SU1521322A1 - Method and apparatus for tilling soil on slopes - Google Patents

Abstract

The invention relates to agricultural machinery, in particular to methods of tillage on slopes and devices for its implementation. The disadvantage of this method is the movement of the soil in both directions from the longitudinal axis of the knife-glitter, which leads to an increase in erosion processes. According to the proposed method, the tillage implement operates horizontally and on slopes, the working bodies are in a horizontal position, as a result of which a stepped profile is formed. At each step, water-retaining rollers 2 are formed. At the junction of two steps, slits 3 are cut. at an acute angle, facing in the direction opposite to the direction of movement of the working body, and located one behind the other. In the process, flat-cutting paws 5 cut and lift the soil, forming a stepped profile. The dumps move the lower soil layers from the edges of the steps to the center where the water retaining rollers are formed. Knives-slits cut the gaps at the junction of the steps, and the gaps are cut last, because knife-slits work after each other. 2 sp.f-ly, 5 ill.

Description

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FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to methods of tillage on slopes.

The purpose of the invention is to increase the soil resistance to erosion processes by reducing its flushing, improving aeration and increasing the moisture reserve.

FIG. 1 shows a slope, a longitudinal section; in fig. 2 - top view of the working body of the tillage device on the slopes; in fig. 3 - the same, side view; in fig. 4 is a kinematic diagram of the proposed device, front view; in fig. 5 - the same, top view.

The method of tillage on slopes is as follows.

In the course of tillage on the slopes, the tillage implement operates horizontally and on slopes, while the working bodies, regardless of the steepness of the slope, are in an upright position. Consequently, a stepped profile of the subsurface horizon is formed with horizontally spaced steps 1. At each step, retaining rollers 2 are formed by moving the lower soil layers from two edges to the center. To improve the absorption of the retained moisture, slits 3 are cut at the junction of two steps at a depth of 10-15 cm from the subsurface surface steps 1.

The thawed waters, moving down the slope, are retained by water retaining rollers and, accumulating in the space between these rollers, are absorbed into the soil through the slits. This reduces soil flushing, increases the stability of the steps and the moisture supply in the lower subsoil horizon, improves aeration and, ultimately, increases the yield of agricultural crops.

The device for implementing this method includes a frame 4, working bodies in the form of a flat-cutting paw 5 with cut-knives b, mounted on it, symmetrically fixed on the wings of the paw 5 relative to its longitudinal axis of the left- and right-turning piles 7 and 8. Blades 7 and 8 are mounted on the wings of the paw 5 at an acute angle facing the direction opposite to the direction of movement of the working body and have the ability to move the lower layers of the cultivated soil towards the longitudinal axis of the paw 5. The knives-slits 6 are symmetrically fixed at the end s paw wings 5 at a distance equal to the width of its gripping so that the nearby knives schelerezy working organs 6 adjacent to each other after working.

The supports 9 of the working bodies are kinematically connected to the frame 4 and to each other in such a way that the working bodies, regardless of the steepness of the slopes, are in an upright position.

The device works as follows.

Prior to the beginning of the technological process, the working bodies are brought to the vertical position and fixed. When processing, the flat-cutting feet 5 are pruned and the soil is raised. And since the working bodies are at different heights, a stepped profile of the subsoil horizon is formed with horizontally spaced steps 1. The legs 5 right and left-turning legs, symmetrically fixed on the wings of the paws 5, move the lower layers of the cultivated soil from the edges of the steps 1 Water retaining rollers 2 are formed in its center, where, due to the fact that the dumps 7 and 8 form an acute angle in the direction opposite to the movement of the working member, the retaining knives 6 fixed to the ends of the paws 5 under its wings cut into slots 3 at the junction of the steps 1, due to their installation at a distance equal to the width of the grip of the paw 5. Due to the fact that nearby slit-cutting knives 6 of adjacent working bodies follow each other, the slits 3 are cut last, i.e. The working tool is cut into slits 3 at the edges of the steps 1, and the shear knives 6 of the next working tool deepen these slits from the subsurface surface of the steps 1.

Claims (2)

Invention Formula . A method of tilling the soil on slopes, including the formation of a stepped profile across the slope with horizontal steps, cutting gaps and forming water retaining rollers, characterized in that, in order to improve the quality of erosion treatment of the soil by reducing soil erosion, improving aeration and increasing moisture, each water retaining roller is formed in the middle of the step, and the slits are cut at the junction of two steps. 2. A device for tillage on slopes containing a frame and working bodies sequentially and abundantly on it, and each subsequent working body is shifted relative to the previous one in the transverse direction, characterized in that, in order to improve the quality of erosion treatment of the soil by reducing flushing soil, improving aeration and increasing the moisture reserve, each working body is made in the form of a flat-cutting paw, at the end of each wing of which a knife-slit is installed, and on the rear edge of each wing of the paw is fixed The heap, the heap surfaces of the heaps face each other and are located at an acute angle to the longitudinal axis of symmetry of the foot, the cutting plane of the knife-scraping is located below the plane of the foot, and the knife-cutting tools of adjacent working bodies follow each other. //// //// //// //// //// //// //// //// //// //// - / - / Fm W / FIG. five