SU1158057A1 - Implement for countererosion tillage of soil - Google Patents

Abstract

1. TREATMENT EQUIPMENT FOR SOIL PROCESSING OF SOIL, containing a frame with support wheels, working bodies for tillage with a lifting and lowering mechanism, which has in the longitudinal-vertical plane of parallel .tJJ fUJ lelogramm hinge mechanisms and a curved frame mechanism. them, characterized in that, in order to completely loosen the soil on the slopes with the simultaneous formation of subsoil bridges, the longitudinal links of the parallelogram hinge mechanisms are hingedly connected frame in the middle of its parts. 2. The gun according to claim 1., distinguished by the fact that 4to parallelogram linkage mechanisms are interconnected parallelly arranged and symmetrically placed (L now relative to their hinge joints with the frame crossbars, on which the working bodies are mounted, -and the crank-connecting rod mechanism dealt with one of the links of the parallelogram mechanism.

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to tools for anti-erosion treatment of the soil. A tool for continuous tillage on slopes, containing a frame with supporting wheels and working bodies, is known. However, the known tool does not provide erosion control. soil ki. A tool for anti-erosion tillage is known, comprising a frame with support wheels, working bodies for tillage with a mechanism for raising and lowering them, which has parallelogram hinge mechanisms located in the longitudinal-vertical plane and a crank-connecting rod mechanism for controlling their raising and lowering 2. However, the known tool when working on slopes cannot produce a continuous loosening of the soil with the simultaneous formation of subsoil bridges. The purpose of the invention is the continuous loosening of the soil on the slopes with simultaneous formation of subsoil bridges. The goal is achieved by the fact that the longitudinal links of the parallelogram hinge mechanisms are pivotally connected to the frame in its middle part. The parallelogram linkage mechanisms are interconnected by parallel and symmetrically placed relative to their hinge joints with the frame crosspieces on which the working bodies are installed, the crank-connecting rod control mechanism is connected to one of the links of the parallelogram mechanism. FIG. 1 shows a kinematic diagram of a tool for anti-erosion tillage; Fig. 2 shows the transverse profile for the furrow after processing. The tool for anti-corrosion treatment of the soil contains the frame 1, the stern wheels 2, the working bodies 3 for tillage with a lifting and lowering mechanism, which has 72 long-distance attachment mechanisms 4 in the longitudinal-vertical plane Parallelogram and 4 lowering them. The longitudinal links 6 of the parallelogram linkage mechanisms 4 in their middle part are connected to the frame 1 by means of hinged connections 7. The hinge mechanisms 4 are interconnected by parallel crossbars 8, which are symmetrically located relative to the hinge connections 7 of the longitudinal links 6 to the frame 1, while the working parts 3 are mounted on the crossbars 8, a crank mechanism 5 is associated with link 9 of one of the parallelogram attachment mechanisms 4. The crank mechanism 5 is driven from the tractor's PTO shaft. Parallelogram linkage mechanisms 4 with crossbars 8 are made in the form of sections 10, symmetrically located relative to each other and the crank-connecting rod control mechanism. A tool for anti-erosion tillage works as follows. During the forward movement of the unit horizontally m of the slope, the torque from the tractor's PTO shaft is transmitted to the crank drive mechanism 5, which oscillates relative to the hinge joints 7 Parallelogram linkage mechanisms 4 with working bodies 3. Due to the hinge connection of the longitudinal links 6 in the middle the parts with frame 1, the working bodies 3, mounted on the crossbars 8, are alternately buried and excavated from the soil, not going out to the surface, along a trajectory similar to a sinusoid. Moreover, the trajectories of movement of the working bodies of the two sections 1O are out of phase. With the translational and oscillatory movements of the working bodies, intra soil bridges 11 are formed on the non-furrows, which, both in the longitudinal and transverse direction, are arranged in a checkerboard pattern along the movement of the unit. At a depth corresponding to the recessed position of the workers

bodies, there is a continuous loosening, and intermittent loosening is obtained at a depth corresponding to the recessed position of the working bodies.

11580574

The proposed tool for anti-erosion tillage forms subsoil bridges, increasing water retention and water absorption by 30%.

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Claims (2)

1. TOOL-FOR ANTI-EROSION SOIL TREATMENT, containing a frame with support wheels, working bodies for soil cultivation with a mechanism for raising and lowering them, which has parallel-mounted parallelograms of the hinge linkage mechanisms and a crank mechanism for controlling their raising and lowering, characterized in that, for the purpose of continuous loosening of the soil on the slopes with the simultaneous formation of subsoil bridges, the longitudinal links of the parallelogram linkage mechanisms are pivotally connected to the frame in the middle th part. 2. The tool according to claim 1., Characterized in that the parallelogram linkage mechanisms are interconnected parallel to each other and arranged symmetrically relative to the hinge joints of the frame with crossbars on which the working bodies are mounted, and the crank control mechanism is connected to one of the links of the parallelogram mechanism. SU „„ 1158057> 1 158057