RU2102844C1 - Flat working tool - Google Patents

Abstract

FIELD: soil tillage equipment. SUBSTANCE: flat working tool has tine with hoe, vibrator and waveguide. Vibrator is arranged in tine, waveguide is disposed in axial alignment with vibrator and its end is mounted centrally of plate between hinges for securing plates to brackets. EFFECT: increased efficiency and improved soil mellowing by vibratory motions of working tool. 2 dwg

Description

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

 Closest to the invention is a tillage implement containing a stand with a paw, a vibrator and a waveguide.

 The disadvantage of this working body is that the implement does not fully and efficiently process the soil, resulting in large blocks, which then complicates the sowing of winter crops.

 In addition, the prototype has a sufficiently large traction resistance.

 The purpose of the invention is to improve the quality of tillage and reduce traction resistance.

 The goal is achieved by the fact that in a known working body comprising a rack with a paw, a vibrator and a waveguide, the paw is made in the form of a plate pivotally connected to the rack by means of a bracket having a fork-like shape, and the vibrator is located in the rack, the waveguide is placed coaxially with the vibrator, and the end of the waveguide is installed in the center of the plate and placed between the hinges of the plate with the brackets.

 A comparative analysis of the present invention with the prototype allows us to conclude that the proposed technical solution differs from the prototype in that the paw is made in the form of a plate and is pivotally connected to the rack by means of a fork-shaped bracket, and the vibrator is located in the rack, the waveguide is placed coaxially with the vibrator, and the end of the waveguide is installed in the center plate and placed between the hinges of fastening the plate with brackets.

 The selected design of a plane-cutting working body provides wave-like vibrations of the body, made in the form of a plate driven into oscillatory movements by a vibrator, for example, a magnetostrictive one, which is located in the hollow part of the rack. The wave-like vibrations of the plate improve the quality of loosening and crumbling of the treated layer under the soil surface.

 On the surface, the stubble is preserved, while the fusion of the treated surface is achieved. Lumps cannot be turned on the day surface, while the soil with the proposed tool can be cultivated both to a depth of 30 - 35 cm, and to 6 - 8 cm, which is especially valuable when sowing winter crops on the stubble of the previous culture. At the same time, traction resistance is reduced due to the effect of reducing the coefficient of friction during vibration. A fork-shaped stand provides the required strength of the connection, and fastening at the nodal points of bending vibrations provides vibration isolation of the traction means. The presence of hinges allows the plate to move more freely in the soil, avoiding obstacles if necessary. In addition, the design of this working body allows you to treat soils contaminated with heavy metals and radionuclides since they are located in the soil at a depth of 0 - 10 or 0 - 15 cm, and the proposed working body loosens the soil without violating its genetic horizons, which does not allow to infect toxic metals the entire root layer, localizing them.

 Thus, the present invention meets the criterion of "novelty."

 An analysis of the known technical solutions allows us to conclude that they lack features similar to the distinguishing features of the proposed technical solution and recognize it as meeting the criterion of "significant differences".

 In FIG. 1 shows a plane-cutting working body, front view; in FIG. 2 - the same, top view.

 The working body consists of a hollow fork-shaped rack 1, brackets 2, which provide a fork-like shape and on which the plate 6 is mounted, the waveguide 4, coming from the vibrator 3 located in the hollow (upper) part of the rack, of the hinged fasteners located at the nodal points of the bending vibrations 5, plane-cutting plates (cases) 6.

 Plane cutting working body operates as follows.

 After the vibrator 3 is turned on, longitudinal waves appear in the waveguide 4, which cause bending vibrations of the plate 6, which oscillates on the hinges 5. In such an excited state, the working body penetrates the soil. The wave-like vibrations of the plates improve the quality of the soil being cultivated, its layer that is below the surface of the soil, and stubble is preserved on the surface itself. This improves the quality of loosening of the soil, does not form large lumps of soil, turned to the surface, which allows you to easily sow winter crops on stubble. The depth of the treated layer can vary from 6 - 8 cm to 30 - 35 cm, which allows both primary and pre-sowing tillage. At the same time, traction resistance is reduced by reducing the friction coefficient during vibration. In addition, the design of this working body allows you to treat the soil contaminated with toxic metals (heavy metals and radionuclides), since they accumulate in a layer of 0 - 10 or 0 - 15 cm, since the proposed working body loosens the soil without violating its genetic horizons.

 The design of the working body allows the soil to be cultivated for all crops, both primary and pre-sowing, while stubble is preserved. In addition, the working body can work both back and forth.

 In addition, as one front side wears out, the working tool can be turned by the other side, and it can also be used for inter-row cultivation of row crops, if the working tool is deployed in a narrow part along the direction of travel. At the same time, the quality of the soil cultivation is improved, dispersion of toxic metal metals in the soil is not allowed, weeds are destroyed, an erosion control surface is created during stubble cultivation, the soil is prepared for sowing, and traction resistance is reduced.

Claims (1)

 A plane-cutting working body, including a stand with a paw, a vibrator and a waveguide, characterized in that, in order to improve the quality of soil cultivation and reduce traction resistance, the paw is made in the form of a plate and is pivotally connected to the stand by a fork-shaped bracket, and the vibrator is located in the rack, the waveguide placed coaxially with the vibrator, the end of the waveguide installed in the center of the plate and placed between the hinges of the plate with the brackets.

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