RU2644572C1 - Working tool of tiller - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention refers to agricultural engineering industry, namely to working elements for underwinter surface tillage tools. Working organ of the tillage tool consists of stand (1) with a block with an attachable chisel welded in the bottom part. Along strut (1) holes are drilled, through which a pair of trimming wings (3) is fastened by a pair of bolts (2). One of the holes of the pair of trimming wings (3) is made in the form of polyhedron (4), into which is inserted bushing (5) with an eccentric displacement and also having the shape of a polyhedron. Number of facets of a polyhedron is equal to twice the difference in the required number of fixed settings, reduced by one. Opposite hole of cutting wing is made in the form of vertical slot (6), providing rotation of eccentric for the required angle. For an equal set angle of crushing of legs (3), bushings (5) of polyhedra (4) are set to an equal face.

EFFECT: such a constructive implementation of the working organs of the soil-cultivating tools is aimed at increasing operational and technological and energy indicators.

1 cl, 3 dwg

Description

The invention relates to working bodies for implements of the main (autumn) tillage and can be used in agriculture.

Known working body of the chisel plow, containing a frame with racks mounted on it, each of which has a shoe with a patch bit (Catalog of agricultural equipment. - Volume 1. - M .: Informationgrotech. 1991. - P. 140, R 21.24).

The technical drawback of such plows: with a shallow depth of cultivation, subsoil ridges can reach the surface; the impossibility of regulating the continuous loosening zone without changing the depth; lack of cutting of weed vegetation.

Also known is the working body of the tillage implement, consisting of a stand, with a shoe welded to the bottom with an overhead bit, holes are drilled along the stand, into which bushings are inserted, one of which has an eccentric displacement, through which a pair of bolt cutting wings is attached by a pair of bolts, one of the holes of which are made in the form of a vertical groove, providing an eccentric turn by the required angle. - RF patent No. 2426288 of 11.16.2009

The technical drawback of the tool with these working bodies is the difficulty of turning the inner sleeve with an eccentric displacement of the hole for changing the angle of crumbling of the paws.

The closest device to the declared working body of a tillage implement is a working body, consisting of a stand, with a shoe welded to the bottom with an overhead bit, holes are drilled along the stand through which a pair of bolting wings is fastened with a pair of bolts, and the cutting wings have mounting holes in at the top of which bushings with an eccentric displacement are inserted (RANCHO, having conquered the region, is mastering new agricultural technologies. ”- Field of Activity - 2009 - No. 9).

The technical drawback of the tool with these working bodies is the poor quality of the soil treatment due to the impossibility of more accurate adaptation to specific soil and climatic conditions, since the wings can be installed with only two cutting angles, which limits the functionality of the tool.

Technical task: to provide for the possibility of a fixed and with a wide range of settings for the angle of crumbling of the cutting wings of the working body of the tillage implement for specific operating conditions.

Effect: increase operational-energy and technological indicators.

According to the invention, the working body of the tillage implement, consisting of a stand with a shoe welded in the lower part with an overhead bit, holes are drilled along the stand through which a movable pair of cutting wings can be fastened with a pair of bolts, and the cutting wings have mounting holes, in one of which are inserted sleeves with eccentric displacement, while one of the mounting holes of the cutting wing and the eccentric sleeve are made of a polyhedron, the number of faces of which is equal to twice the difference ebuemogo fixed amount setting reduced by one and the opposite hole of the cutting wings is designed as a vertical groove, which provides a reversal of the eccentric to the desired angle.

For an equal set angle of crumbling of the paws, it is necessary to install the polyhedron bushings on an equal face.

In FIG. 1 shows the fastening of the cutting wings of the working body of a tillage implement with a minimum angle of crumbling (the eccentric is shifted to the left); in FIG. 2 - cutting wings at the maximum angle of crumbling (the eccentric is shifted to the right); in FIG. 3 - step-by-step position of the cutting wings of the working body of the tillage implement.

The working body of the tillage implement contains a rack 1, each of which has a shoe with a patch bit (not shown). Along the strut 1, holes were drilled through which a pair of cutting wings 3 is fastened by a pair of bolts 2. One of the holes of the pair of wings 3 is made in the form of a polyhedron 4, into which a sleeve 5 of the same shape with holes having an eccentric displacement is inserted. The opposite hole of the pair of cutting wings 3 is made in the form of a vertical groove 6, providing a turn of the eccentric to the desired angle. The size of the eccentric is determined by the ability to set the wings to the minimum and maximum angles of crumbling at their opposite turn. For the accepted number of step fixation of the angle of crumbling of the paws, the cut-out of the hole, in the form of a polyhedron and, accordingly, the eccentric sleeve, is made with the number of faces equal to twice the difference in the required number of fixed units, reduced by one.

For an equal set angle of crumbling of the paws, it is necessary to install the polyhedron bushings on an equal face.

The working body of the tillage implement operates as follows . The depth of cultivation of the implement is up to 45 cm. With a shallow depth of chiseling, it is possible that the intrasoil ridges can reach the day surface or form an insufficient continuous loosening zone, which affects the quality indicators of a number of subsequent technological operations (for example, sowing unevenness in depth). In this regard, a pair of wings installed at a given depth provides the required continuous loosening zone, complete cutting of weed vegetation and crop residues. Changing the angle of crumbling of the wings changes the quality of soil cultivation, which depends on its physical condition (humidity, amount of organic matter, the ratio of physical clay and sand, etc.).

A decrease in the angle of crushing leads to a decrease in crumbling of the soil, and an increase in the angle of crushing leads to an increase in the energy consumption of processing. Smooth adjustment of the angle of crumbling allows you to find the optimum between the quality and energy indicators of tillage, taking into account specific soil and climatic conditions.

Therefore, such a constructive implementation of the working bodies of the tillage implement allows you to optimize the required quality indicators for specific soil and climatic conditions at the lowest operational, technological and energy costs.

Claims (2)

1. The working body of the tillage implement, consisting of a stand with a shoe welded at the bottom with an overhead bit, holes are drilled along the stand through which a movable pair of cutting wings is fastened with a pair of bolts, and the cutting wings have fixing holes, in one of which a sleeve with an eccentric is inserted offset, characterized in that one of the mounting holes of the cutting wing and the eccentric sleeve are made of a polyhedron, the number of faces of which is equal to twice the difference of the required coli the number of fixed installations, reduced by one, and the opposite hole of the cutting wing is made in the form of a vertical groove, providing an eccentric turn by the required angle. 2. The working body of the tillage implement according to claim 1, characterized in that for an equal set angle of crumbling of the paws, the sleeves of the polyhedra are mounted on an equal face.

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