RU193352U1 - Working section of a high-speed cultivator of strip tillage - Google Patents

Abstract

The utility model relates to agricultural engineering, and is aimed at increasing productivity, implementing technology for high-speed strip tillage for row crops. The specified technical result is achieved in that the working section of the high-speed cultivator of strip tillage, which is a functionally built up sequential row of working bodies mounted on the body, an arm for attaching the main cutting disk, the main cutting disk, followed by a row-cleaning organ, cultivating and pressurizing organs, a parallelogram copy unit mounted on the body, a tube for making liquid mineral fertilizers, a watering can for making solid ranulirovannyh fertilizers, with the main cutting disc is wavy, clears the body has mounted to each other at an angle of star wheels. The casing contains a plate and a bracket for attaching the section to the cultivator supporting frame, the ripping organ consists of two working wave-shaped discs symmetrically mounted at an angle to the vertical axis of the section connected to the casing by the brackets, the presser organ consists of two symmetrically arranged wheels equipped with a helical arrangement along their inner side plates for non-aggressive refinement of the top layer of loose soil and the formation of a tubercle, above the pressurizing body on the section casing is installed a hard apron was introduced to prevent the ejection of lumps of soil, and a protective shield was mounted on the bracket over the ripping organ to reflect the turbulent soil flow formed by the first undulating working disk of the cultivator, and an air bag was installed on the support in the upper part of the housing to create additional pressure on the working bodies, a watering can for applying solid granular fertilizers and a tube for supplying liquid mineral fertilizers are placed on the bracket on the outside of one of the loosening discs. 2 ill.

Description

The utility model relates to agricultural machinery, namely, tillage machines and can be used for high-speed strip tillage as part of a strip cultivator.

The high-speed cultivator of strip tillage, which includes the claimed utility model, is a trailed or mounted equipment, designed to prepare the soil for subsequent sowing of row crops, which do not require deep seed cultivation (corn, sunflower, beets, etc.) and serves to protect row spacings from burnout and moisture conservation.

As part of the technology of high-speed strip tillage, the unit can be used both in autumn and in spring. Due to the lack of a cultivating stand in the working section, deep loosening is not provided. Accordingly, there is a moderate drying out of the soil, which is the main feature of strip processing. In the spring, 1-2 hours after treatment, it is recommended to sow. Moreover, sowing can be carried out with conventional (not stubble) seeders in loosened strips. The high-speed cultivator of strip tillage performs full tillage at a speed of 14 to 20 km / h. The soil is actively mixed with wave-like working disks and at the same time there is the possibility of applying several types of fertilizers: granular and liquid mineral. Aggregating one working section requires 10-15 hp of tractor power. A classic example of performing several operations in one pass - saving up to 40% of fuel and lubricants.

The closest device to the claimed utility model is the working section of a tillage machine for strip tillage, containing press-on, cultivating and cutting working bodies forming a built-up row mounted on the housing, a row-cleaning organ, a parallelogram copy unit mounted on the housing, and the cultivating working body represents a cultivator rack with a tube fixed on it for supplying liquid or solid mineral fertilizers (see RF patent No. 147013, IPC AB 49/02, publ. . 27.10. 2014).

The disadvantages of this working section are: the presence of a cultivator strut as part of the working section, which does not allow processing at speeds above 10 km / h, the inability to use on waterlogged soils, and low productivity of tillage.

The technical task is to increase productivity, implement the technology of high-speed strip tillage for row crops.

The technical problem is solved in that the working section of the high-speed cultivator of strip tillage, which is a functionally built-up sequential row of working bodies mounted on the body, an arm for attaching a cutting disk, the main cutting disk, and the organ clearing and rolling bodies located after it, , parallelogram copy unit mounted on the body, a tube for applying liquid mineral fertilizers, a watering can for applying solid granular fertilizers moreover, the main cutting disk is made wavy, the cleaning organ has star-shaped disks mounted to each other at an angle, according to a utility model, the housing contains a plate and a bracket for attaching the section to the carrier frame of the cultivator, the ripping organ is two symmetrically mounted at an angle to the vertical axis of the section wave-shaped working discs connected to the casing by brackets, the presser is two symmetrically arranged wheels equipped with screw-shaped wheels along their inside on the front side with plates for non-aggressive finalization of the top layer of loose soil and the formation of a tubercle, a hard apron is installed on the section body on the packer body to prevent the ejection of soil lumps, and a protective shield is mounted on the bracket on the bracket to reflect the turbulent soil flow formed by the first wave-like working disk, moreover, in the upper part of the housing, a pneumatic pillow is installed on the support to create additional pressure on the working bodies, the section is additionally equipped with a granular mineral fertilizer feed, while a watering can and a liquid mineral fertilizer feed tube are placed on the bracket on the outside of one of the loosening discs.

The technical result of the proposed utility model is: improving the quality of pre-sowing tillage, a significant reduction in time for pre-sowing tillage and fuel economy due to the speed of processing up to 20 km / h, i.e. twice as fast as the prototype, improving the working conditions of the tractor operator due to a significantly smaller number of adjustments to the elements of the working section before starting work, more even distribution of loads on the soil, the possibility of applying to various types of soils, including wetlands, the possibility of targeted fertilizer application , reducing the time to prepare the unit for work.

The device is illustrated by drawings, where in FIG. 1 shows a working section of a high-speed cultivator of strip tillage - side view; in FIG. 2 - working section of a high-speed cultivator of strip tillage with a tube for supplying liquid mineral fertilizers and with a watering can for applying granular fertilizers.

The working section (Fig. 1) is a functionally built sequential series of working bodies installed on the section housing 1, which, through a parallelogram copy unit consisting of the upper lever 2 and the lower lever 3, is attached to the cultivator support frame (not shown) with high-strength bolts 4 using the plate 5 and the bracket 6 securing the section. In front of the working section on the bracket 7 is installed the main wave-shaped cutting disk 8 with a diameter of 440 mm It is designed to cut crop residues and form the first soil cut. The maximum depth of cutting the soil with the disk 8 is 15 cm. Following the main wave-shaped cutting disk 8 on the body 1 of the section there are mounted star-shaped clearing wheels 9 designed for harvesting crop residues from the soil cultivation zone. Wheels 9 are located at an angle of 25 degrees to the vertical axis of the working section and are made of high strength steel. The diameter of the wheels 9 is 380 mm. Next, on the side of the housing 1 of the section, using the bracket 10, the first wave-like working disk 11 is installed, intended for loosening and mixing the soil in the processing strip. The diameter of the disk 11 is 510 mm, the angle of inclination to the vertical axis of the section is 10-30 degrees. The maximum tillage depth of the disk 11 is 15 cm. On the opposite side of the first wave-like working disk 11, a second wave-like working disk 13 is installed on the bracket 12, which also loosens and mixes the soil in the processing strip. The diameter of the disc is 440 mm, the angle of inclination to the vertical axis of the section is 10-30 degrees, the maximum processing depth is 12 cm. At the rear of the wave-like working disks 11 and 13 are mounted additional rolling wheels 14 designed for breaking lumps and rolling loose soil. The press wheels 14 have helical plates 15 located on their inner side for non-aggressive completion of the top layer of loosened soil and the formation of a tubercle 4-5 cm high.A hard apron 16 is installed on top of the press wheels 14 above to prevent the ejection of soil lumps from the treated row. From the side of the first wave-like working disk 11, the activity of which is higher, because its diameter is larger than the diameter of the disk 13, and, therefore, the angular velocity and the flow rate of the loosened soil are higher, a protective shield 17 is installed on the bracket 10, designed to reflect the turbulent soil flow, which is processed by the first wave-like working disk 11. The soil reflected from the shield 17 on the screw-shaped plate 15 of the press wheels 14, which further refine it and form a tubercle. In the upper part of the housing 1 of the section on the support 18 is installed air bag 19, designed to create additional pressure on the working bodies of the section, preventing them from leaving the soil. Depending on the pressure in the air bag 19, it is possible to force the loading of the working section up to 220 kg. The air is pumped into the air bag 19 by any type of pump or on-board compressor of the tractor. The design of the section provides that, together with strip processing, mineral fertilizers in liquid or granular forms can be applied. Fertilizers can be applied: by the tape method from the outside of the first wave-like working disk 11 to a depth of 15 cm; tape method from the outside of the second wave-like working disk 13 to a depth of 12 cm

The tube 20 (Fig. 2) is installed in the area of the wave-like working body 11 and is used for liquid mineral fertilizers. Granular fertilizers are fed through a watering can 21. The tube 20 and watering can 21 are attached to the body of the working section using the bracket 22.

Targeted fertilizer application allows you to provide food for the seed of the cultivated crop at the initial stage of development.

Depending on the location of the first wave-like working disk 11, the working sections are left and right. On one unit, half of the left and half of the right sections are installed - this is necessary for the linear movement of the unit. After this treatment, sowing in the treated strips with a conventional row seeder is possible.

The working section of the high-speed cultivator strip tillage works as follows.

When the tractor moves, the working bodies of the working sections are deepened into the soil to a predetermined depth. The main wave-shaped cutting disk 8 cuts plant debris located on the surface and in the upper soil layer, and performs a soil cut to a predetermined depth. The star-shaped scrubbing wheels 9 discard cut crop residues from the treatment area. The first wave-like working disk 11 of the left working section loosens and mixes the soil to the left of the cut made by the main cutting disk 8, and the second wave-like working disk 13 loosens and mixes the soil to the right of the cut made by the main cutting disk 8. Working wave-shaped disks 11 and 13 of the right working sections, on the contrary, loosen and mix first the right and then the left sides of the soil from the initial cut. The press wheels 14, using the plates 15 located on them, break up the remaining clods of soil and roll them, forming a tubercle 4-5 cm high. At the end of the treatment strip, the working sections are excavated from the soil. The machine-tractor unit is deployed for the next pass. U-turns with recessed working sections are not allowed.

Claims (1)

The working section of the high-speed cultivator of strip tillage, which is a functionally built sequential row of working bodies mounted on the body, an arm for attaching the main cutting disk, the main cutting disk, the organ that cleans the rows, the loosening and rolling organs, the parallelogram copy unit, fixed on the body, a tube for applying liquid mineral fertilizers, a watering can for applying solid granular fertilizers, and the main section the waving disk is made wavy, the clearing body has star-shaped disks mounted to each other at an angle, characterized in that the casing contains a plate and a bracket for attaching the section to the supporting frame of the cultivator, the loosening organ consists of two working wave-shaped disks symmetrically installed at an angle to the vertical axis connected to the casing by brackets, the presser body consists of two symmetrically arranged wheels equipped with helical plates on their inner side for I do non-aggressive refinement of the top layer of loose soil and the formation of a tubercle, a hard apron is installed on the section body on the packer body to prevent the release of soil lumps, and a protective shield is mounted on the bracket to reflect the turbulent soil flow formed by the first undulating working disk of the cultivator, and in an air bag is mounted on the support of the upper part of the support to create additional pressure on the working bodies, while the watering can for making solid granular well and a tube for supplying liquid mineral fertilizers are placed on the bracket on the outside of one of the ripping discs.

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