RU2132040C1 - Process of positioning of substance in hose in downgoing hole - Google Patents

Abstract

FIELD: mining industry, positioning of explosives in hole, loading of dry and flooded downgoing holes with explosives. SUBSTANCE: in agreement with proposed invention there is used hose alone without any additional outsize and expensive fixtures that is laid in package placed in hole. Explosive is loaded into open end of hose held in mouth of hole that expands with explosive fed into it. EFFECT: improved efficiency of process, separate loading of more than one explosive with use of one hose only. 17 cl, 31 dwg

Description

 The invention relates to mining, and in particular to methods for placing explosives in a well, and can be used to equip dry and flooded downhole explosives.

 Known methods for loading downstream dry and flooded wells with a substance in the sleeve. The implementation of these methods of loading wells is provided only with the help of complex devices and therefore is a technologically complex process that requires large material costs and considerable time when loading a large number of wells, for example, when preparing overburden operations in open coal mines.

 The closest in technical essence to the claimed method is a method of equipping holes and a device for its implementation according to US patent N 4040330, MKI F 42 D 1/08 (NKI 86-20 C), published in the collection "Inventions Abroad" 1978, issue 98, N 4, p. 8.

 In said method, an end of an elastic stocking, open on both sides and worn on the equipment tube, is attached to the equipment tube open at both ends; the stocking is assembled into an accordion, its upper end is turned out, bent over the accordion, pulled under the lower end of the equipment tube and sealed. After that, the tube is lowered into the hole with the lower end and BB is fed through the equipment funnel through the equipment tube to the stocking and, as the explosives are fed, the stocking, turning out, slides from the equipment tube.

 The implementation of this method is possible only with the use of the equipment tube and requires preliminary laying of the stocking on the equipment tube and sealing the stocking, which complicates the process of preparing for loading explosives, increases the time and increases the cost of the loading process. In addition, there is another significant drawback, namely, that the stocking rubs its outer surface against the walls of the borehole, which can lead to gusts and explosives entering the borehole and, as a result, reduce the quality of the explosion.

 This method also does not allow to place more than one explosive in the well.

 The technical task of the present invention is the implementation of a method of placing a substance in a sleeve in a downstream dry or flooded well without using any devices, as well as separate placement in the well of more than one explosive using only one sleeve.

 The problem is solved in that in the method of placing the substance in the sleeve in a downhole, including collecting the sleeve in the bag with the possibility of flowing the sleeve, placing the entire package or part of it in the well, holding the open end of the sleeve and feeding material into it, according to the invention, the substance is supplied on the package.

 This method is characterized by the features of laying the sleeve, which are as follows: part of the lower end of the sleeve is turned out and pulled onto the sleeve assembled in the package, which protects the package from gusts on the borehole wall when moving it; the upper end of the sleeve is fixed on the hollow guide and the substance is fed into it, which improves the passage of the loaded substance into the sleeve at the initial stage of its supply; the lower end of the sleeve is turned out, pulled onto the sleeve assembled in the bag and a substance is fed into it, which ensures a decrease in the friction of the end of the sleeve against the borehole wall; the inverted end of the sleeve is fixed on the hollow guide, which improves the passage of the loaded substance into the sleeve at the initial stage of its supply; part of the sleeve is collected on a hollow guide, one end of the sleeve is fixed at its upper end, the other end of the sleeve is turned out, pulled onto the assembled sleeve and a substance is fed into it, which ensures filling of the sleeve with water in a waterlogged well when using a waterproof substance; the lower end of the sleeve is turned out and pulled onto the sleeve assembled in the bag, and the substance is fed to both ends of the sleeve, which ensures the loading of the substance separated by the intermediate wall, which improves the quality of loading; the lower end of the sleeve is turned out, pulled on to the sleeve assembled in the bag, the upper end of the sleeve is turned inside the sleeve assembled in the bag, turned through, turned out, pulled on the turned lower end of the sleeve, and the substance is fed to the ends of the sleeve, which reduces the friction of the package on the well walls; collected along the length of the sleeve of different diameters, a sleeve of a smaller diameter is placed above the sleeve of a larger diameter, the lower end of the sleeve of a larger diameter is turned out and pulled on both assembled sleeves, and the substance is fed to the ends of the sleeves, which ensures the formation of a charge with the necessary quality characteristics; the ends of the sleeves are fixed on hollow guides of different diameters, which ensures improved passage of the loaded substance into the sleeve at the initial stage of its supply; various substances are fed to the ends of the sleeve, which improves charge quality characteristics; the package is placed on the bottom of the well and, as the substance is supplied, the sleeve is pulled out of the well, which is used when loading the liquid substance.

 The proposed method is characterized by the use of various schemes for collecting the sleeve in the bag: collecting the sleeve in the bag is carried out by rolling it into a roll; picking up the sleeve in the bag is carried out by twisting it; picking up the sleeves in the package is carried out by sequentially laying in opposite directions (snake) across a width equal to or less than the diameter of the well; picking up the sleeves in the bag is carried out by collecting in the "accordion"; the collection of sleeves in the package is carried out by a combination of the above schemes for collecting the sleeves.

 The invention is further explained by the description of a specific, but not limiting, example of a method for placing a substance in a sleeve in a downhole, which is implemented in the form of various schemes for forming a sleeve and a package in accordance with the accompanying drawings, which depict wells with sleeve placed in them in accordance with realizable schemes for their installation.

 Since each figure of the drawing shows a well, in the future when describing the figures, an indication of its presence is not given.

 In FIG. 1 shows a sleeve whose lower end is assembled in a bag; in FIG. 2 - a well filled in a sleeve according to the scheme of FIG. 1; in FIG. 3 - shows a sleeve, a part of the lower end of which is turned out and stretched over a sleeve assembled in a bag; in FIG. 4 is a well filled in a sleeve according to the scheme of FIG. 3; in FIG. 5 - shows a sleeve, the upper part of which is fixed on the hollow guide, and the lower is assembled in a bag; in FIG. 6 is a well filled in a sleeve according to the scheme of FIG. 5; in FIG. 7 - shows a sleeve assembled in a bag, the lower part of which is turned out and fully stretched over the bag; in FIG. 8 is a well filled in a sleeve according to the scheme of FIG. 7; in FIG. 9 - shows a sleeve assembled in a bag, the lower part of which is turned out, fully stretched over the bag and fixed on the hollow guide; in FIG. 10 is a well filled in a sleeve according to the scheme of FIG. 9, in FIG. 11 - shows a sleeve assembled in a package, the upper part of which is fixed in the upper part of the hollow guide, and the lower part is turned out and stretched on the package with the guide; in FIG. 12 is a well filled in a sleeve according to the scheme of FIG. eleven; in FIG. 13 - shows a sleeve assembled in a bag, the lower part of which is turned out and stretched over the bag; in FIG. 14 is a well filled in a sleeve according to the scheme of FIG. 13; in FIG. 15 - shows a sleeve assembled in a bag, the lower part of which is turned out and pulled on the bag, and the upper part of the sleeve is turned inside the bag, and then pulled on the bag from the top of the turned out lower part of the bag; in FIG. 16 is a well filled in a sleeve according to the scheme of FIG. fifteen; in FIG. 17 shows two sleeves of different diameters assembled into bags, the smaller sleeve package being located on top of the larger sleeve package, the lower part of which is turned out and stretched over both packages; in FIG. 18 is a well filled in a sleeve according to the scheme of FIG. 17; in FIG. 19 - shows a sleeve assembled in a bag, the lower part of which is turned out and stretched over the bag and both ends of the sleeve are fixed on hollow guides of different diameters; in FIG. 20 is a well filled in a sleeve according to the scheme of FIG. 19; in FIG. 21 - shows a sleeve assembled in a bag, the lower part of which is turned and pulled on the bag, the upper part of the sleeve is turned inside the bag, and then pulled on the bag from the top of the turned lower part of the bag and both ends of the sleeve are fixed on hollow guides of different diameters; in FIG. 22 is a well filled in a sleeve according to the scheme of FIG. 21; in FIG. 23 - shows two sleeves of different diameters, assembled into bags, the smaller sleeve package being located on top of the larger diameter sleeve package, the lower part of which is turned and stretched over both packages and both ends of the sleeve are fixed on hollow guides of different diameters; in FIG. 24 - a well filled with a substance into the sleeve according to the scheme of FIG. 23; in FIG. 25 - shows a sleeve assembled in a package, which is placed at the bottom of the well; in FIG. 26 is a well filled in a sleeve according to the scheme of FIG. 25; in FIG. 27 shows a sleeve assembled into a bag by rolling; in FIG. 28 depicts a sleeve assembled in a bag "snake"; in FIG. 29 shows a sleeve assembled into a bag by twisting; in FIG. 30 shows a sleeve assembled in an accordion package; in FIG. 31 shows a sleeve assembled in a bag by combining the circuits shown in FIG. 27, 28, 29 and 30.

 The invention is illustrated by a description of a method for filling a well into a sleeve, which is the same for those shown in FIG. 1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21, 23, 25 varieties of sleeve formation.

 The indicated figures show well 1, sleeve 2, package 3 of sleeve 1, end 4 of sleeve 1, hollow guide 5, sleeve 6 of smaller diameter, package 7 of sleeve 6 of smaller diameter, hollow guide 8 of larger diameter.

 Turning to FIG. 1, which depicts a downhole 1 with a sleeve 1 placed therein, assembled into a packet 2. The open end of the sleeve 1 is placed above the well and is held by means well known to those skilled in the art. Package 3 is located in the upper part of the well freely. The sleeve 2 can be made of polyethylene, polypropylene, polyester and materials similar in mechanical characteristics, well known to specialists in this field of technology and traditionally used in well-known methods for equipping wells. The diameter of the sleeve 2 is selected based on the diameter of the well 1 with tolerances well known to specialists in this field to ensure free placement in the well 1 and compensate for the shrinkage of the substance.

 The bag 3 can be assembled from the sleeve according to any of the stacking schemes depicted in FIG. 27-31, either preliminarily or immediately before placement in the well, taking into account the depth of the well and the subsequent shrinkage of the substance placed in the sleeve.

 The method of placing the substance in the sleeve 2 in the well 1 is implemented as follows. The substance is fed into the open end of the sleeve 2 on the package 3, which, under the weight of the substance moves in the well 1 melting into the sleeve 2 and reaches its bottom in the form of several layers of the sleeve 2 or completely melted into the sleeve 2.

 Turning to FIG. 3, which shows a segment 4 of the sleeve 2, which ensures the preservation of the package 3 from gusts on the wall of the well 1.

 Turning to FIG. 4, where a hollow guide 5 is shown, on the lower part of which an open upper end of the sleeve 2 is fixed, providing better conditions for supplying the substance to the package 3 of the sleeve 2.

 Turning to FIG. 11, which shows a hollow guide 5, on the upper part of which is fixed the open upper end of the sleeve 2, which ensures the flow of water into the sleeve 2 in a waterlogged well when using a waterproof explosive.

 Turning to FIG. 13 and 14, which show the possibility of placing the substance in the well in the form of two volumes separated by the shell of the sleeve 2, obtained from one sleeve 2.

 Turning to FIG. 17 and 18, which show the possibility of placing the substance in the well in the form of two volumes formed by sleeves 2 and 6 of different diameters. These two volumes can be filled with two substances of different composition.

 Turning to FIG. 19 and 20, which depict hollow guides 5 and 8 of different diameters, designed to improve the supply of substances of one or two different compositions and the possibility of placing them in the well in the form of two volumes formed from one sleeve 2 is shown.

 A similar result in the sense of placing two substances of different composition in the same shell is obtained using the sleeve formation schemes in accordance with FIG. 13, 15, 19, 21 and 23.

 Turning to FIG. 25 and 26, which depicts a diagram of an implementation of a method for supplying a substance to a bag previously placed at the bottom of the well, which is used when loading the well into the sleeve with a liquid substance. In this case, the package is expanded by pulling the sleeve 2 from the well 1 as the substance is supplied. The method of placing the package at the bottom of the well is well known to specialists in this field.

 The bag assembly schemes shown in FIG. 27-31 are well known to those skilled in the art and do not require a detailed description.

 The invention provides the placement of explosives in descending dry and flooded wells using one sleeve without sealing and without using any devices and devices for loading, which, with large numbers of charged wells in open sections of mining, can significantly reduce the time and complexity of loading, reduce total consumption of the sleeve, to reduce the risk of rupture of the sleeve on the borehole wall due to a significant reduction in the sliding friction of the sleeve filled with the substance on the wall wells, as the sleeve in the process of filling it moves forward to the bottom of the well with a part packed and unfilled with the substance, to provide the possibility of separately loading various explosives (one inside the other) into one sleeve throughout the depth of the well and stabilizing their shrinkage with improving the quality of charge formation.

Claims (17)

 1. A method of placing a substance in a sleeve in a downhole, including collecting the sleeve in a bag with the possibility of its consumption, placing the bag in the well, holding the open end of the sleeve and supplying it with a substance, characterized in that the substance is supplied to the bag.  2. The method according to claim 1, characterized in that a portion of the lower end of the sleeve is turned out, pulled onto a sleeve assembled in a bag.  3. The method according to claim 1, characterized in that the upper end of the sleeve is fixed to the hollow guide and the substance is fed into it.  4. The method according to claim 1, characterized in that the lower end of the sleeve is turned out, pulled onto the sleeve assembled in the bag and the substance is fed into it.  5. The method according to claim 4, characterized in that the inverted end of the sleeve is fixed on the hollow guide.  6. The method according to claim 1, characterized in that part of the sleeve is assembled on a hollow guide, one end of the sleeve is fixed at its upper end, the other end is turned out, pulled onto the assembled sleeve and the substance is fed into it.  7. The method according to claim 1, characterized in that the lower end of the sleeve is turned out and pulled onto the sleeve assembled in the bag, and the substance is fed to the ends of the sleeve.  8. The method according to claim 1, characterized in that the lower end of the sleeve is turned out, pulled on to the sleeve assembled in the bag, the upper end of the sleeve is turned inside the sleeve assembled in the bag, pulled through it, turned out, pulled to the twisted lower end of the sleeve, and the substance is supplied at the ends of the sleeves.  9. The method according to claim 1, characterized in that it is collected along the length of the sleeve of different diameters, a sleeve of a smaller diameter is placed above the sleeve of a larger diameter, the lower end of the sleeve of a larger diameter is turned out and pulled over both assembled sleeves, and the substance is fed to the ends of the sleeves.  10. The method according to any one of claims 7 to 9, characterized in that the ends of the sleeves are fixed on hollow guides of different diameters.  11. The method according to any one of paragraphs.7 to 9, characterized in that at the ends of the sleeves serves various substances.  12. The method according to claim 1, characterized in that the package is placed on the bottom of the well and as the substance is supplied, the sleeve is pulled out of the well.  13. The method according to claim 1, characterized in that the collection of the sleeve in the bag is carried out by rolling it into a roll.  14. The method according to claim 1, characterized in that the collection of the sleeve in the bag is carried out by twisting it.  15. The method according to claim 1, characterized in that the collection of the sleeve in the package is carried out by sequentially stacking in opposite directions along a width equal to or less than the diameter of the well.  16. The method according to claim 1, characterized in that the collection of sleeves in a package is carried out in an "accordion".  17. The method according to claim 1, characterized in that the collection of the sleeves in the bag is carried out by a combination of methods according to any one of paragraphs.13 to 16.

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