RU2275586C1 - Method for determination of power intensity of explosive destruction of rocks - Google Patents

Abstract

FIELD: drilling and blasting operations in hard rocks, applicable in various branches using blasting operations in rock masses.

SUBSTANCE: the method includes determination of the strength characteristics of rocks in power intensity of drilling of rocks and calculation on their base of the power intensity of explosive destruction of rocks. According to the invention, blasts are performed on rock samples with standard structures of charges in compliance with standard blast plans with a repeated determination of the strength characteristics of rocks on the remaining sections of the sample after blasting of each stage of delay, the coefficients of variation of the strength characteristics of rocks caused by the action of the blast of the previous stages of delay for each standard blast plan are calculated, and these coefficients are used in calculation of the power intensity of rock destruction of each stage of delay of the working blocks for similar conditions.

EFFECT: sufficiently simplified appraisal of variation of the properties of the mass of each subsequent stage of delay caused by the action of earlier blasted charges; enhanced accuracy of determination of the power intensity of explosive destruction of rocks due to allowance made for variation of the strength properties of rocks by blasts of the previous holes.

Description

The invention relates to the field of drilling and blasting in strong rocks and can be used in various industries that use blasting in rock massifs of rocks.

It is known that the mass of charges for the destruction of rocks is calculated based on the condition of its correspondence to the strength of the blasted rocks [1]. There are various ways of assessing the properties of explosive rocks - from evaluating samples based on an array to evaluating properties directly in the array. A linear relationship was established between the specific energy consumption of drilling (kW · h / m) and explosive crushing (MJ / m ³ ) [2, Table 14].

The closest to the essence of the problem to be solved is a method for calculating blasting parameters based on the evaluation of rock explosiveness based on the specific energy intensity of cone drilling. When drilling blast holes, the energy intensity of the drilling is measured, the values of the specific energy intensity of drilling are used to calculate the specific consumption of explosives for blasting rocks of this type [2].

The disadvantage of this method, adopted as a prototype of the claimed method, is the lack of accounting for changes in rock properties in the regional wells of the second and subsequent stages of deceleration from the effects of explosions of previous borehole charges during the development of the explosion in time and space.

The technical problem to which the invention is directed is to increase the accuracy of determining the energy intensity of explosive rock destruction by taking into account changes in the strength properties of rocks by explosions of previous wells.

The problem is achieved in that in a method for determining the energy intensity of explosive destruction of rocks, including determining the strength characteristics of rocks according to the energy intensity of drilling rocks and calculating the energy intensity of explosive destruction of rocks on their basis, according to the invention, explosions are carried out on test blocks with typical charge designs according to standard blasting schemes with by re-determining the strength characteristics of the rocks in the remaining sections of the block after blasting each stage of deceleration, the coefficients are calculated changes in the strength characteristics of the rocks from the effects of the explosion of the previous stages of deceleration for each typical blasting scheme and use these coefficients in calculating the energy intensity of the destruction of rocks of each stage of deceleration of the working blocks for similar conditions.

The method for determining the energy intensity of explosive destruction of rocks is carried out, for example, using a drilling and blasting unit for sheltering an explosive ledge equipped with manipulators for drilling, charging and jamming horizontal blast holes, as well as an explosive station [3], as follows.

Several experimental blocks are selected, composed of rock types characteristic of the quarry. They are drilled with horizontal wells according to standard blasting schemes with measuring the energy consumption of drilling, while wells of the second and further rows are drilled through one. Then, the magnitude of charges of a typical design is calculated by the energy consumption for drilling, for example, according to the formula proposed in [2], and the first row of wells is charged. After that, the blasting unit is covered with the blasting section of the block and the first stage of deceleration (the first row of wells) is blown up under cover by the blasting station of the blasting unit. Then, the remaining wells in the next stage of deceleration (in the next row of wells) are drilled with the drilling manipulator of the unit to measure the energy intensity. It is obvious that the measured values of the energy intensity of drilling will differ from the values at the initial drilling by a certain amount, since the array was disturbed by the explosion of charges from the wells of the first row. According to the obtained energy intensity of drilling additional wells, the charges of the wells of the next stage of deceleration (the next row of wells) are calculated according to the same formula as in the first case, charging is performed by the charging manipulator of the unit, and the bottom-hole manipulator is jammed for wells of the next stage of deceleration (of the next row of wells) and blast them under cover. The process is repeated until the last stage of deceleration (the last row of wells).

The described sequence of determining the strength characteristics is carried out for all characteristic types of open pit rocks, charge structures and blasting schemes. Then, the attenuation coefficients of the rock mass under the action of an explosion of previous charges are calculated for each subsequent deceleration step (each row of wells) of characteristic rock types and enter parameters into the data bank, accumulating information for various rocks, explosive charge designs and blasting patterns. This information is further used in the calculation of charge parameters by deceleration steps (rows of wells) based on the originally measured energy intensity of drilling blast holes by the principle of analogy, i.e. for each row of blasted wells, the charge is calculated with a correction factor from the data bank.

Thus, the inventive method for determining the energy intensity of explosive destruction of rocks during its implementation using a drilling and blasting unit makes it quite simple to evaluate changes in the properties of the array of each next stage of deceleration from the effects of previously exploded charges and thereby solve the problem.

Information sources

1. Technical rules for blasting on the surface. - M .: Nedra, 1972.- 240 p.

2. Tangaev I.A. Energy intensity of mining and mineral processing. - M .: Nedra, 1986. - 231 s (prototype).

3. Shevkun E.B., Sekisov G.V., Miroshnikov V.I., Cherednikov S.V. The method of destruction of rocks by explosion and a device for its implementation: RF Patent No. 2039253, 1995.

Claims (1)

A method for determining the energy intensity of explosive destruction of rocks, including determining the strength characteristics of rocks by the energy intensity of drilling and the speed of sound in a rock mass and calculating the energy intensity of explosive destruction of rocks on their basis, characterized in that explosions are carried out on experimental blocks with typical charge designs according to standard blasting schemes with by re-determining the strength characteristics of the rocks in the remaining sections of the block after blasting each stage of deceleration, the coefficients of change are calculated strength characteristics of rocks from the impact of the explosion of the previous stages of deceleration for each typical blasting scheme and use these coefficients in calculating the energy intensity of rock destruction for each stage of deceleration of working blocks for similar conditions.