RU2618327C1 - Cultivator-subsoiler - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: cultivator-subsoiler comprises the drawbar with the hydraulic cylinder, pivotally connected with the sectional frame. The support wheels with depth adjustment mechanisms, the transport wheels, the racks, the duck-foot shovel, the tillers and the toothed spring harrows arranged with the possibility of adjustment by height are mounted on the frame. The tiller 6 is formed as a saber rack with a convexity toward the unit movenet direction with the sharpening angle 8…10°. At the end of the tiller, the bit is removably fixed with the incidence angle of 12…15°. The ratio of the tiller thickness to the bit width and the tiller width is determined with the condition of 1:2:5.

EFFECT: improving the soil tillage quality, reducing the load on the tiller surface, and fuel economy.

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Description

The invention relates to the field of agricultural engineering, in particular to tools intended for basic subsurface tillage.

Known combined soil cultivator containing a frame and chisel paws fixed on it and loosening working bodies located in one horizontal cutting plane (Copyright certificate SU No. 1690558, IPC A01B 49/02, 1991).

A disadvantage of the known design is poor-quality tillage: uneven structure and increased lumpiness, since the working bodies cut and deform the soil layer of large thickness.

The closest technical solution to the proposed device is a cultivator-ripper containing a grommet pivotally connected to a frame on which support wheels with depth adjustment mechanisms are installed, transport wheels, lancet legs, cultivators and tooth spring harrows arranged with height adjustment. The ripper in the form of a rack is mounted on the frame with the possibility of displacement, the lancet paw is mounted on the ripper with the possibility of dismantling, while the ripper is made of an arcuate shape with a pointed edge (RF Patent No. 161415, IPC АВВ 49/02, 2016).

A disadvantage of the known design is the increased fuel consumption due to the fact that the cultivator, concave in the opposite direction of the movement of the unit, increases the load on its central part, where the surface is most bent, as well as poor tillage.

An object of the invention is to improve the quality of soil treatment, reducing the load on the surface of the cultivator and saving fuel.

The stated technical problem is achieved by the fact that the cultivator-ripper, which includes a box with a hydraulic cylinder, is pivotally connected to sectional frames, on which support wheels with depth adjustment mechanisms are installed, transport wheels, racks, pointed arms, rippers, and located with the possibility of height adjustment tooth spring harrows, according to the invention, the cultivator is made in the form of a saber-shaped rack with a bulge in the direction of movement of the unit with a pointed edge and a sharpening angle of 8 ... 10 °, on the ripper is fixed with the possibility of dismantling the bit with an angle of attack of 12 ... 15 °, the ratio of the thickness of the ripper to the width of the bit and the width of the ripper is determined by the condition 1: 2: 5.

The invention is illustrated by drawings.

In FIG. 1 shows a cultivator-ripper, top view; in FIG. 2 - the same side view; in FIG. 3 - the same, rear view in a transport position; in FIG. 4 - saber-shaped deep-ripper with a chisel at the end.

The cultivator-ripper contains a snatch 1 with a hydraulic cylinder 2, sectional frames 3 and 4, a support wheel 5, a cultivator 6 in the form of a rack with a chisel 7 at the end, lancet paws 8 mounted on the cultivator 6 in two rows, a transport wheel 9, tooth spring harrows 10, a hydraulic cylinder 11 for adjusting the depth of tillage and a hydraulic cylinder 12 for turning the transport wheels, a rear frame 13, a hydraulic cylinder 14 for raising the side section.

The cultivator 6 is made in the form of a saber-shaped rack with a bulge in the direction of movement of the unit with a sharpening angle of 8 ... 10 °.

At the end of the ripper 6, a bit 7 with an angle of attack of 12 ... 15 ° is fixed with the possibility of dismantling, the ratio of the thickness of the ripper 6 to the width of the bit 7 and the width of the ripper 6 is determined by the condition 1: 2: 5.

The grinding angle is experimentally set at 8 ... 10 °. If the angle is less than 8 °, then the working edge of the cultivator will wear out intensively, and if more than 10 °, then the load on it will increase. The angle of attack of bit 7 was set similarly. The ratio of 1: 2: 5 was established for the following reason: the thickness of the bit 7 is twice that of the ripper 6, which increases the possibility of moisture accumulation in the lowest soil cultivation zone, which is so necessary for the root system of the plant. And the ratio of the thickness of the ripper 6 to its width was established for reasons of stability of the ripper 6 during operation and taking into account the economy of metal and fuel.

The cultivator-ripper operates as follows.

When the cultivator-ripper moves, lancet paws 8 of the first row cut weeds and crumble the topsoil. Rippers 6 with a chisel 7 at the end, destroy the compacted lower soil layers. Lancet paws 8 and rippers 6 of the second row level the ridges formed in the spaces between the paws 8 of the first row and completely cut the weeds with simultaneous loosening of the soil. Following the lancet paws 8, the spring-loaded tooth harrows 10 produce additional crushing of the soil, distribute the straw on the surface of the field and form a moisture-saving layer. At the end of the rut, the hydraulic cylinder 12 extends with the help of a hydraulic system and rotates the crankshaft axis of the transport wheels 9, and the hydraulic cylinder 2 lowers and fixes the gnome 1, the cultivator deepens, and after a turn it lowers again to its original position, and the process continues.

Changing the depth of processing is carried out by reinstalling the support 5 and transport wheels 9 using depth adjustment mechanisms.

When transporting the cultivator-ripper along the roads to reduce its width using the hydraulic system, the sectional frames 4 are lifted by hydraulic cylinders 14.

The presented arrangement of working bodies: lancet paws 8 with rippers 6 with a chisel 7 at the end and tooth spring harrows 10 - allows you to use the cultivator for the main autumn tillage after harvesting.

For the spring pre-sowing preparation of the soil and treatment of vapors during the summer, a cultivator is used with the chisels 7 removed with the offset of the stand 6 on the frame to the desired cultivation depth with the installation of paws 8 with overlap. Perform a continuous surface treatment, and height-adjustable tooth spring harrows 10 are configured to comb out the weeds. The offset of the tooth spring harrows 10 on the rear frame 13 relative to the harrows located on the side sections, allows the harrows to overlap and, thereby, to prevent the formation of ridges at the junction of the sections.

The installation of rippers 6 in the form of racks together with lancet paws 8 allows for continuous surface treatment, completely cutting weeds, loosening the lower horizon, leveling the surface of the treated field and improving the water and air conditions of the soil.

The saber-shaped form of the ripper 6 with a bulge in the direction of movement of the unit reduces the load on it, since the load is redistributed over its entire surface and, accordingly, fuel costs are reduced.

The sharp edge of the cultivator 6 with a sharpening angle of 8 ... 10 ° divides the soil layers in depth.

The ratio of the thickness of the cultivator 5 to the width of the chisel 6 and the cultivator 5 - 1: 2: 5 allows qualitatively loosening the soil at the maximum depth of the plow.

The possibility of a multi-position installation with a step of 5 cm lancet paws allows you to adjust the depth of cultivation of the upper soil layer from 5 to 15 cm with cutting and grinding of soil and plant residues while conducting deep loosening.

The proposed design is more maneuverable, the tractor engine is less loaded and fuel consumption is reduced.

The application of the proposed design of the cultivator-ripper provides an increase in the quality of soil cultivation, reducing the load on the surface of the cultivator and saving fuel.

Claims (1)

A cultivator-deep-ripper, which includes a grip with a hydraulic cylinder, pivotally connected to sectional frames, on which support wheels with depth adjustment mechanisms are installed, transport wheels, racks, pointed arms, cultivators and tooth spring harrows arranged with height adjustment, characterized in that the cultivator made in the form of a saber-shaped rack with a bulge in the direction of movement of the unit with a pointed edge and a sharpening angle of 8 ... 10 °, a bit with angle of attack 12 ... 15 °, the ratio of the thickness of the ripper to the width of the bit and the width of the ripper is determined by the condition 1: 2: 5.

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