RU2131584C1 - Process of charging of descending holes with explosive - Google Patents

Abstract

FIELD: mining industry, construction, blasting operations in rocks of any water content. SUBSTANCE: explosive is fed into hydraulic insulating hose through charging hose and sleeve with their simultaneous rise as hydraulic insulating hose is filled with explosive during formation of explosive string, hydraulic insulating hose slides in hole from sleeve under action of mass of explosive. Water-carrying explosive is used in the capacity of explosive. Upper end of hydraulic insulating hose is mounted on sleeve for sliding after filling of hydraulic insulating hose with specified amount of water-carrying explosive. Length of hose in hole is assumed to be equal to height of string of water-carrying explosive as minimum and is not longer than depth of hole. EFFECT: improved technical and economical indices of process. 2 cl

Description

 The invention relates to mining and construction, and in particular to methods for charging downhole wells with fluid water-containing explosives (BBB) using waterproofing hoses, and can be used for breaking rocks from the massif in rocks of any degree of water cut.

 There is a known method of loading downhole wells with explosives (BB), including installing a funnel above the wellhead with a sleeve attached to it having a waterproofing sleeve with a closed lower end laid on it with a harmonica, feeding a portion of a dry BB weighing through the funnel and sleeve 10 ... 15 kg, descent of the sleeve from the sleeve under the influence of the weight of this portion of explosive, subsequent supply of the rest of the “dry” explosive to the sleeve and its descent from the sleeve with partial immersion of the sleeve from the explosive into the flooded part of the well, feed to the sleeve up to 12% water or brine am of ammonium nitrate (AS), further descent of the sleeve from the sleeve with the explosive charge dipping to the bottom of the well and the final formation of the explosive charge column in the processes of water penetration or AS brine through the charge, partial dissolution of the AS in the charge and sedimentation of the charge with an increase in its density in the lower part of the well [1].

However, this method has the following main disadvantages:
- incomplete use of the volume of the well, since the diameter of the waterproofing sleeve should be 80 ... 82% of the diameter of the well, which increases the cost of drilling;
- a high probability of violating the integrity of the waterproofing sleeve due to the inevitable contact of the sleeve with the walls of the well during its filling of the explosive and lowering it into the well, which can lead to the washing out of the explosive by borehole water and its phlegmatization, and, consequently, to a decrease in the efficiency and safety of explosion up to failures ;
- a decrease in charging performance and the need for well plugging a few hours after filling the explosive well due to the duration of the charge sedimentation process.

 The closest technical solution to the claimed method is a method for loading downstream explosive wells, comprising supplying a sleeve to the bottom of the hole using a charging hose with a waterproofing sleeve laid on it with a closed lower end and an upper end fixed to the sleeve, forming a charge column by feeding explosives into the waterproofing sleeve through charging hose and sleeve with their simultaneous rise as filling the waterproofing sleeve BB and the descent of this sleeve from the sleeve. After charging and lifting the charging hose, the upper end of the shell is removed from the sleeve and fixed on the surface at the wellhead [2].

 Unlike the analogue, this method ensures the full use of the borehole diameter and high loading performance while ensuring the integrity of the waterproofing sleeve. However, the method provides for pneumatic charging of wells, for which a source of compressed air is needed. This leads to the need to use a compressor, complicating the design of the equipment used, reducing its reliability and increasing the cost of loading. In addition, the presence of a waterproofing sleeve in the borehole in the stemming zone makes it difficult to fill the upper uncharged part of the borehole with casing material, resulting in voids that reduce the quality of the casing. Up to 50% of the sleeve length is used irrationally. Moreover, when blown up, the material of the sleeves in the clogging zone is not destroyed, as in the charge zone, but only breaks into separate pieces, which clogs the rock mass and creates significant difficulties in the further enrichment of many minerals, such as asbestos. All this reduces the technical and economic indicators of the method.

 The objective of the invention is to increase the technical and economic indicators of the method of loading downstream wells of explosives using waterproofing hoses in rocks of any degree of water cut.

 Moreover, the technical result consists in the exclusion of the use of compressed air for charging wells, improving the quality of stemming wells, reducing clogging of minerals with material of waterproofing hoses and saving these hoses.

 The specified technical result is achieved by the fact that in the known method of loading downstream explosive wells, which includes feeding a sleeve to the bottom of the well using a charging hose with a waterproofing sleeve laid on it with a closed lower end and an upper end fixed to the sleeve, forming a charge column by supplying an explosive to the waterproofing sleeve through the charging hose and sleeve with their simultaneous rise as filling of the waterproofing sleeve BB and the descent of this sleeve from the sleeve, the descent of the waterproofing sleeve from the sleeve to the well ine carried out by the weight of the action of explosives, wherein the explosives are used as water-containing flowable BB (BBB).

 In addition, the upper end of the waterproofing sleeve is mounted on the sleeve with the possibility of its descent after filling the waterproofing sleeve with a predetermined number of explosives, and the length of the sleeve along the well is taken to be not less than the height of the column of explosive charge and not more than the depth of the well.

 The set of features indicated in the claims includes essential features, each of which is necessary, and all together are sufficient to obtain a technical result.

 So, the descent of the waterproofing sleeve from the sleeve due to the action of the weight of the explosives and the use of fluid explosives as explosives makes it possible to exclude the use of compressed air for charging wells and replace a powerful expensive compressor with a small-sized, simpler, more reliable and cheaper pump mounted directly on a charging machine, as well as limited to natural pressure from a solution-filled container.

 Also, attaching the upper end of the waterproofing sleeve to the sleeve with the possibility of descent after filling this sleeve with a predetermined number of explosives with a sleeve length in the borehole of not less than the height of the column of explosives and not more than the depth of the well provides, depending on the ratio of the height of the column of charge and the length of the stemming hole, reducing the required length sleeves up to 50%. This not only reduces the consumption of hoses, but also due to the incomplete or partial absence of the hoses in the clogging zone, does not interfere with the process of clogging the wells, improving the quality of the clogging, and reduces clogging of minerals by the remains of the material of the hoses in the place where it does not burn out during the explosion . At the same time, the length of the sleeve along the borehole is not less than the height of the column of explosive charge is the minimum necessary to prevent the washing out of explosive. The length of the sleeve, equal to the depth of the well, is appropriate when charging wells drilled in waterlogged rocks containing sulfide inclusions, since in this case complete isolation of the charge from the surrounding rock and well water is necessary due to possible exothermic and autocatalytic reactions that are part of the BBB AC with sulfides, for example, pyrite.

Examples of the method
Example 1
Waterlogged downstream (vertical) wells were charged with a diameter of 250 mm and a depth of 18 m. The wells were not flowing, the height of the water column in them was 10 m. As an explosive, a fluidized explosive was used based on solid granular and liquid components with a loading density of 1100 kg / m ³ . The charge mass was 600 kg, of which 560 kg of explosives and 40 kg of granulotol, the height of the charge column was 11.3 m (10.4 m of explosives and 0.9 m of granulotol). Charging was carried out by a converted M3-4A charging machine, which provided the preparation of explosives with different contents of solid granular components and the liquid phase and the wells were charged through a charging hose under a column of water. A device] [2] was attached to the end of the charging hose, which carries a sleeve with a waterproofing sleeve laid on it. The sleeve with a diameter of 250 mm is made of a seamless polyethylene film of high pressure and low density 0.18 mm thick and laid on the sleeve in layers with twisting along a helical line. The lower end of the sleeve is closed (sealed) by welding, and the upper end is mounted on the sleeve with the possibility of its removal from the sleeve after filling the sleeve with a specified amount of explosive, for example, through a rubber ring. The device has a bearing that provides rotation of the sleeve with a non-rotating charging hose. The length of the sleeve is equal to the height of the column of explosive charge and is 10.4 m.

 Charging wells is carried out by sequentially performing the following operations.

 Loaded with BBB components, the charging machine enters the charging unit, where it is placed so as to charge several wells from one installation. Then, the corresponding weight parts of the solid granular and liquid components are fed into the mixer of the machine, providing a given dose of explosives of the required composition weighing 560 kg. Connect the sleeve with the sleeve to the specified device, and the device to the charging hose. At the bottom of the well, an intermediate detonator (two TGF-500 pieces) is lowered on the detonating cord (LH), and the ends of the LH are fixed at the wellhead. The sleeve with the waterproofing sleeve laid on it is fed through the charging hose to the bottom of the well.

 The formation of the explosive charge column is carried out by feeding the finished BBB pump to the waterproofing sleeve from the mixer of the charging machine through the charging hose and sleeve with their simultaneous lifting as the BBB waterproofing sleeve is filled and this sleeve leaves the sleeve. The descent of the sleeve from the sleeve is carried out due to the action of the weight of the BBB. In this case, the sleeve smoothly adheres to the walls of the well without moving and friction of the sleeve along these walls, since during the descent of the sleeve from the sleeve when lifting the charging hose, the sleeve rotates in accordance with the direction and pitch of the twisting of the sleeve layers on the sleeve with a non-rotating charging hose. After supplying to the sleeve a predetermined amount of explosives (560 kg) with a further rise of the charging hose, the waterproofing sleeve is automatically disconnected from the sleeve after the above-mentioned fastening of its upper end to this sleeve. Next, the charging hose with the device and the sleeve is removed from the well.

 A second intermediate detonator is lowered into the well at the BBB to the well (again, two TGF-500 pieces), and the ends of the well are also fixed at the wellhead. After that, 40 kg of granulotol are manually poured into the well. Water from the well is displaced through cracks into the rock mass or flows to the surface of the charged block.

 The charging hose is transferred to the next well, the used sleeve is disconnected from the device, another sleeve is connected to the device with a waterproofing sleeve laid on it, and the above operations are repeated.

 At the end of charging all the wells or a group of wells charged from one installation of the charging machine, the wells are jammed, for example 3C-2M.

 Example 2

 In contrast to example 1, the well depth is 13 m and they are drilled in rocks containing 4.7% sulfides (pyrite). Therefore, the charge has a mass of 360 kg of explosives with a charge column height of 6.75 m. The length of the waterproof sleeve is equal to the depth of the well (13 m). This length of the sleeve will provide complete isolation of the charge from the surrounding rock and well water. The equipment used, BBB, the means of initiation and the sequence of operations during the implementation of the method are the same as in example 1, but without the installation of a second intermediate detonator and recharging of the wells in bulk waterproof BB.

 Example 3

 In contrast to Example 2, the wells were drilled in rocks without sulfide inclusions and filled with running water. Therefore, the length of the sleeve is reduced to the height of the column of explosive charge plus 4 ... 6 well diameters, i.e. up to 6.75 + (4... 6) • 0.25 = 7.75 ... 8.25 m, which eliminates the leaching of the charge with borehole running water.

Sources of information
1. Martynenko S.V. Industrial tests of a device of the type "Talisman" for loading technological wells in quarries. On Sat "Blasting." N 87/44. Mechanization of technological processes of blasting. - M .: Nedra, 1985, p. 128-132.

 2. RF patent N 2005178, cl. E 21 C 37/00, 19693 (prototype).

Claims (2)

 1. A method of loading descending wells with explosives (BB), comprising feeding a sleeve to the bottom of the hole using a charging hose with a waterproofing sleeve laid on it with a closed lower end and an upper end attached to the sleeve, forming a charge column by feeding explosives into the waterproofing sleeve through the charging sleeve the hose and sleeve with their simultaneous rise as filling the waterproofing sleeve BB and the descent of this sleeve from the sleeve, characterized in that the descent of the waterproofing sleeve from the sleeve in the well is carried out due to the action of the weight of the explosives, moreover, a fluid water-containing explosive (BBB) is used as the explosive.  2. The method according to claim 1, characterized in that the upper end of the waterproofing sleeve is mounted on the sleeve with the possibility of its descent after filling the waterproofing sleeve with a predetermined number of explosives, and the length of the sleeve along the well is equal to not less than the height of the column of explosive charge and not more than the depth of the well.