RU2126132C1 - Method of charging of flooded wells - Google Patents

Abstract

FIELD: mining industry - for charging of wells with explosive at opencast mining. SUBSTANCE: without any delay after drilling a sleeve of film polymeric material is lowered into the well, air is fed through the hose inside the sleeve lowered together with it before well stemming thus producing an excess pressure in the sleeve, pressing the sleeve film to preliminarily moistened well walls. Without reducing the pressure, air cooled down to a temperature required for freezing the sleeve on the well surface, is fed to the well. Freezing-on is accomplished by air circulation from vortex tube, and in winter - from the atmosphere. EFFECT: reduced labour content and reduced time of charging of flooded wells. 1 dwg

Description

 The invention relates to the mining industry and is intended for loading flooded wells with non-waterproof explosives (BB) in open pit mining.

 It is known to charge flooded wells using a sleeve of polymer film material, excluding the contact of explosives with water [1].

A sleeve lowered into the well in the form of a flat tape can be easily filled only by pouring explosives with a density higher than the density of water. Charging the most economical granular explosives of local manufacture with a density of 0.8-0.85 g / cm ³ in the presence of water in the well is not feasible.

 Known waterproofing of wells with a sleeve fixed on its surface by impregnating the walls of the well with a polymer composition or applying glue to the surface of the sleeve, after which the sleeve is pressed against the walls of the well by gas [2].

 A sleeve mounted on the walls of the well allows you to charge the wells by filling with explosives of any structure and density. However, to implement the well-known technology of waterproofing wells is difficult due to the following disadvantages of the prototype.

 1) The well-known technology of waterproofing wells can be implemented after drainage of wells, moreover, immediately after drainage, to prevent the influx of groundwater. Therefore, the glue should not lose its adhesive ability to the moistened surface of the rock. Along with this, the glue must quickly cure. The complex of such requirements leads to an increase in the cost of glue.

 2) For obvious reasons, glue should be applied to the surface of the sleeve simultaneously with the process of lowering it into the well, since a sleeve with a pre-applied adhesive coating, rolled up into a roll, will not be suitable for use.

 Sleeves are made mainly of polyethylene - a product of large-tonnage production, the most affordable and economical. And polyethylene refers to hardly glued materials. Glue application on sleeves made of other materials in the field is difficult to do, especially in winter.

 Lowering the sleeve with glue on the outer surface is difficult due to its gluing to the walls of the well in intermediate positions, without reaching lowering to the bottom of the well. The noted difficulty will arise when lowering a clean sleeve into a well with walls impregnated with a polymer composition.

 3) Impregnation of the walls of the well with a polymer composition based on its solidification after lowering the sleeve and expanding it with gas pressure to contact the surface of the well cannot be realized in the zone of intense water inflow, since the coating from the uncured polymer composition will be squeezed out and washed away by ground water.

 When waterproofing wells by impregnating the walls with polymers, a rapidly polymerizable composition from a binary mixture of resin and hardener or polymerization catalyst should be used. It is technically and technologically difficult to apply the compositions to the inner surface of the wells, especially to the bottom, shielded with a mixture of drill cuttings and water, which is practically impossible to remove.

 The aim of the invention is the elimination of the above disadvantages.

 To achieve this goal, a hose with a sleeve of film material is lowered into the well with moistened walls until it is slammed, air is fed into the hose, creating excessive pressure in the sleeve, pressing the sleeve against the walls of the well, after which, without reducing the pressure, air circulation is created in the well, cooled to a temperature that provides freezing of the film material of the sleeve to the moistened surface of the well. A cold air stream is supplied from a vortex tube, and in the winter - from the atmosphere.

 In the drawing, a diagram of the method, where the following notation is adopted: 1 - well, 2 - hose, 3 - sleeve, 4 - slotted slots at the end of the hose, pressing the sleeve to the bottom of the well, for the air supplied to the sleeve, 5 - air supply to the well, 6 - air outlet from the well.

Sleeves are used mainly from polyethylene, and in winter - from polystyrene GOST 12998-73 (operating temperature minus 80 ^o C) or from a copolymer of ethylene with low pressure propylene TU 6-05-529-76 with a brittle temperature of minus 140 ^o C ( Plastics: Properties and Applications: Reference Book - 3rd ed. - L .: Chemistry, 1978. - S, 23, 79).

The sleeve is frozen to the surface of the well by air flow from the compressor of the drilling rig, which is passed through a vortex tube that separates the air into two streams - heated and cooled to a temperature of minus 70 ^o C. In winter, the sleeve is frozen with air circulation from the atmosphere.

 After fixing the sleeve 3 by freezing, the hose 2 is removed from the well and the well sealed by the sleeve is filled with explosives and stemming.

 It is recommended to charge the well after drilling. In this case, the compressor of the drilling rig is used and the wells are waterproofed with an intensive influx of water, since immediately after drilling with blowing the wells with compressed air, the well is free of water and can be quickly waterproofed, preventing the entry of groundwater by a sleeve film pressed against the surface of the well with air pressure followed by fixing the sleeve by freezing the film and immediately after completing the freezing, filling the well with explosive compounds with intermediate detonators, initiating means Bani, and tamping. Thus, the operation of draining wells with pumping water is not required.

 When loading after drilling, labor costs are excluded for the restoration of wells with collapsed walls and for pumping out water - groundwater and from precipitation.

 The freezing of the film of the sleeve to the surface of the well is accompanied by freezing to a small depth and the rock. It is known that the thawing time of an ice-rock layer is four times greater than the time required for its formation (Trupak N.G. Freezing of soils in underground construction. M.: Nedra, 1974. - S. 260). The foregoing will ensure unhindered loading of the wells before thawing and flaking of the sleeve, especially since the filling of non-water-resistant granular explosives into the well, open to the entire cross-section, occurs quickly and without hindrance.

 1. Reference: Open cast mining / Trubetskoy KP, Potapov MG, Vinitsky K.E. and others. - M.: Mining Bureau, 1994, - P.223.

 2. Shevkun E.B. Managing the effect of a blast of borehole charges. N .: Nauka, 1992 .-- S. 170.

Claims (1)

 A method of charging flooded wells with a non-water-resistant explosive with charge protection from contact with water by a sleeve of film material fixed to the contact surface of the sleeve and the well, characterized in that the sleeve is secured by freezing it to the moistened surface of the well by circulating a low-temperature stream of air supplied from the vortex tube, and in the winter - from the atmosphere.