RU2608224C2 - Soil tillage and sowing unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agricultural machine building, particularly, to combined units and machines for soil tillage and planting. Unit for tillage and planting has located on frame (1) ripper rotor (2) with drive teeth (3) and tillage rotor (4) with discs, on which from both sides L-shaped blades are installed, connected with ripper rotor (4) by accelerating transmission (7) and closed by protective casing (8). Cultivator shares are installed between ripper (2) and tillage (4) rotors in middle of ripper rotor (2) drive teeth inter-trails. Cultivator shares fertilizer guides (10) are connected with fertilizer box (12) by fertilizer funnels (11). Protective cover (8) is equipped with soil surface leveler (13) and attachment bar (14), on which torsion springs (15) trailers cereal crops sowing shares (16) are installed, connected with seed box (18) by seed tubes (17). Further coverers (20) and roller (21) with treatment depth adjustment mechanism (22) are arranged. Shares (16) initial torsion spring (15) compression is set by means of common for group of shares (16) limiting beam (19) position installation. Limiting beam (19) is fixed in slots of attachment bracket. Limiting beam (19) lower fixed position provides for not more than of ¹/₂ of torsion spring (15) force, and upper fixed position is for not less than of ¹/₂ of spring (15) force.

EFFECT: such design solution is aimed at improvement of design reliability and improvement of sowing quality.

1 cl, 2 dwg

Description

The invention relates to agriculture, in particular to combined units and machines for tillage and sowing.

A known unit for tillage and sowing, containing loosening and milling rotors located on the frame, interconnected by an accelerating gear, cultivating legs, a protective casing, a rolling roller. The protective casing has a soil leveling device and a fastening bar, on which coulters for sowing grain crops are mounted on trailers of torsion springs. The horizontal position of the trailer corresponds to the force of the torsion spring required to deepen the coulter to the installation depth of sowing [S.L. Demshin, V.L. Andreev, L.M. Kozlova and others // The method of tillage and sowing and a device for its implementation. RF patent for the invention No. 2436271, АВВ 49/06, 79/02, publ. 12/20/2011, Bull. No. 35].

The disadvantage of this device is that when it is raised to the transport position, the coulters under the action of torsion spring forces and gravity move down a path corresponding to the radius of the torsion spring trailer. In this case, the coulters are in a free position, which, when the unit vibrates during transportation, causes them to vibrate with an amplitude and frequency sufficient to cause damage to the seed tubes and the suspension mechanism. In addition, when lowering the unit onto the soil, the coulters are in a position where the seed guide is the lower point of the coulter, which leads to its clogging with the soil, i.e. violates the technological process of sowing.

The claimed invention is aimed at solving the following problem: improving the reliability of the design and improving the quality of sowing unit for tillage and sowing.

The problem is solved due to the fact that the unit for tillage and sowing, containing a loosening rotor with drive teeth and a milling rotor mounted on the frame mounted with the possibility of free rotation and interconnected by an accelerating transmission, cultivating paws mounted between them with guides connected by pipelines with a fat box, a protective casing with a leveling surface, soil coulters, each of which is mounted on a torsion spring trailer mounted on a fastening bar, Connections vas deferens with a seed compartment, earthing devices and roller according to the invention, the initial compression of the torsion of each opener spring is determined by the position-limiting rod, which is movable in a transverse vertical plane relative to the number of coulter, with its lower locked position should provide no more than _^half effort torsion springs required to deepen the coulter to the minimum installation depth of sowing on light soils, and the upper fixed position is not m Less ^than _{1/2 of the} force of the torsion spring required to deepen the coulter to the maximum installation depth of sowing on heavy soils.

During operation of the unit for tillage and sowing the loosening rotor rotary tines, forcibly rolling under the influence of the tractor traction force, the soil is loosened in strips and, simultaneously, the milling rotor with L-shaped knives mounted on it is rotated through an accelerating gear. Lancet cultivator paws cut and loosen the soil layer in the aisles, which were not worked after passage of the drive rotor. At the same time, mineral fertilizers are fed into the soil through fertilizer guides of cultivator paws. Further, the L-shaped knives of the milling rotor intensively crush the top soil layer to a depth exceeding 2 ... 4 cm the sowing depth of grain seeds. The irregularities of the microrelief are smoothed by the soil surface equalizer. The keel-shaped anchor coulters form seed beds in the zone of local fertilizing, into which seeds are fed through the seed tubes from the seed box. The roller performs post-sowing rolling to ensure better contact of the sown seeds with the soil.

The installation of a restrictive beam, limiting the excessive amplitude of the openers in the longitudinal plane, prevents breakage of the seed tubes and the opener suspension mechanism during opener oscillations during transportation, and also improves the quality of sowing by eliminating the clogging of the opener of the opener when lowering the unit. The implementation of the mechanism of limiting the movement of the coulters in the form of a single device for a group of coulters provides simplicity of design and the ability to quickly adjust the set stroke of the coulters.

The specified range of initial preload of torsion springs of the coulter suspension mechanism by the restrictive beam provides the amplitude of the coulter movement in accordance with the agrotechnical requirements for sowing seeds of crops in the entire spectrum of use of the unit for tillage and sowing.

Thus, the combination of the above essential features provides increased reliability of the design and improved quality of sowing unit for tillage and sowing.

The drawings show diagrams explaining the invention: FIG. 1 - General view of the unit for processing and sowing (side view); FIG. 2 - layout of the working bodies.

The unit for processing and sowing (Fig. 1, 2) contains a frame 1 on which a ripping rotor 2 with driving teeth 3 and a milling rotor 4 with disks 5 are arranged sequentially, on which L-shaped knives 6 are connected on two sides, connected with the ripper the rotor with an acceleration gear 7 and closed with a protective casing 8. Cultivator legs 9 are installed between the ripping and milling rotors. The cultivator legs have fertilizer guides 10, which feed the fertilizers into the soil, connected by fertilizer ducts 11 to the fertilizer box 12. The protective cover 8 is equipped with a leveling device 13 of the soil surface and a fastening beam 14, on which coulters 16 for sowing grain crops, connected by seed tubes, are mounted on trailers of torsion springs 15 17 with a seed box 18. The initial compression of the opener torsion spring, which determines the maximum amplitude of the openers 16 when the load is reduced during operation or during transportation, is regulated by Fitting for a group of general coulter position restrictive timber 19. Further disposed earthing devices 20 and the roller 21 for reconsolidation posleposevnogo equipped machining depth adjustment mechanism 22.

The unit for tillage and sowing works as follows. When translating, the driving teeth 3 mounted on the loosening rotor 2 are forcibly rolled under the influence of the tractor's traction force, and through the accelerating gear 7 the milling rotor 4 is rotated with disks 5 on which L-shaped knives 6 are mounted on both sides. the teeth 3 of the loosening rotor 2 produce loosening of the soil in strips of a width equal to the width of the soil gears of the driving teeth. Cultivating lancet paws 9 cut and loosen the soil layer in the aisles that were untreated after the cultivating rotor passes. At the same time, fertilizers are fed through fertilizer guides 10 of cultivator paws connected by fertilizer ducts 11 to the fertilizer box 12. Next, the L-shaped knives 6 of the milling rotor 4 intensively crush the top soil layer to a depth exceeding 2 ... 4 cm the sowing depth of the seeds of grain crops. Roughnesses of the soil microrelief are smoothed out by the leveling agent 13 of the soil surface. The coulters 16 for sowing grain crops form grooves in the zones of local application of fat tufts, into which seeds are fed through the seed ducts 17 from the seed box 18.

The initial compression of the opener torsion spring, which determines the maximum amplitude of the openers 16 when the load decreases during operation or during transportation, is set by setting the position of the restrictive bar 19 common to the group of openers, fixed in the grooves of the mounting bracket, and its lower fixed position should not provide more than _^half of the torsion spring force necessary for penetration coulter on the minimum insertion depth of seeding on light soils, and the upper fixity position - at least ^1/2 _{of the} force of the torsion spring necessary to deepen the coulter to the maximum installation depth of sowing on heavy soils. Shelter of seeds of cereal crops with soil is carried out by zagrotachi 20. The skating rink 21 performs post-sowing rolling to ensure better contact of the sown seeds with the soil, and together with the supporting surfaces of the cultivating rotor serves to adjust the depth of processing by the device using the mechanism for adjusting the depth of processing 22.

The use of the unit for tillage and sowing in comparison with the prototype will increase the reliability of the design of the unit and improve the quality of sowing seeds.

Claims (1)

A unit for tillage and sowing, comprising a loosening rotor with drive teeth and a milling rotor mounted on a frame, mounted with the possibility of free rotation and interconnected by an accelerating transmission, cultivating paws between them with fertilizer guides connected by fertilizer ducts to the fertilizer box, a protective casing with an equalizer soil surfaces, coulters, each of which is mounted on a torsion spring trailer mounted on a fastening beam, connected by seed tubes to the seed box, Tachi and roller, characterized in that the initial compression torsion spring each coulter determined by the position-limiting rod, which is movable in a transverse vertical plane relative to the number of coulter, with its lower locked position for no more than _^half of the torsion spring force necessary for penetration opener installation on the minimum drilling depth on light soils, and the upper fixed position - at least _^half of the torsion spring force necessary for penetration coulter a maximum mounting depth of seeding on heavy soils.

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