SU1104272A1 - Method of determining degree of blasted rock disintegration in pile - Google Patents

Abstract

A METHOD FOR DETERMINING THE DEGREE OF DECOMPOSITION OF EXPLOSIVE BREEDS IN THE RAZVAL, including the development of an explored area of collapse with simultaneous measurement of the efforts of digging, about tl and p., Kt. Because, in order to increase the accuracy of determining the degree of rarefaction of the rocks, the rock is poured into bulk, the rock loosening coefficient is determined, then the rock is digged from the pile, the time of correlation of random rock digging force is determined. , and the rock loosening coefficient in the studied camber area is determined by the formula rock loosening coefficient in the pile, and, accordingly, the correlation time of the random function of the rock digging force of the inherited rift area and from the pile.

Description

The invention relates to the mining industry, namely to the excavation of exploded rocks in open pit mining. The known method of measuring the average coefficient of loosening of blasted rocks in the collapse according to surveying measurements of the volume of rocks before and after the explosion. The coefficient of loosening of rocks on average over the block in this case is defined as the ratio of the volume of rocks of the block after the explosion (collapse) to the volume of the same rocks before the explosion. D 1 This method allows to determine the coefficient of loosening of the rocks not on the studied area, but on average on the collapse. The closest to the technical essence of the invention is a method for determining the degree of loosening of blasted rocks in the collapse, including the development of the collapse area under study while simultaneously measuring digging forces. The limestone method is characterized by low accuracy, since the measurement results are influenced not only by the degree of rock loosening, but also by their specific weight, humidity, and other parameters. The purpose of the invention is to improve the accuracy of determining the degree of rock loosening. The goal is achieved in that according to the method for determining the degree of loosening of exploded rocks in a camber, including the development of the camber area under investigation while measuring the efforts of the digging unit, pouring the rock into bulk, determining the rock loosening coefficient in the pile, then digging the rock out of the pile, determining the time of the random functions of the rock digging force in the collapse and from the pile is correlated, and the rock loosening coefficient in the camber area under study is determined by the formula - H n-Ya-t: loosening coefficient Rocks in the bulk, respectively, the correlation time of the random function of the efforts of digging the rock in the investigated area of collapse and out of attack. FIG. Figures 1 and 2 show examples of random functions of the energy intensity of digging rocks, respectively, in the area of collapse and in the pile state of FIG. 3 - the correlation functions of the energy intensity of the excavation of rocks, respectively, in the area of collapse and in the pile state. When the excavator digs the rock, for example, such as a mechanical shovel, it records the digging force and insertion of the excavator bucket into the blasted rock or the values of the indicator directly dependent on these forces, such as current in the head and lift motors circuit or power consumption and , with the help of recording devices, such as a recording device or a light beam oscilloscope. In the process of digging rocks in the collapse and from the pile, it is necessary to observe constant digging conditions: the same location of the explored area of the collapse and the beginning of the rock extracted from this area in height and radius of the excavator digging, equal digging parameters (digging depth) and the same position of the controllers when digging rocks in the collapse and from pile. After processing the digging force records and establishing the random functions of rock digging in the studied camber area and from the pile of the rock extracted from this area, the correlation time of the corresponding random functions CG and CL, (characteristics related to the dynamics of the digging) is calculated. An example of the practical implementation of the method. The degree of loosening in the lower part of the collapse (at the bottom of the excavator) of blasted rocks represented by sandstones is determined. For this purpose, in the explored area of the collapse, the rock is excavated by the working body of the excavator and dumping of the recoverable rock into the pile, followed by subsequent digging of the rock from the formed pile with its loading into dump trucks. When digging rocks in the collapse and from the pile, the energy intensity of the digging is recorded according to the load level of the lift and head drives using a self-recording device.

3

pa H-320-1. The nature of the change in the random function of the energy intensity of digging rocks (ten implementations corresponding to ten digging cycles are shown) in the camber area under study and from the pile is shown in FIG. 1 and 2. After statistical processing of random functions of the energy intensity of digging rocks, the correlation functions of these processes were constructed in and out of pile (Figs. 3 and 4). From these dependences, it can be seen that the correlation time of the random function of the energy intensity of digging rocks from the pile fj (shaded area limited by the correlation function and the abscissa axis: with an error according to calculations not exceeding 10%, can be limited by a period T 10 s) exceeds similar digging rocks

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in collapse with. They are f- 18.3-, cl, 31.5.

To determine the coefficient of rock loosening in a pile, one can apply the method according to which the type of rock and the category of its lumpiness K are determined by measuring the particle size distribution, the angle of natural repose of the pile d is determined. by direct measurement. Then, using the dependence К р „(к, об), the coefficient of rock loosening in bulk is determined.

The table presents the values of the angle of repose of the collapse (debris or pile) and the coefficient of loosening for rocks with different Q lumpiness.

In the studied area of the collapse and in the bulk, the particle size distribution of the rock is measured by linear and photoplanimetric methods, which makes it possible to classify the studied rocks to the third category by lumpiness.

This table was developed for sedimentary rocks with a bulk density in a dense body of 2.4–2.8 t / m, i.e. applicable in this case for sandstone rocks. Measurements of the angle of repose of the pile, made with the help of a mountain compass.

It can be attributed to the range of 32-40 degrees. This is the coefficient (}) and the loosening of the rocks in the bulk is assumed to be an average of 1.55. In the process of digging rocks in the studied camber area and from the pile, the following constant digging conditions are observed: the pile is filled at the level and distance from the excavator, equal to the corresponding values of the camber area under investigation, the same digging depth and position of the controllers are visually controlled by marks. Thus, after exi -. $ 1

In the experimental part of the work, records of the energy intensity of the digging of rocks in the area under investigation and from Nawap and the value of the coefficient of loosening of the studied rocks in Naval were obtained.

Determining the values of tf and and the value of the coefficient of rock loosening in bulk, K p 1.55, the coefficient of rock loosening is established, edckbt.

t

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follow camber area, which is equal to 1.32.

The proposed method improves the accuracy of determining the degree of loosening of rocks in the studied area of collapse, which allows controlling the quality of explosive preparation of rocks and excavation and contributes to improving the parameters of drilling and blasting and increase the productivity of excavation equipment.

g s

2 s s

7rC

FIG.

Claims (1)

METHOD FOR DETERMINING THE DEGREE OF EXPLOSION OF EXPLODED ROCKS IN THE RIG, including the development of the investigated area of the collapse with the simultaneous measurement of digging forces, which consists in the fact that, in order to increase the accuracy of determining the degree of loosening of the rocks, the rock is poured into the bulk, the coefficient of rock loosening in the bulk is determined, then the rock is digged from the bulk, the correlation time of the random functions of the digging force of the rock in the collapse and from the bulk is determined, and the coefficient of loosening of the rock in the investigated area of the collapse is determined by formula Kp ^{= <+} ( ^K pH ~ ¹ ) 'where K _pH is the coefficient of loosening of the rock in bulk; <3 ^ and 6 / - respectively, the correlation time of the random function of the efforts of rock digging in the studied area of collapse and from the bulk. Figure 1