RU190971U1 - Tillage implement for melon crops - Google Patents

Abstract

Tillage tool for melon crops refers to agricultural machinery and can be used in the cultivation of melon crops. The technical result of the utility model is to increase labor productivity while improving the quality of soil preparation for sowing of melons and gourds. To obtain a technical result, the tillage implement contains a frame on which right-side and left-hand loosening inclined working bodies are installed in pairs in a row. The inclined surfaces of the working bodies facing towards each other. On the axis of symmetry of the tool, the flat-cutting paw and furrow former are located, which is located behind the loosening oblique working bodies. Along the symmetry axes of paired inclined working bodies, a rotary working body is assigned to the furrow-forming machines for strip pre-sowing tillage in the sowing zone. 2 Il.

Description

The utility model relates to agricultural engineering, in particular to tillage machines to prepare the soil for sowing of melon crops.

The tillage implement for the main processing and preparation of the soil for sowing of melons and gourds contains a frame, right-side and left-side loosening inclined working bodies, a flat-cutting paw furrower and a rotary working body. The devices are connected to the frame beam. Such a constructive solution allows to reduce energy consumption due to the simultaneous main processing and preparation of the soil for sowing of melon crops.

A device for primary tillage is known, which contains a frame and inclined left-side and right-side working bodies located along an arrow-shaped combination scheme [SU No. 1471961 C1, cl. A01 B 13/08, 1989]

The disadvantages of the described analogue are significant traction resistance, clogging of the working parts of the tool and insufficient crumbling of the soil.

The closest to the proposed utility model for the combination of essential features is a tillage tool, on the frame of which right-side and left-side inclined working bodies are fixed in pairs, successively one after another, forming transverse rows in which right-hand and left-side inclined working bodies are also installed in pairs in such a way that their inclined surfaces are facing towards each other [RU No. 2431953, IPC ⁹ AV 13/08, Byul. №29 from 10/27/2011].

The disadvantage of the known tools is the low quality of work. In addition, this tool does not prepare the soil for sowing of melon crops. When tilling the soil with such a tool, it is necessary to perform additional operations to prepare the soil for sowing of melon crops, such as forming an irrigation furrow and preparing the topsoil in the sowing zone.

Analysis of the known technical solutions has shown that the technical problem in this area is the need to expand the arsenal of technical means used for tillage for sowing of melons and gourds.

The technical result of the utility model is to improve the quality of soil preparation for sowing of melon crops, minimizing the passes of the unit and increasing productivity.

To solve this problem and obtain the claimed technical result in a soil-cultivating implement, loose inclined working bodies are placed in one row in the transverse plane of the implement. On the axis of symmetry of the tool between the left and right pairs of loosening inclined working bodies, at a height equal to the height of their upright, the flat-cutting paw and furrow generator are successively installed. The width _n ploskorezhuschey paws and working width borozdoobrazovatelya In _b is the distance between the left and right pairs of inclined working bodies. A rotary cultivator is installed along the axes of symmetry of paired inclined working bodies behind the furrow generator. Grip width B _{p of} each rotary cultivator is made smaller than the width B _g (V _l ) of each pair of working bodies, for tillage only in the sowing zone.

The installation of a flat-cutting foot and furrowing agent at a height equal to the size of the stand of the inclined working body, ensures that water penetrates the development zone of the root system when irrigating along furrows. When installing a rotary ripper along the axis of symmetry of paired inclined working bodies, the soil is prepared in the sowing zone of melons.

The proposed device is illustrated by drawings.

FIG. 1 shows a diagram of the proposed tillage implement, top view, in FIG. 2, the same, rear view.

The proposed construction consists of a frame 1, on which right-side 2 and left-side 3 loosening inclined working bodies are installed in pairs in one row. The inclined surface 4 of the working bodies 2 and 3 facing towards each other. Chisels 5 are installed at the ends of the working bodies 2 and 3. The cutting paw 6 and the furrowing generator 7, which is located behind the loosening inclined working bodies 2 and 3, are successively installed along the axis of symmetry of the tool.

The device works as follows.

During the execution of the technological process under the influence of the inclined surfaces 4 and the chisel 5 of the oppositely located loosening working bodies 2 and 3, intensive crumbling of the soil occurs in the sown area of melon crops to a depth of a. In this case, the cutting paw 6 produces loosening of the soil between the uprights of adjacent pairs of working bodies 2 and 3 to a depth of a ₁ . The furrower 7 mounted behind it forms an irrigation furrow. Then the rotary cultivator 8 prepares the soil for sowing.

Findings. All this allows to increase labor productivity and improve the quality of soil preparation in the sowing zone of melons, by reducing the aisle of the unit.

Claims (1)

Tillage tool for melon crops, containing a frame on which right-side and left-side loosening inclined working bodies are installed in pairs, while their inclined surfaces face each other, characterized in that the pairs of inclined loosening working bodies are installed in one row, along the axis of symmetry tools between the left and right pairs of loosening inclined working bodies at a height equal to the height of their rack, the flat-cutting paw and furrow former are successively installed, and along the axes of symmetry of the paired ones rotary cultivator is installed behind the furrower.

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