural industry.

SUBSTANCE: outfit consists of a frame with a hinge system, support wheels with a soil treatment depth adjusting mechanism, disk gangs, flat-cutting working members, transport wheels with a hydraulic-driven lifting mechanism, and a tail of packing devices. Bars are hinged transversely to the frame and equipped with a parallelogram mechanism. The latter is kinematically connected to the frame through a hydraulic cylinder powered from an energy source hydraulic system. Flat-cutting working members are arranged in a staggered order and fixed on the frame bars. Flat-cutting working members are made in the form of "П"-shaped racks to the flanges of which, arranged at the bottom and equipped with a groove, there hinged from below are legs. The latter are made in the form of round disks with a groove. On the disks there mounted from above are triangular agitators. Travel of a hydraulic cylinder rod and travel of parallelogram mechanism is restricted by a control stop. At the hydraulic cylinder rod retracted the attack angle of flat-cutting working members is limit.

EFFECT: improving operating reliability of the outfit, and reducing energy consumption during soil cutting.

3 cl, 4 dwg

Description

The invention relates to the field of agricultural machinery, in particular to devices for subsurface tillage,

It is known "Tool for moldless tillage" (see patent RU 2244387), which includes a rectangular frame with a hitch system and a system for adjusting the depth of processing in the form of support wheels, to which working bodies are mounted on brackets in the form of lancet paws mounted on racks equipped with the gap between the halves of the paws with a reverse bit. The bit has a concave shape and is mounted on a two-arm lever, the upper part of which is kinematically connected with the rod of the hydraulic cylinder connected to the valve.

The disadvantages of this tool include: low technological ability, which does not provide layered processing, the high cost of the tool, since it is necessary to provide each bit of the working body with a hydraulic cylinder, and that only the bit, and not the entire paw, is mobile.

The AKP-5 Combined Tillage Unit is also known (see G.G. Maslov, Sh.N. Bogus. Mechanized technologies for cultivating and harvesting crops. Maykop, Republican Publishing and Printing Association Adygea, 1997, p.69- 72), containing mounted and trailed parts. The main components are a frame, a hitch, support wheels with a depth adjustment mechanism, spherical disks, plane-cutting bodies fixed in a checkerboard pattern on the frame, represented by a vertical strut and plane-cutting knives of a triangular shape, a roller cultivator with a leveler, transport wheels with a hydraulic system. The racks are equipped with brackets with adjusting bolts that fix the angle of entry of the knife into the soil.

The disadvantages of this design include the high energy costs of working on flat-cutting working bodies, depending on the conditions of the agricultural environment, and the fact that the adjustment of the knives is done manually and it is insignificant.

The closest in terms of technical essence and economic effect to be achieved is a combined tillage unit (see Rykov V.B.Mechanical and technological substantiation of technical means and units for soil cultivation in conditions of dry farming in the south of Russia, abstract for the degree of Doctor of Technical Sciences. Zernograd, 2001; new roller, transport wheels with hydraulic hoist.

The disadvantage of this device is the high energy consumption, depending on the cutting angle (8), the value of which depends on the conditions of the agricultural environment and affects the technological process of formation of elemental chips (see ibid. 1, 2, p. 10) and low operational reliability of the working bodies due to rapid blunting of the cutting edges.

The technical solution to the problem is to reduce energy costs in the process of cutting soil with plane-cutting organs and increase their operational reliability.

The solution to the problem is achieved in that in the known unit, including a frame with a hitch system, support wheels with a mechanism for adjusting the working depth, disk batteries, flat-cutting working bodies in the form of rectangular posts, paws with sharpeners and triangular agitators, staggered and fixed on the frame beams, transport wheels with a hydraulic lifting mechanism and a cable for the rolling means, according to the invention, the beams are pivotally and transversely mounted on the frame and equipped with a parallelogram a mechanism kinematically connected through a hydraulic cylinder, fed from the hydraulic system of the energy tool, to the frame, and the plane-cutting working bodies are made in the form of U-shaped racks, to the shelves of which are located below and equipped with a sharpening, paws having the shape of round disks are fixed below, and agitators are above moreover, the paws to the shelves are hinged, and the stroke of the hydraulic cylinder rod and with it the stroke of the parallelogram mechanism is limited by the regulating stop, and with the cylinder rod retracted, the max. flax angle of attack ploskorezhuschih working bodies.

The new elements are that the bars are mounted pivotally and transversely on the frame and are equipped with a parallelogram mechanism kinematically connected via a hydraulic cylinder, energized from the hydraulic system of the power tool, to the frame, and the plane-cutting working bodies are made in the form of U-shaped racks, to the shelves of which are located below and equipped with a sharpener, paws having the shape of round disks are fixed at the bottom, and agitators are on top, and paws are hinged to the shelves, and the stroke of the hydraulic cylinder rod and with it the parallelogram stroke the mechanism is limited by the regulatory emphasis, and with the hydraulic cylinder rod retracted, the maximum angle of attack of plane-cutting working bodies is ensured.

The device is schematically depicted in the drawings. Figure 1 shows a diagram of the unit, side view; figure 2 - view A; figure 3 is a section bb; figure 4 - plane-cutting working body.

The combined soil cultivating unit contains a frame 1 with a suspension system 2. In front of the frame 1 is equipped with support wheels 3 with a mechanism for adjusting 4 processing depths (installation heights). Then, disk batteries 5 are attached to the frame 1, and plane-cutting working bodies are attached to them 6. At the rear, the frame 1 is equipped with transport wheels 7 with a hydraulic lifting mechanism 8 and a loop of attached drum rolling means 9. The flat-cutting working bodies 6 are staggered with overlapping and fixed on the two transverse bars 10, with which the frame 1 is equipped. The bars 10 on the frame 1 are mounted pivotally using the bearing units 11. The bars 10 are connected by a parallelogram mechanism 12. The mechanism 12 is kinematically connected through a hydraulic cylinder 13 with a frame 1 and is powered from a hydraulic system of an energy tool (not shown). The stroke of the hydraulic cylinder 13 and the stroke of the parallelogram mechanism 12 is limited by the regulating stop 14, and the hydraulic cylinder 13 with the retracted rod provides the maximum angle of attack of the plane-cutting working bodies 6. The flat-cutting working bodies 6 contain U-shaped racks 15, shelves 16 of which are located at the bottom and have a sharpening 17. The flat-cutting legs 18 are made in the form of disks with a sharpening 19 and are pivotally attached using the bearing assembly 20 from the bottom to the shelves 16, on which triangular agitators 21 are rigidly mounted on top.

The unit operates as follows. At a special site with the help of regulation mechanisms 4, the installation of plane-cutting organs 5 is checked to the required processing depth. Then, the unit, coupled to an energy tool (not shown in the diagram) using the hydraulic mechanism for lifting 8 wheels 7, is transferred to the transport position and moved to the field, where it is transferred back to the working position by reverse operation.

When operating the unit, the disk batteries 5 cut the roots of the crop residues and carry out surface loosening to a depth of 7-8 cm, and plane-cutting working bodies 6 with disks 18 with sharpening 19 are introduced into the soil up to racks 15. Disks 18 tear off soil layers that move along them, and then along the shelves 16 with sharpening 17 fall on the agitators 21, which provide crumbling of the formation. Additional crumbling and compaction of the soil is carried out by means of rolling means 9. Depending on the moisture content and soil sodding, the machine changes the angle of attack of the working bodies 6, turning on the hydraulic cylinder 13 acts on the parallelogram mechanism 12, due to which the bars 10 rotate clockwise, and the working bodies rotate with them 6 to the required angle of attack, determined by the quality of processing. Adjustment can be carried out as far as the stop 14.

Claims (3)

1. Combined soil cultivating unit, including a frame with a hitch system, support wheels with a mechanism for adjusting the depth of processing, disk batteries, flat-cutting working bodies with triangular tedders placed in a checkerboard pattern and mounted on the bars of the frame, transport wheels with a hydraulic hoist and a cable for rolling means characterized in that the bars are mounted pivotally and transversely on the frame and are equipped with a parallelogram mechanism kinematically connected via a hydraulic cylinder, ny of the hydraulic power means, the frame and ploskorezhuschie working bodies are in the form of U-shaped uprights, the shelves are placed at the bottom and equipped with sharpening, bottom hinged legs, having the form of circular disks with sharpening, on top of which are mounted turners. 2. Combined tillage unit according to claim 1, characterized in that the stroke of the hydraulic cylinder rod and with it the stroke of the parallelogram mechanism is limited by a control stop. 3. The combined tillage unit according to claim 1, characterized in that when the cylinder rod is retracted, the angle of attack of the plane-cutting working bodies is maximum.

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