RU2721711C1 - Method for determination of abrasive characteristics of soil and device for implementation thereof - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: inventions relate to agriculture. Device for determining abrasive characteristics of soil is characterized by that consists of steel rod of rectangular cross-section - base - with fixed on it steel abradable rod of cylindrical shape, interacting with soil, diameter of which is greater than thickness of the core rod, connected to each other by pins in interference. Method for determining abrasive characteristics of soil using a device is characterized in that abrasive soil characteristic is evaluated as a result of determining wear of a steel abrasive rod, which is vertically immersed in soil at a given depth H and forcibly moved translationally at a constant speed V by a predetermined distance L to determine the weight of the abradable rod P before testing and after testing Pand evaluation of weight loss ΔP = P-Pper unit displacement Δ = ΔP/L, which is the average abrasive characteristics of soil throughout the depth of immersion and the entire translation in the soil of the steel abradable rod at given soil moisture content.EFFECT: inventions allow determining abrasive soil characteristics.2 cl, 3 dwg

Description

FIELD OF THE INVENTION

The invention relates to soil science, in particular to a numerical evaluation of the abrasive ability of the soil.

State of the art

A qualitative assessment of the abrasive ability of the soil is known, based on the study of the particle size distribution of the soil by means of its laboratory analysis with the release of the abrasive component in it, for example, sand, in particular, quartz and other mineral formations. See, for example, K.Sh. Kazeev et al. Soil science. Workshop M .: Yurayt, 2019, pp. 40-42 and a book by P. Bakhtin Physico-mechanical and technological properties of soils. M. Knowledge 1971. 64 pp. The disadvantage of this method is the impossibility of a numerical assessment of the effect of the amount of abrasive in the soil on the wear of the working bodies of tillage equipment.

The abrasive ability of the soil is estimated by the degree of wear of the working bodies of tillage equipment when working in soils of one or another composition. See, for example, Bartenev I.M., Pozdnyakov E.V. The deteriorating ability of soils and its effect on the durability of the working bodies of tillage machines. Forestry Journal 3/2013, pp. 114 - 123 .. The wear value of a certain model of equipment itself can be determined in a known manner by weighing it before and after exposure to the abrasive component of the soil. The disadvantage of this method is the difficulty of conducting such an experiment, the variety of technical means of tillage and the impossibility of its numerical generalization.

Disclosure of invention

There is no way to determine the abrasive characteristics of the soil, and there is no standard way to at least somehow evaluate its abrasive ability, in relation to the work of agricultural machinery, therefore there is no classification of soils by the degree of their abrasive effect on the working bodies of tillage equipment. Accordingly, the authors do not know a device for assessing the abrasive ability of the soil.

A lot of research is devoted to the study of this issue. It has been established, for example, that the abrasive ability of the soil is related to the quantity and quality of the abrasive material in it (sands, sandy loam, loam, clay), the speed of movement of a particular working body in the soil, the magnitude of the vertical pressure exerted on the working body and overlying soil and equipment on the surface, with soil moisture, see, for example, electronic resource diplomba.ru> work / 43885 “Factors affecting the wear of the working bodies of tillage machines”.

Meanwhile, it is quite possible to build both a method of obtaining a numerical estimate of the abrasive characteristics of the soil, and devices for its implementation with obtaining a numerical estimate of the abrasive characteristics of the soil.

The main part of the method for assessing the abrasive ability of the soil can be the wear of a steel rod - a standard abrasive rod (abrasion rod), vertically immersed in the soil and translationally moving in it at a certain speed for a certain distance.

To compare the abrasive ability of different soils with each other, this abrasive rod must have uniform geometric parameters. It should be made of the same steel grade. Immerse the abraded rod to the same depth, move it in the soil at the same speed and fix the soil moisture. By the loss of mass of this rod from abrasion when interacting with a particular soil, one can judge the abrasive ability of this soil at a given soil moisture.

That is, a standard should be developed for the abradable rod itself, for the methodology for its testing in the soil and for the numerical evaluation of the result.

We substantiate the main parameters for the abradable rod and the dynamic characteristics of its testing.

1. The material of the abradable rod. The obvious material here is steel, from which all tillage equipment is made. It is advisable to use mild steel with rapid abrasion. Such steel, for example, is Art. 0.

2. The cross section of the abradable rod. Here, the most important factor will be the cross-sectional shape, in which the wear is stabilized as soon as possible as a function of displacement during translational motion. This may be a section with the absence of angular elements, that is, the section is elliptical or round. For technological reasons, we take a circle, that is, the cross section of the abraded rod will be a circle, for example, with a diameter of 30 mm. Since the diameter of the circle does not provide the rigidity of the abradable rod, when it interacts with the soil, an additional supporting structure is required to provide the necessary rigidity of the abrasion rod. Such a structure can be a cantilever rod of constant thickness and variable width (according to the principle of the geometry of the cantilever beam), on which an abrasive rod is fixed.

3. Length - abradable rod. This value is determined by the depth of soil cultivation and can vary both depending on the thickness of the arable layer and on the tasks set. The maximum depth (with chisel plowing) is 370 mm. You can set the length of the rod in accordance with the usual thickness of the arable layer - 250 mm.

4. The speed of movement - abrasion rod in the soil. The speed of movement of tillage equipment depends on the ongoing technological operation and ranges from 3 to 7 km / h (see Fere N.E. et al. Manual for the operation of a machine-tractor park. M. Kolos, 1971, p. 22, 23). Here you can be guided by the principle of minimum: with a minimum speed of movement there will be minimal wear. Thus, it is possible to put the movement speed of the abradable rod at 3 km / h.

5. The distance of movement of the abradable rod in the soil. This distance should make it possible to detect wear of a standard element both instrumentally (change in transverse dimensions) and by weighing (change in mass). On the other hand, one can also focus on the minimum field length of 100 m. Generally speaking, if we attribute the mass loss of the abraded rod to the unit of the distance traveled, then the length of the route does not seem to be a significant factor, but with a large abrasive component in the soil and a large distance of movement of the abraded rod can significantly change the shape of its cross section. Therefore, the minimum field length of 100 m is the minimum distance that can be laid down in the standard.

6. To exclude the influence on the result of pressure on the soil of the equipment, the rod - the abradable element should be fixed on the traction means in front.

It is possible to designate for zero in the scale of abrasive ability of soils, soil with minimal wear of the abradable rod and in comparison with it to evaluate the abrasive properties of any other soil, determining the scale of points. It is important in this case to follow the developed standards, following the proposed claims, which can be formulated for the method in this form:

A method for determining the abrasive characteristics of the soil, which consists in the fact that the abrasive characteristics of the soil are assessed by determining the wear of a standard steel abradable rod immersed vertically in the soil at a given depth N and forcibly moved translationally with a constant speed V at a given distance L with determining the mass of the element to be abraded P before the test and after the test P ₁ and the estimate of the mass loss ΔР = Р-Р ₁ per unit of displacement: А = ΔР / L, which is the average abrasive characteristic of the soil over the entire depth of immersion and the entire translational displacement in the soil of a standard steel abrasion bar at a given moisture content the soil.

The parameters inherent in this method can be assigned taking into account the justifications presented above, but it would be more reasonable when these parameters are determined by the scientific community as a result of experiments, analysis of experiments and discussion of the results both separately for the region and for the country as a whole.

To exclude the influence of the pressure of the traction vehicle (tractor) on the test soil, the standard sample is mounted vertically on the console mounted on the front of the vehicle frame, and one of the device options may be the following:

The device for implementing the above method consists of a steel rod of rectangular cross-section - the base with a standard steel abrasive rod of cylindrical shape temporarily fixed on it, interacting with soil whose diameter is larger than the thickness of the core.

Thus, ceteris paribus, obtaining data on the wear of the steel abrasion bar, you can get the average characteristic of the wear ability of a particular soil. Having such a characteristic of the soil, it is possible to adapt the working bodies of tillage equipment accordingly, which is not yet available.

After testing and obtaining the overall result in the change in mass as a whole, the standard abrasive steel rod can be cut across into parts and by weighing the degree of abrasive effect on each part can be determined to obtain a picture of the change in the abrasive characteristics of the soil in height.

Parallel sampling of the soil and determination of its mineral composition will allow us to build a more reasonable picture of the abrasive characteristics of the soil.

Brief Description of the Drawings

In FIG. 1 shows a general diagram of a device.

In FIG. 2 shows a core rod and a standard element, side view.

In FIG. 3 shows a core rod and a standard sectional element.

The implementation of the invention

The method for determining the abrasive characteristics of the soil is that the abrasive characteristics of the soil are assessed by determining the wear of a standard steel abradable rod immersed vertically in the soil at a given depth H and forcibly moved translationally with a constant speed V at a given distance L with determination of the mass of the rod - a standard element P before the test and after the test P ₁ and the assessment of the mass loss ΔР = Р-Р ₁ per unit of displacement: A = ΔР / L, which is the average abrasive characteristic of the soil over the entire depth of immersion and the entire translational movement in the soil of the steel rod - a standard element, and The soil moisture in this case is determined in a standard way - by taking the soil and two weighings before and after its drying.

A device for implementing the method for determining the abrasive characteristics of the soil consists of a tractor 1 connected to it in front of a horizontal cantilever rod 2 and a hydraulic cylinder 3 mounted on the front hitch of the tractor 1, with the possibility of vertical impact on the cantilever rod 2 and a rectangular steel transverse rigidly connected to it perpendicular sections — base 4 with a standard steel abrasive rod of cylindrical shape 5 fixed on it, the diameter of which is greater than the thickness of the rod — base 4, and a groove 6 is selected along the generatrix of the standard abrasive rod 5 to place the end part of the rod — base 4 in it and connect them together studs 7 in tightness.

The device operates as follows. Using the hydraulic cylinder 3 along the guides (not shown), the standard abradable steel rod 5 is immersed into the soil to a predetermined depth - together with the stiffening rod that provides it and the rod connected to it — the base 4. When the tractor moves at a constant speed, the standard abradable rod moves in the soil . Since the diameter of the standard rod 5 is greater than the thickness of the rod - base 4, when moving in the soil, abrasive wear occurs in the basically standard abrasion rod 5.

Claims (2)

1. A device for determining the abrasive characteristics of the soil, characterized in that it consists of a steel rod of rectangular cross-section - the base - with a steel abrasive rod fixed to it, interacting with soil, the diameter of which is greater than the thickness of the core rod, interconnected by studs in tightness. 2. The method for determining the abrasive characteristics of the soil using the device according to claim 1, characterized in that the abrasive characteristics of the soil is assessed by determining the wear of a steel abradable rod immersed vertically in the soil at a given depth H and forcibly moved translationally with a constant speed V at a given distance L with the determination of the mass of the abradable rod P before the test and after the test P ₁ and the estimate of the mass loss ΔP = R-P ₁ per unit of displacement Δ = ΔP / L, which is the average abrasive characteristic of the soil over the entire depth of immersion and the entire translational movement in the soil of the abrasive steel rod at a given soil moisture.

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