SU1167357A2 - Apparatus for simulating spontaneous outbursts - Google Patents

Abstract

DEVICE FOR MODELING EMERGENCY EMISSIONS according to ed. St. No. 939782, characterized in that, in order to increase the accuracy of the simulated ri 5 5 "" (nor the natural conditions of the sudden outburst, it is equipped with two metal plates with a diameter equal to the sample filter, with connecting wires, electrical wire, electrical insulator and current source, at the same time, the first plate is made of a large-destructive material and glued to one side of the glass, and the other to the sample face, and the second plate is glued to the other end of the sample, and between this plate and the bottom plate is placed a thermo isolator, and both plates with connecting wires passed through an electric wire connected to a current source. О О5 СО СП СП |

Description

The invention relates to mining, namely to the mechanics of rocks, and can be used to study the tendency of rocks to sudden outliers. The purpose of the invention is to improve the accuracy of modeling field conditions for sudden outbursts. In the drawing, an apparatus for moderating emissions is shown. I Ustr 1st || 16 - C-Odzhi5 cylindrical Xpfus1, kr.ysh) || (2, ao}) schchen 3, ball onbiw (pbDt) 4,, cup 5 for fastening | p 1p „6, -: 1 1branu 7, perforated washer, 9 ,; clamp nut 10, chamber l cap, chamber 12 in the body & , -ccgDp6rshnevuyu camera 13, clamping bolt 14, pressure sensor 15, high pressure inlet fittings 16-518, pressurization ring 19, sealing ring 20, insulating gaskets 21 and 22, metal foil plates 23 and 24, electrode, connecting wires 26 and electric insulation jq torus 27. The proposed device works in the following way. 25 plates 23 and 24 are glued to the ends of sample 6 along the perimeter with glue, for example, BF-2, and a plate 5 is glued to plate 24, which is then screwed into the lid 2 until the sealing ring 20 stops connecting the gas between the chambers 11 and 12. Then, the ends of the connecting wires 26 are soldered to the plates 23 and 24. The electric insulator 27 is glued to the ball support 4 and the housing 1 is joined with the cover 2 by means of clamping bolts 14. The chambers 11 and 12 are insulated from the atmosphere by means of a ring. An insulating gasket 24 is placed in the lid 2, a perforated washer 8, an insulating gasket 21 and a membrane 7 and an insulating gasket 22 are successively applied on top of the KOTopofi. The electric grids are applied to the plates 23 and 24 from the dry cells. equal to the potentials determined on the simulated area of the coal seam in size and direction. A fluid pressure is then created in the chamber 13 through the high pressure inlet 16. Moving in this way, the pistol 3, through the spherical support 4, transfers the load to the end of sample 6, providing the first of the components of the floor field. Through the inlet 17 into the chamber 12, gas is supplied and at the same time, the sample is saturated with gas and loading, which provides the second component of the voltage field. Through inlet 18, gas is supplied to chamber 11 at a predetermined pressure, which ensures the creation of the third component of the voltage fields. When critical pressure is reached in chamber 11, recorded by sensor 5 and coinciding in magnitude with the tensile strength of the membrane 7, the latter is destroyed, thereby creating conditions For the outflow of gas from the chamber 11 at a speed determined by the number of 9 plugs covered with plugs in the perforated washer 8 and the discharge speed of the end surface of the sample 6. As a result of the outflow of gas from measures 11, the end part of sample 6 and its destruction together with the plate 24. Varying the magnitude of the applied component of the field voltage and the speed of the sample unloading, determine the parameters of sustainable destruction of the end surface of the sample from the side of chamber 11, the conditional model of sudden outliers. By varying the electrical potentials on the plates for a given value of the voltage applied to the sample component and the sample unloading rate, the effect of the electric field on the tendency of the coal to spontaneously destroy the sample during unloading is determined.

Claims (1)

. DEVICE FOR MODELING OF SUDDEN EMISSIONS by ed. St. No. 939782, characterized in that, in order to improve the accuracy of modeling the natural conditions for the manifestation of sudden emissions, it is equipped with two metal plates with a diameter equal to the filter of the sample, with connecting wires, an electric wire, an electrical insulator and a current source, while the first plate is made of coarse-breaking material and glued on one side to the glass, and the other to the end of the sample, and the second plate is glued to the other end of the sample, and an electrical insulator is placed between this plate and the thrust bearing, and both plates with connecting wires passed through an electric wire are connected to a current source.