RU2477036C1 - Unit for presowing treatment of soil and sowing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to devices for soil tillage and sowing. The unit comprises the following components installed on the frame - a tillage rotor with spade bugs and a milling rotor with discs, on which at two sides there are L-shaped knives installed. The milling rotor is kinematically connected with the tillage rotor by means of an accelerating gear. Cultivator teeth are installed between the tillage and the milling rotors in the middle of the spaces between traces of spade bugs of the tillage rotor. The distance between discs for fixation of spade bugs arranged near cultivator teeth of the first tow exceeds the distance between discs, between which there are cultivator teeth of the second row by the value exceeding or equal to the maximum width of the spade bug blade. The value of boom of the tillage rotor spade bugs beyond the outer diameter of discs for their fixation does not exceed depth of previous main tillage of soil.

EFFECT: unit provides for higher quality of seeds and fertilisers sowing and is characterised by low metal intensity of design.

2 dwg

Description

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

A tillage implement is known that comprises a front ripper drum with drive teeth sequentially located on the frame, a row of cultivating paws, a rear ripper drum in the form of a milling cutter with L-shaped knives, coupled to the front ripper drum by an acceleration gear, a protective casing and a packer roller. The racks of cultivator paws are located in the middle between the tracks between the driving teeth of the front ripping drum [P.A.Savinykh, V.L. Andreev, S.L. Demshin, E.A. Vladimir // Tillage tool. RF patent №2301512, АВВ 21/04, 33/02, publ. 06/27/2007, Bull. eighteen].

The disadvantage of this tool is the impossibility of sowing simultaneously with soil cultivation and the high metal consumption of the structure, because due to the same interdisc distance on the front ripper drum, the first row of cultivator legs (the arrangement of cultivator legs in two rows, staggered to prevent clogging of the spaces between the legs plant residues and soil) is installed beyond the dimensions of the first ripping drum, which affects the length of the implement and, as a consequence, its mass.

The closest technical solution is a device for soil cultivation and sowing, containing located on the frame, mounted with the possibility of free rotation and interconnected by accelerating transmission, the front ripper drum with driving teeth and the rear ripper drum, cultivator legs mounted between the ripper drums, and the cultivator racks the paws are located in the middle between the tracks between the driving teeth of the front ripping drum, the protective casing and the packer rollers. Cultivator legs equipped with fertilizer guides are connected by fertilizer lines to the fertilizer box and feed the fertilizers to the zones located from the racks of cultivator legs at a distance equal to 1/4 of the installation width between the legs. The first, along the way, packer roller is made with flanges with a height of not less than the depth of sowing seeds, which are installed along the trail of sowing the tuks and then behind which there are seed guides connected by the seed ducts to the seed box, shortcuts and the second packer roller [Savinykh PA, Demshin S.L., Vladimirov E.A. // The method of tillage and sowing and a device for its implementation. RF patent No. 2363127, АВВ 79/02, 49/02, publ. 08/10/2009, Bull. 22].

The disadvantages of this device is the high metal consumption of the structure, because due to the same interdisc distance on the front ripper drum, the first row of cultivator legs (the arrangement of cultivator legs in two rows is necessary to prevent clogging of the spaces between the legs with plant residues and soil) is set outside the dimensions of the first ripper drum, which affects the length of the gun and its mass. In addition, for the stable operation of the front ripping drum as a working body for driving fertilizer-sowing machines, on soils of various physical and mechanical properties, it is necessary to equip the implement with support wheels, which also increases the metal consumption of the structure. Otherwise, when the soil parameters change, the depth of immersion of the front ripping drum into the soil changes, which leads to a change in the radius of its rolling and, as a consequence, changes the rotation frequency of the sowing apparatus and the actual seeding rate, i.e. degrades the quality of the crop.

The invention is aimed at solving the following problem: reducing the metal consumption of the design of the unit for pre-sowing tillage and sowing while improving the quality of sowing seeds and fat.

The problem is solved due to the fact that the unit for pre-sowing tillage and sowing, containing located on the frame, mounted with the possibility of free rotation and interconnected by accelerating transmission, a loosening rotor with tillers, made in the form of a pipe with disks welded to it for mounting tillers , and a milling rotor, cultivating paws with fertilizer guides connected by fertilizer ducts to the fertilizer box, installed between them and in the middle between the after-ribs of the loosening rotor rotors; a protective casing with a soil surface equalizer, coulters connected by the seed ducts to the seed box, earthing machines and a roller, according to the invention, the cultivating legs are installed in two rows along the direction of travel, and the distance between the disks for attaching the loosening rotor rotors located next to the cultivating legs of the first row, exceeds the distance between the disks for fastening the tillers, between which there are cultivating legs of the second row, by an amount greater than or equal to the maximum width rotor blades, and the protrusion of the rotors beyond the outer diameter of the disks for their fastening should not exceed the depth of the previous main tillage, while the extreme lateral disks of the cultivating rotor are made on the outer diameter with extensions directed inward to the inter-track of the corresponding cultivating paws of the second row, not less than, than is necessary to maintain the unit in working position during the pre-sowing tillage and sowing minus the total width of the remaining disks for fastening the soil epov.

During operation of the unit for pre-sowing tillage and sowing of the loosening rotor rotary tines, forcibly rolling under the influence of the tractor traction force, the soil is loosened in strips and at the same time, through the accelerating gear, the milling rotor with L-shaped knives mounted on it rotates. 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 increased interdiscal distances of the cultivating rotor, made along the trail of the first row of cultivator legs, allow the cultivator legs to be located at a minimum distance from the shaft of the cultivating rotor, which significantly reduces the length and, as a consequence, the mass of the unit.

The extensions of the extreme lateral disks for fastening the loosening rotor rotary soil, made on the outer diameter of these disks, and the supporting surfaces of the remaining disks do not allow the loosening rotor to fall into the soil and, due to the constant depth of immersion in the soil, provide a stable speed of seed and fertilizer seed and fertilizer boxes, thereby improving the quality of seeding of seeds and tuks, as well as together with a mechanism for adjusting the packer roller, they serve to maintain a given processing depth and soil and sowing.

The magnitude of the departure of the loosers of the cultivating rotor for the outer diameter of the disks for their fastening, which should not exceed the depth of the previous main tillage, determines that the surface of the disks for fastening the cultivators on their outer diameter prevents immersion of the cultivating rotor in the soil, i.e. It is also a supporting surface for the unit in working condition.

Reducing the length of the unit for pre-sowing tillage and sowing significantly reduces the metal consumption of its design, and the use of extreme lateral disks for mounting the couplings and the outer surfaces of the remaining disks for attaching the loosening rotary rotors as supporting surfaces for supporting the aggregate increases the quality of seeding of seeds and fertilizers .

Thus, the combination of the above essential features reduces the metal consumption of the design of the unit for pre-sowing tillage and sowing while improving the quality of its technological operations.

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

The unit for pre-sowing processing and sowing (Fig. 1, 2) contains a frame 1, on which a loosening rotor 2 with tillers 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 loosening the rotor by acceleration gear 7 and closed by a protective casing 8. Cultivator legs 9 are installed between the cultivating and milling rotors, and the racks of cultivating legs are located in the middle between the tracks of the loosening rotor rotors. The distance a between the discs 10 for attaching the tillers located next to the cultivating paws of the first row exceeds the distance b between the discs between which there are cultivating paws of the second row, exceeding or equal to the maximum width of the blade of the tiller. The extreme lateral disks of the cultivating rotor are made on the outer diameter with an extension 11, made inward to the inter-row of the corresponding cultivating paws of the second row, with a width of not less than necessary to maintain the unit in working position when pre-sowing the soil and sowing minus the total width of the remaining disks for fasteners

The cultivator legs have fertilizer guides 12, which feed the fertilizers into the soil, connected by the fertilizer ducts 13 to the fertilizer box 14. The protective cover 8 is equipped with a soil leveling device 15 and a fastening bar 17, on which openers 18 for planting grain crops connected by seed ducts are installed in the zones of local fertilizer application 19 with a seed box 20. Next are the earthenware 21 and the roller 22 for post-sowing rolling, equipped with a mechanism for adjusting the depth of processing 23.

The unit for pre-sowing tillage and sowing works as follows. During the forward movement, the hoists 3 mounted on the loosening rotor 2 are forcibly rolled under the influence of the tractor traction force, and through the accelerating gear 7 the milling rotor 4 is rotated with discs 5 on which L-shaped knives 6 are mounted on both sides. loosening rotor 2 produce loosening the soil in strips of width equal to the width of the blades of the soil. 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, tuks are fed through the fertilizer guides 12 of the cultivator paws connected by the pipelines 13 to the fertilizer box 14 to the zones located from the racks of the cultivator legs 9 at a distance equal to 1/4 of the installation width between the legs. Further, 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 15 of the soil surface. The coulters 18 for sowing grain crops form grooves in the zones of local application of fat tufts, into which seeds are fed through the seed ducts 19 from the seed box 20. Shelter of seeds of grain crops by the soil is carried out by zagrotachi 21. Roller 22 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 23.

Using the unit for pre-sowing tillage and sowing, in comparison with the prototype, will reduce the metal consumption of the unit design and increase the quality of sowing seeds and fertilizers.

Claims (1)

A unit for pre-sowing tillage and sowing, containing located on the frame, mounted with the possibility of free rotation and interconnected by accelerating transmission, a loosening rotor with tillers, made in the form of a pipe with disks welded to it for fastening the tillers, and a milling rotor installed between them and in the middle of the inter-tracks of the loosening rotor rotary tilts cultivating paws with fertilizer guides connected by fertilizer ducts to the fertilizer box, a protective casing with a soil surface leveling, openers connected by the vas deferens with the seed box, earthing and roller, characterized in that the cultivator legs are installed in two rows in the direction of travel, and the distance between the disks for attaching the loosening rotor rotors located next to the cultivator legs of the first row exceeds the distance between the disks for mounting of tillers, between which there are cultivating paws of the second row, by an amount greater than or equal to the maximum width of the blade of the tillers, and the departure of tillers for the outer diameter d claims for their attachment should not exceed the depth of the previous main tillage, while the extreme lateral disks of the cultivating rotor are made on the outer diameter with the extensions directed inward to the inter-row of the corresponding cultivating paws of the second row, the width is not less than necessary to maintain the unit in working position when pre-sowing tillage and sowing minus the total width of the remaining discs for fastening the soil couplings.

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