RU186892U1 - Tillage machine - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to tillage working bodies. The device comprises a frame with flat-cut legs, support wheels with screw mechanisms, a hitch on the frame and a flexible-impact harrow connected to the frame, while on the subframe of the flexible-impact harrow with support wheels with screw mechanisms, bolted to the frame, by means of hinged reducers are installed right and left gear-ring shock chains, which are located at an installation angle α to the direction of movement of the right and left wings of the legs mounted on the thrust bearings of the racks mounted on the frame, with a round plates and knife fixing ability to change the angle in the longitudinal-vertical plane, by a screw adjustment mechanism. The technical result is that the device provides an increase in the degree of crumbling of the soil according to the stubble background during cultivation, maintaining the structure of the surface layer during wind erosion and moisture in the soil, due to the destruction of soil capillaries, as well as reducing traction resistance. 1 ill.

Description

The utility model relates to agricultural engineering, in particular to tillage working bodies.

Known tillage unit containing mounted on the frame flat-cutting legs with plowshares and cultivating elements, behind which is mounted an ice rink attached to the frame, having teeth (SU, copyright certificate, 1521319 A1, 11/15/89, A01B 49/02).

A disadvantage of the known unit is poor-quality tillage and its crumbling due to insufficient copying of the surface of the treated soil with a gear roller.

A tillage working body is also known, comprising flat-cutting legs mounted on a frame with plowshares with ripping elements, behind which disks with teeth having cutting edges are installed (SU, 1782368 A1, A01B 49/02, 23.12.92).

The main disadvantage of the known working body is the excessive grinding and abrasion of soil and crop residues between cultivating elements and gear discs, which leads to the destruction of soil structural aggregates and the occurrence of wind erosion on wind-driven slopes.

The closest device of the same purpose to the claimed object in terms of features is the Stepnyak cultivator consisting of a frame, a tow hitch, a harrow-roller working bodies, a hydraulic cylinder, pneumatic support wheels, a lifting pipe, a device for translating the harrow and roller into transport position (Ministry of Agriculture of the Russian Federation, Department of Technical Policy, Siberian State Zone Machine Testing Station. Test report No. 12-33-02 (1020092) Cultivator Stepnyak about t November 27, 2002).

The reasons that impede the achievement of the required technical result when using the known device adopted as the closest analogue include the fact that its flat-cutting legs do not provide the required degree of crumbling of the soil layer, cut by knives, due to the absence of crumbling elements, and also have a high resistance to soil cutting rectilinear blades of knives with a seal on the bottom of the furrow due to the sealing action of straight knives on the bottom of the furrow. At the same time, during the operation of the working bodies of the harrow and roller on re-compacted soils, the mass of chain links for introduction into the soil will be insufficient. As a result of this, it is dragged along the surface with simultaneous wear of the loosening teeth. The chain loop lacks the elastic properties of the chain links, as a result of which clumps of soil and plant residues adhere to the chain loop, which, in turn, does not allow the harrow-roller to reduce the energy consumption of loosening the soil and self-clean, and this is a significant drawback of this device. When changing the working width, as well as when replacing worn chain links with new ones, the problem arises of removing them from the chain loop during the repair process.

The problem to be solved by the claimed utility model:

- improving the quality of surface subsurface pre-sowing tillage subject to wind erosion while maintaining stubble, increasing the effectiveness of weed control,

The technical result is an increase in the degree of crumbling of the soil according to the stubble background during cultivation, maintaining the structure of the surface layer during wind erosion and moisture in the soil, due to the destruction of soil capillaries, as well as reducing traction resistance.

The essence of the utility model is as follows.

The specified technical result in the implementation of the utility model is achieved by the fact that the tillage unit comprising a frame with flat-cut legs, support wheels with screw mechanisms, a hitch on the frame and a flexible-impact harrow connected to the frame, while on the subframe a flexible-impact harrow with support wheels with screw mechanisms mounted on the frame by bolted joints, by means of articulated reducers, right and left gear-ring shock chains are installed, which are located at an installation angle α to the direction the movement of the right and left wings of the legs mounted on the thrust bearings of the racks mounted on the frame, with round overlays on the knives and the possibility of changing the angle of fixation in the longitudinal-vertical plane, by means of a screw adjusting mechanism. The installation angle α is from 37 to 40 degrees to the direction of movement of the right and left wings of the legs mounted on the thrust bearings of the racks mounted on the frame, with round overlays on the knives and the ability to change the angle of fixation in the longitudinally vertical plane, by means of a screw adjustment mechanism. This provides minimal resistance to loosening the soil, as well as a uniform redistribution of pressure after the stubble layer of soil has left the right and left wings of the legs with round overlays on the knives over their entire working width for subsequent loosening by the harrow shock chains.

The device provides uniform pressure redistribution after the stubble layer of soil has left the right and left wings of the legs with round overlays on the knives over their entire working width for its subsequent loosening by the harrow shock chains.

The utility model is illustrated in the drawing.

In FIG. 1 shows a tillage implement, top view.

The tillage unit contains (Fig. 1) a frame 1 with flat-cut legs 2, support wheels 3 with screw mechanisms, a hitch 4 on the frame and a flexible-impact harrow 5 connected to the frame 1. On the subframe 6 (Fig. 1), a flexible-impact harrow 5 with support wheels 7 with screw mechanisms fixed to the frame 1 by bolted joints 8, the right 10 and left 11 gear-ring shock chains are installed by means of articulated reducers 9, which are located at an installation angle α to the direction of movement of the right 12 and left 13 wings of the legs installed on the spot kach racks 14, mounted on the frame 1, with round plates 15 (Fig. 1) on the knives 16 and the ability to change the angle of fixation in the longitudinal vertical plane, by means of a screw adjusting mechanism 17 (Fig. 1).

Tillage unit operates as follows. Before starting work, the tillage unit by means of screw mechanisms of the support wheels 3 is installed at the required depth of processing of the right 12 and left 13 wings of the legs mounted on the thrust bearings of the uprights 14, mounted on the frame 1, with round overlays 15 on the knives 16. At the same time, at the required depth of harrowing by supporting wheels 7 with helical mechanisms is installed flexible-impact harrow 5.

When the cultivating unit is operating, the right 12 and left 13 paw wings mounted on the thrust bearings of the racks 14, mounted on the frame 1, with round pads 15 on the knives 16 cut the stubble layer of soil that comes off the paws at an angle α and then loosens at the same angle with the right 10 and the left 11 toothed-ring shock chains, which ensures uniform pressure redistribution after the stubble layer of soil has left the right 12 and left 130 wings of the paws with round pads 15 on the knives 16 over their entire working width with its subsequent loosening molecular weight chains 10 and 11 flex-shock harrows 5. The entire stubble soil layer retains structural integrity and is not subjected to wind erosion. Reliability of maintaining the required tension of the shock chains 10 and 11 provides a screw adjusting mechanism 17 located on the subframe 6. The quality of loosening in depth while maintaining the horizontal position of the shock chains 10 and 11 is provided by the support wheels 7 with screw mechanisms.

The use of the proposed soil cultivating unit will increase the efficiency of weed control and the degree of crumbling during tillage according to the stubble background, preserve the structure of the surface layer during wind erosion, and moisture in the soil due to the destruction of soil capillaries, and also reduce traction resistance.

Claims (1)

A tillage unit comprising a frame with flat-cut legs, support wheels with screw mechanisms, a hitch on the frame and a flexible-impact harrow connected to the frame, characterized in that on the subframe of a flexible-impact harrow with support wheels with screw mechanisms, bolted to the frame, by means of hinged reducers, right and left gear-ring shock chains are installed, which are located at an installation angle α to the direction of movement of the right and left wings of the legs mounted on the thrust bearings to, mounted on the frame, with round overlays on the knives and the ability to change the angle of fixation in the longitudinally vertical plane, by means of a screw adjusting mechanism.

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