RU2452159C1 - Combined vertical rotary machine - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: machine comprises a frame with a connecting device. On the frame the drive mechanisms, rotors with vertical rotation axis and working elements on them, and racks with hoes are installed. The racks with hoes are placed in front of the areas of bodies of rotation of the rotors. The working elements mounted on the rotor are made with different lengths and mounted alternately at different distances from its axis. Long working elements are mounted closer to the rotor axis, and their lower ends are placed lower than the hoes. In front of the axes of the rotors, not higher than the lower ends of the long working elements of the rotor, subsoilers are placed with structural widths less than the width of the hoe capture. The amount of width of the hoe capture and the subsoiler is less than the larger diameter of the rotor.

EFFECT: constructive implementation enables to improve the quality of the soil tillage due to formation in its lower part of fine lumpy loosened bands, to reduce energy consumption for deep tillage, and improve the accumulation of moisture in soil and prevent water runoff on slopes.

2 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to tillage machines.

Known tillage mill, in which on the vertical drive axis of the holder mounted knives long and short (AS USSR 1068055, A01B 33/06).

A disadvantage of the known device is the increased energy consumption when milling dense non-loosened soils due to the movement of milling knives, including long ones, in the un loosened lower soil layer.

Known tillage machine containing a frame with a connecting device mounted on the frame of the drive mechanisms, rotors with a vertical axis of rotation and working elements on them, as well as racks with legs located in front of the zones of convergence of the bodies of rotation of the rotors. Rotors with knives are placed on the drive shafts with a vertical axis, and racks with legs placed in a checkerboard pattern are placed in front of and behind the zones of the greatest convergence of the rotors (AS USSR 635906, A01B 33/062 - prototype).

A disadvantage of the known device is that the machine is not suitable for tillage, which provides with minimal energy consumption the creation in its lower layer of loosened strips with small lumps, strips in which root crops can develop well. In the finely crumbly loosened stripes, it is better than in the coarse ones, the moisture of the lower layers comes from monolithic bridges with undisturbed capillary moisture conductivity. With a general small deepening of the rotors, the installation of a number of paws of such a machine to a great depth and stepwise loosening of the paws is not effective enough due to the fact that large blocks remain on dense soil in the loosened stripes of the lower layer, worsening the folding of the treated layer and the development of roots and tubers.

The objective of the invention is to improve the quality of tillage by forming finely loosened bands in its lower layer, reducing energy costs for deep tillage, as well as improving the accumulation of moisture in the soil and preventing water runoff on the slopes.

The stated technical problem is achieved in that in a combined vertical-rotor machine containing a frame with a connecting device, drive mechanisms, rotors with a vertical axis of rotation and working elements, an apron-leveling device and a roller, according to the invention, the working elements mounted on the rotor are made of different lengths and installed alternately at different distances from its axis, while the long working elements are closer to the axis, their lower ends are placed below the legs, in front of the axes of the rotors, not higher than the lower ends of the long working rotor elements arranged scarifiers with structural width less than the width of the paw, and the sum of widths less glubokoryhlitelja paws and larger diameter rotor. In addition, the larger diameter of the rotor is made not exceeding the distance between the axes of the rotors, the working part of the working elements of shorter length is made in the form of knives with internal sharpening, and of greater length - in the form of rods of oval or tear-shaped cross-section with the tip forward in the direction of rotation.

Comparison of the claimed machine with the prototype shows that it is new that the working elements of different lengths mounted on the rotor are installed alternately at different distances from its axis, while the long working elements are closer to the axis, their lower ends are placed below the legs, in addition, before the rotor axes, not higher than the lower ends of the long working elements of the rotor, are equipped with deep rippers with a structural width smaller than the width of the gripping legs, and the sum of the width of the gripping legs and deep ripper is less than the larger diameter of the rotor. In addition, the larger diameter of the rotor is made not exceeding the distance between the axes of the rotors, the working part of the working elements of shorter length is made in the form of knives with internal sharpening, and of greater length - in the form of rods of oval or tear-shaped cross-section with the tip forward in the direction of rotation.

The installation of deep rippers in front of the rotor axes and their placement below the paws provides energy-efficient strip loosening of the lower soil layer in front of the treatment areas with long working rotor elements, which crumble the soil in these bands. Their lower ends are located below the legs and short work items. At the same time, the energy for crumbling the entire lower layer of soil is not expended, and non-loosened strips with undisturbed capillary moisture conductivity are stored in it. During the water-deficient period, they provide moisture to the root layer, and during rainfall on the slopes they prevent subsurface runoff.

For the first time, we proposed a combination of working bodies and placement of deep-loosening working bodies of the machine in front of the rotor axes with working elements of different lengths located at different distances from their axis, shorter for long elements, as well as the ratio of the processing depths of the rotors, paws and deep-rippers, their working width and interval between them and between the axes of the rotors, between them and their diameter is new and meets the criterion of "novelty."

The claimed technical solution meets the criterion of "inventive step", as it is not obvious, is not implemented in vertical rotor machines.

The combined vertical rotary machine meets the criterion of “industrial applicability”, as it can be used to prepare the soil for planting root crops and to perform special methods of soil treatment, including heavy and sloping.

The claimed technical solution is illustrated by drawings.

Figure 1 presents a combined vertical rotary machine is shown, a top view; figure 2 is a side view (without left sidewall); figure 3 is a cross section of the soil layer treated by the machine.

The combined vertical rotor machine contains a frame 1 with jumpers 2 and a connecting device 3. On the frame 1 there are rotor drive mechanisms, a number of subsoilers 4 with stands, a number of paws (lancet) 5 with stands, rotors 6 with a vertical axis of rotation, made in the form of a cross holder 7, on which at different distances from the axis of the rotor 6 the working elements are fixed short 8 (knives) and long 9 (teeth). The working part of the working elements of shorter length is made in the form of knives with internal sharpening, and of a larger length in the form of rods of oval or tear-shaped cross-section with the tip pointed forward in the direction of rotation.

Behind the rotors 6, an equalizer 10 and a support roller 11 with leads 12 and a scraper 13 are mounted. On the frame 1, sidewalls 14 and cheeks 15 are fixed with rear fingers limiting the rise of the roller (processing depth). Its lowering is limited by the lower jumper between the cheeks 15. The lowering of the equalizer 10 is limited by the fingers 16 located on the sidewalls 14.

Subsoilers 4 are placed in front of the axes of the rotors 6, and legs 5 in front of the zones of closest proximity of their bodies of revolution (on the midline between the axes of the rotors). The teeth 9 are placed closer to the axis of the rotor 6. The lower ends of the knives 8 are located not lower than the blades of the lancet paws 5, and the teeth 9 - below the paws 5, but not lower than the deep rippers 4.

The rotor drive mechanisms from the tractor’s power take-off shaft (PTO) contain a cardan drive with a safety device (not shown), a central gearbox 17, chain couplers 18 closed by covers (not shown), intermediate shafts 19 and bevel gears 20 fixed to the jumpers 3. Holders 7 with knives 8 and teeth 9 are fixed on their vertical shafts.

When operating a combined vertical rotary machine, a series of deep-loosening paws 4 lanes to a depth of H _g = 18 ... 25 cm loosens the soil in front of the rotor axes. Due to lateral chipping, the width of the bands loosened by them (along the bottom 12 ... 15 cm) at the depth of the legs 5 is significantly larger than the width of the rippers 4. The arrow-shaped legs 5 loosen the soil to a depth of H _l in the unlocked strips in front of the zones of convergence of the knives 8 rotors 6, including and in those where the absolute speed of the knives and their resistance to movement are maximum (the directions of motion of the rotor knife and the machine coincide).

Vertical rotors 6, driven in rotation from the tractor PTO, with knives 8, recessed by h _to , and teeth 9, recessed by h _∂ , crumble the soil of the upper layer to a depth of H _L. The teeth 9, deepened on h _∂ , in addition, crush soil blocks in strips loosened by deep rippers 4 to a depth of H _g . Longitudinal lintels of monolithic soil contribute to jamming blocks and improving the quality of their crumbling in loosened stripes of the upper and lower layers. At the same time, in the upper N _l and lower H _g layers, a finely crumbly soil structure is created, optimal for the development of root crops. The ridged bottom profile is effective in preventing subsurface runoff, accumulation of moisture in the soil, and moisture supply to the loosened stripes of the lower layer. The energy intensity of processing is reduced due to the rejection of continuous deep milling and loosening.

The abcd strips (Fig. 3) are machined by working elements close to the axis of the rotor, and ABCD - removed from it. The maximum diameter D _{P of the} rotors 6 does not exceed the distance S between their axes and the interval between the deep rippers 4 or paws 5. This arrangement of the rotors 6 allows to reduce their diameter, reduce energy costs for their drive and at the same time improves the crumbling of the soil due to the movement of the knives 8 in the soil ridges formed on the sides of the paw racks 5.

Claims (2)

1. A vertical-rotor machine containing a frame with a connecting device, drive mechanisms mounted on the frame, rotors with a vertical axis of rotation and working elements on them, as well as racks with legs located in front of the zones of convergence of the bodies of rotation of the rotors, characterized in that they are mounted on the rotor working elements are made of different lengths and are installed alternately at different distances from its axis, while the long working elements are closer to the axis, their lower ends are placed below the legs, in front of the rotor axes, not higher than the lower ends of the lengths of the working elements of the rotor, deep-rippers with a structural width less than the width of the grip of the paw are placed, and the sum of the width of the grip of the legs and the deep-ripper is less than the larger diameter of the rotor. 2. The vertical rotor machine according to claim 1, characterized in that the larger diameter of the rotor is made not exceeding the distance between the axes of the rotors, the working part of the working elements of shorter length is made in the form of knives with internal sharpening, and the larger length is in the form of oval or drop-shaped rods cross-section with the tip forward in the direction of rotation.

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