RU219700U1 - TILLING TOOL - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to tools for surface tillage. The technical result of the utility model is to improve the quality of work. The technical result is achieved due to the fact that in front of the vibratory harrow there is a number of universal lancet shares, the racks of which are attached by brackets with the possibility of adjusting the height of the installation to an additional transverse beam of the frame. A soil-cultivating tool, including a frame on which a hydraulic motor is fixed, driving the shafts of the vibratory harrow with sprockets of the same size mounted on them, an endless chain-slat web dressed on sprockets, to the links of the chains of which a number of evenly distributed bars with a tooth on each is attached, a chain tensioning mechanism , the teeth of one branch of the chain-slat blade are made of spring steel, and the hard teeth of the opposite branch are made of steel 45 with conical sharpening, the teeth are located perpendicular to the plane of the slats, in one line perpendicular to the longitudinal axis of the frame, the drive of the chain-slat blade is carried out from the mechanism of the swash plate mechanism driven by a hydraulic motor, the crank of the output shaft of the swash plate mechanism is pivotally attached to the bar of the upper branch of the chain-slat web, the stroke of the end of the crank of the swash plate mechanism from one extreme position to the other is equal to half the distance between the bars of the chain-slat web, and in front of the vibratory harrow there are a number of universal lancet paws, the racks of which are attached by brackets to an additional transverse beam of the frame with the possibility of adjusting the height of the installation.

Description

The utility model relates to agricultural engineering, in particular to implements for surface tillage.

Known tillage tool for sloping land [Author's certificate RU No. 2715621, IPC class. А01В 25/00, А01В 33/02, А01В 13/16, 2020], which includes a frame on which a hydraulic motor is mounted, driving the drive and driven shafts with drive and driven sprockets of the same size installed on them equidistant relative to each other by means of an endless chain - a slatted blade, to the links of the chains of which the straps with pairs of teeth are fixed, located diagonally relative to the course of the tool, the chain tensioning mechanism with sprockets.

The disadvantage of this tillage tool is high energy consumption, insufficient technical reliability when working on soils littered with stones, lack of versatility and insufficient quality of weed control.

The scheme of the pairwise arrangement of the teeth on the bars, placed in the prototype in three rows, does not provide the same distance between the traces of all adjacent teeth. The median lines of the traces of two teeth on each bar coincide, and the trajectories of their absolute movement are shifted in phase and intersect periodically. Such a pattern of tooth marks in the soil leads to unnecessary energy consumption.

The multi-row layout of the teeth creates the likelihood of clogging the tooth field with stones, plant and crop residues, increases the likelihood of deformation of the teeth and the chains falling off the sprockets.

The closest analogue to the claimed is a vibratory harrow [Author's certificate RU No. 212681, IPC class. А01В 19/06, 2022], which includes a frame on which a hydraulic motor is mounted, driving the shafts of the vibratory harrow with sprockets of the same size installed on them, an endless chain-slat web dressed on the sprockets, to the chain links of which a number of evenly distributed bars with a tooth on each, the chain tension mechanism, the teeth of one branch of the chain-slat web are made of spring steel, and the hard teeth of the opposite branch are made of steel 45 with conical sharpening, the teeth are located perpendicular to the plane of the slats, in one line perpendicular to the longitudinal axis of the frame, the drive is chain- of the slatted web is carried out from the swash plate mechanism driven by a hydraulic motor, the crank of the output shaft of the swash plate mechanism is pivotally attached to the bar of the upper branch of the chain-slat web, the stroke of the end of the crank of the swash plate mechanism from one extreme position to the other is equal to half the distance between the slats of the chain-slat canvases.

The main disadvantages of this design are the lack of working bodies for cutting the roots of weeds, especially when caring for fallows in fields with weeds, and low weight, which does not allow deepening of the working bodies to a given depth on cohesive soils of low moisture.

The technical result of the utility model is to improve the quality of work.

The technical result is achieved due to the fact that in front of the vibratory harrow there is a number of universal lancet shares, the racks of which are attached by brackets to an additional transverse beam of the frame with the possibility of adjusting the installation height.

The specified set of essential features ensures the appearance of the inventive tillage tool of new properties that are different from the prototype.

Thus, the claimed features of the utility model meet the criterion of "novelty".

In FIG. 1 shows a diagram of a tillage tool, top view, in Fig. 2 - the same, side view.

A soil-cultivating tool, including a frame 1, on which a hydraulic motor 7 is fixed, driving the shafts 3, 11 of the vibratory harrow with sprockets 4, 12 of the same size mounted on them, an endless chain-slat web dressed on the sprockets, to the links of the chains 5 of which a number of evenly distributed slats 6 with a tooth on each, chain tension mechanism 13, teeth 2 of one branch of the chain-slat web are made of spring steel, and hard teeth 16 of the opposite branch are made of steel 45 with conical sharpening, the teeth are located perpendicular to the plane of the slats 6, in one line, perpendicular to the longitudinal axis of the frame, the drive of the chain-slat web is carried out from the swash plate mechanism 8, driven by the hydraulic motor 7, the crank 9 of the output shaft of the swash plate mechanism 8 is pivotally attached to the bar of the upper branch of the chain-slat web, the stroke of the end of the crank 9 of the swash plate mechanism from one extreme position to another is equal to half the distance between the slats 6 of the chain-slat web, and in front of the vibratory harrow there is a number of universal lancet paws 10, the racks 17 of which are attached by brackets 18 to an additional transverse beam 15 of the frame with the possibility of adjusting the installation height.

The work of the tillage tool is carried out as follows.

Before work, the crank hinge 9 of the swash plate mechanism 8 is disconnected from the strap 6 of the chain-slat web. The chain-slat web is scrolled to such a position that on the lower branch, in the working position, there are teeth of the same type. For example, to loosen blocky soil, hard teeth 16 should be located below, and to destroy the soil crust, harrow seedlings of cereals, perennial grasses in spring or when working on soils clogged with stones, a chain-slatted blade with shafts 3, 11 is rotated in bearings and set down with teeth 2 spring steel. Then, the crank hinge 9 of the swash plate mechanism 8 is reattached to the plank 6 of the chain-slat web that is aligned with it and the chains 5 of the web are tensioned by the tension mechanism 13. After that, the bolts of the brackets 18 for fastening the racks 17 of the universal lancet paws to the beam 15 of the frame are loosened, the required position of the lancet paws is set 10 in height and tighten the bolts.

When moving, the lancet paws 10 loosen the soil to a predetermined depth and cut the roots of weeds.

At the same time, the hydraulic motor 7 rotates the input shaft of the swash plate mechanism 8. The end of the crank 9 of the output shaft of the swash plate mechanism 8 performs reciprocating movements, entraining the chain-slatted blade with teeth attached to it in the same movement. The teeth of the lower branch of the chain-slatted web are simultaneously involved in relative transverse and portable translational movements, loosen the soil and comb out the weed roots cut by universal lancet paws. The absolute trajectory of the movement of the teeth in the soil 14 will have the form of sinusoids located at the same distance a from each other. In this case, the magnitude of the force of traction resistance of the soil to each tooth will be less than its absolute resistance, Fig. 1, which reduces the traction resistance of the unit. The distance between the traces of adjacent teeth in the soil will be the same.

As a result of the passage of the tillage tool, a qualitatively loosened layer of soil of a finely cloddy structure is formed, which contributes to the preservation of moisture, the roots of weeds are cut and combed out to the surface.

Thus, the claimed technical result is achieved.

Information sources:

1. Copyright certificate RU No. 2715621, IPC class. A01B 25/00, A01B 33/02, A01B 13/16, 2020.

2. Author's certificate RU No. 212681, IPC class. A01B 19/06, 2022.

Claims (1)

A soil-cultivating tool, including a frame on which a hydraulic motor is fixed, driving the shafts of the vibratory harrow with sprockets of the same size mounted on them, an endless chain-slat web dressed on sprockets, to the chain links of which a number of evenly distributed bars with a tooth on each is attached, a chain tensioning mechanism , the teeth of one branch of the chain-slat blade are made of spring steel, and the hard teeth of the opposite branch are made of steel 45 with conical sharpening, the teeth are located perpendicular to the plane of the slats in one line perpendicular to the longitudinal axis of the frame, the drive of the chain-slat blade is carried out from the rocking mechanism washer driven by a hydraulic motor, the crank of the output shaft of the swash plate mechanism is pivotally attached to the bar of the upper branch of the chain-slat web, the stroke of the end of the crank of the swash plate mechanism from one extreme position to another is equal to half the distance between the bars of the chain-slat web, characterized in that in front of the vibratory harrow there is a row of universal lancet shares, the racks of which are attached by brackets to an additional transverse beam of the frame with the possibility of adjusting the height of the installation.