RU2210055C2 - Method for formation of water-proof explosive charge in entry for ore-breaking - Google Patents

Abstract

FIELD: mining art, in particular, methods for formation of explosive charge at underground mining of thick deposits for "mine" ore breaking with block and sublevel caving. SUBSTANCE: the method consists in driving of the entry by the blasthole drilling method, leaving of the broken rock in the mouth part of this opening and use of it as a tamping, charging of the entry cavity by explosive charges from the openings of the higher level, according to the offered design, the entry is driven by the method of successive sectional explosion of dispersed high-explosive charges in a set of holes drilled on the route of the entry, and after the release of the broken rock to the boundary of tamping the mine survey is accomplished of the obtained contour of the entry, and according to the results of this survey, the actually obtained sections of the entry at different heights are determined and with the use of them - the lines of the minimum resistance. Then, with the use of these data the values of the necessary dispersed high-explosive charges are determined in the height of the entry, and a flexible shell inscribed in the section of the covered entry is installed in the cavity of the entry in its entire height, after that the calculated dispersed high-explosive charges are theoretically positioned in the flexible shell, maximum use is made of its section, the elevation marks in the entry of each of these charges are determined according to these theoretical calculations, then each of these high-explosive charges is placed in the flexible shell, with the bullet positioned in it, and the spaces between these high-explosive charges are filled with an inert material and the bullet blasting network is laid through it. As the water-proof high-explosive charge is formed in the flexible shell in the entire height of the entry the space between the outer surface of the flexible shell and the entry contour is filled with an inert material. EFFECT: reduced labor content of formation of the high-explosive charge and enhanced quality of ore crushing due to provision of complete detonation of the explosive charge. 2 cl, 2 dwg

Description

 The invention relates to mining, and in particular to methods for the formation of mine explosive charges (BB) during the underground development of powerful deposits by mine blasting ore with floor and sub-floor collapse.

 A known method of formation of a mine charge (see, for example, Malakhov G.M., Shabarov G.P. and other Systems of underground mining of iron ore deposits. - M.: Metallurgizdat, 1958, p. 69), including tunneling with a blasting method and charging its explosives to the bottom hole, while the camera passes at the bottom of the mine in the form of a mine well.

 The disadvantage of this method is that for the sinking of mine wells in the bottom of the hole, drilling of holes is carried out vertically downward, and this is the most time-consuming and physically difficult type of drilling, and most of the rock mass recaptured during the sinking of mine wells remains in the face after the explosion, cleaning which is produced manually.

 There is also known a method of forming a chamber charge (see AS USSR 683292, class E 21 C 37/12, E 21 C 41/06, published in BI 29, 1981), which includes tunneling by blasting, charging the explosive chamber and its clogging, moreover, the chamber passes in the form of a rising working hole, while the rock mass obtained during sinking, blocking the mouth of the rising working hole, is not removed and used as a face, and the camera is charged through a hole connecting the free space of the camera above the face with one of the adjacent mine workings.

 The disadvantage of this method is the very difficult sinking with a small blast drilling method of rising production from horizon to horizon with a floor collapse, which increases the complexity of generating an explosive charge.

 The closest in technical essence and the achieved effect is a method of generating an explosive charge in a riser for breaking ore (see RF patent 2166728, CL F 42 D 3/04, E 21 C 41/22, published in BIPM 13, 2001) , including sinking of the rising production by the blasting method, leaving the broken rock in the wellhead of this working and using it as a bottom hole, charging the cavity of the rising production with an explosive charge through the well from the overlying horizon, and the rising production is carried out by the successive sectional method in bursting of dispersed explosive charges in a set of wells drilled along the uphill development track with the remainder of the last section remaining in the upper part of the production of pillars with unexploded ends, and after releasing the broken rock to the boundary of the clogging, surveying of the resulting upward flow contour is conducted, using the unexploded ends of the wells of the last sections entirely, according to the results of this survey, the actually obtained sections of the rising production at various heights are determined and from them the lines of least resistance lye, then by calculation using these data, determine the values of the necessary dispersed explosive charges according to the height of the rising generation and the depth of their location, after which each of these charges is laid with the fighter placed in it through the unexploded ends of the wells of the last section entirely, and the gaps between these charges Explosives are filled with inert material and a network of militants is blown through them. The disadvantage of this method is the complexity of the formation of explosive charge in the riser with its changing cross section, the increased consumption of explosives due to the loss of explosives in the unevenness of the walls of the riser, washing away explosives with mine water in the ore mass, which worsens the detonation conditions, reducing the quality of ore crushing.

 The technical task of the proposed technical solution is to reduce the complexity of the formation of a mine explosive charge and improve the quality of ore crushing due to the complete detonation of explosives.

 The problem is solved as follows.

 A method is proposed for generating a hydroisolated mine charge of explosives in an upstream mine for breaking ore, including sinking of an upstream mine using the drilling and blasting method, leaving broken rock in the wellhead of this mine and using it as a face, charging the cavity of the upstream mine with explosive charges from overhead mine workings. At the same time, rebellious production is carried out by the method of sequential sectional blasting of dispersed explosive charges in a set of wells drilled along the uprising production route, and after the rock is discharged to the bottom of the stemming line, surveying is obtained of the obtained contour of the rebellious production, and the results of this survey determine the actually obtained sections of the rebellious production at various heights and along them - the line of least resistance. Then, by calculation, these data determine the values of the necessary dispersed mine explosive charges by the height of the rising mine, and these calculations determine the elevations in the rising mine of each mine explosive. Then a bookmark is made into the uprising of each of these mine explosive charges with a militant placed in it, and the gaps between these mine charges are filled with inert material and a network of blasting militants is laid through it. According to the technical solution, the mine charge is waterproofed in the cavity of the rebellious mine along its entire height, for which a flexible shell is installed over the rock bottom left from the penetration of the rebellious mine, fitting into the cross section of the passed riser mine, the dispersed mine charges defined by the calculation are laid in the flexible shell Explosives with militants placed in them, and the gaps between these mine charges in a flexible shell are filled with inert material, such as ash or sawdust, and through they are laying a network of blasting militants. With the formation of a waterproofing mine explosive charge in a flexible shell along the entire height of the uprising excavation, the indicated inert material is filled in the space between the outer surface of the flexible shell and the outline of the uprising excavation.

 The method of sinking uprising production by successive sectional blasting of dispersed explosive mine charges in a set of wells is known and widely used in mining practice for sinking ventilation uphill workings, vertical ore passages of compensation cavities in preparation of blocks for ore breaking. In all of the above cases, there are no requirements for the cross section and the walls of the mine due to the fact that the deviation of the actual circuit of the mine from the design does not affect the operation. Many years of experience show that the actual cross-section of production from the design can differ by two to three times or more. Moreover, the uprising produced by the above method has uneven walls with local cross-sectional extensions. Using such a mine to place explosive mine charges, knowing only the design data (design section, length and line of least resistance), is irrational, since a lot of explosives will be used up when filling in any deviations from the design section, which will lead to overuse of explosives and uneven crushing . In order to avoid this, the technical solution provides for surveying surveying the actual circuit of the obtained output by a special device. The device allows you to measure the size of the rising workings at different heights and get complete information about the configuration of the rising workings. The actual position of the walls is applied to the design contour of the mine and the actual line of least resistance is graphically determined at various heights (distance from the wall of the rising mine to the free surface).

 Determination by calculation of the magnitude of the dispersed mine charges of explosives by the height of the rising mine and the depth of their location ensures uniform distribution of these mine charges in the beaten ore mass, which will allow for high-quality crushing. Theoretical calculations determine the elevations in the rising production of each of these mine charges placed in a flexible shell that impedes the penetration of water. They carry out the laying of each of the dispersed mine charges of the explosives with the militant placed in it and fill the gaps between these mine charges with inert material through which the network of militants is blown up. With the formation of a waterproofing mine explosive charge in a flexible shell, the inert material is filled with the space between the outer surface of the flexible shell and the contour of the rebellious mine.

 The above together reduces the complexity of the penetration of rising production, simplifies the technology of formation of a mine explosive charge, allows the use of high-performance charging systems, which reduces the complexity of the formation of a waterproofing mine explosive charge. The gaps between the individual dispersed mine explosive charges are filled with inert material (for example, wood chips, ash, sand, etc.), which also increases the productivity of the formation of a waterproofing mine explosive charge in rebounding due to the use of mechanization for the delivery and laying of these inert materials .

 Pilot tests of the proposed method showed that the specific explosive consumption is reduced by 30% and high-quality ore crushing is achieved. At the same time, the volume of well drilling is reduced by a factor of 5, the laboriousness of the work on rearranging drilling rigs is reduced by 6–8 times, and the productivity of drillers is increased by 1.5 times. The productivity of explosives in preparation for the explosion of a technological unit is increasing.

 It is advisable to lay out a layer of waterproofing material from the rocks left from the penetration of the rising production, and the flexible shell to be made of a sealed film material, and after the formation of a waterproofing mine explosive charge in a flexible shell along the entire height of the rising production of pores in the specified inert material filling the space between fill the contour of the rising production and the outer surface of the flexible shell with water. This allows you to compact the bottom hole from the rocks from the penetration in the wellhead of the uprising, which prevents the penetration of explosive gases and shock air waves into the workings located in the bottom of the block, with an increase in the efficiency of the explosion.

 An example of the implementation of the method of formation in the uprising of a waterproofing mine explosive charge for ore breaking is shown in FIG. 12.

 In FIG. 1 shows a schematic diagram of the formation of a waterproofing mine explosive charge in an uprising mine — a vertical section, FIG. 2 - placement of a dispersed mine explosive charge in the estuary of the rising production.

 From the upper drilling horizon 1 (Fig. 1), a set of wells is drilled (not shown in Fig.) Until a cut-off 2 is generated along the track of the rising production 3.

 According to the well-known method, successive sectional blasting of dispersed explosive charges in a set of wells undergoes uprising 3. During blasting along the route of uprising, 3 part of the broken rock is left in the wellhead of this development 3 as a clog 4.

 After the release of the broken rock with a special device, the surveying survey of the resulting contour of the uprising mine 3 is conducted (the device and technology for this survey are not shown).

 As practice has shown, uprising mine 3, passed by successive sectional blasting of dispersed explosive charges, has uneven walls with local extensions, and each section obtained can have a 2-3 times larger area compared to the design.

According to the results of surveying, a section of the actual contour is made up - actually obtained sections at different heights of the uprising mine 3, combined with the face line 5, and W ₁ , W ₂ ... W _n are determined by it, the lines of least resistance (distance to the free surface) on different heights of the rising rebound 3.

According to known methods, the values of the necessary dispersed mine charges of 6 explosives (Q ₁ , Q ₂ ... Q _n ), their quantity, the height of these mine charges 6 and the depth of location (depths Q ₁ h ₁ , Q ₁ h ₂ ; Q ₂ h ₁ , Q ₂ h ₂ ... Q _n h ₁ , Q _n h ₂ ) for each of the explosive charges.

 A flexible shell 7 in the cavity of the rebellious mine 3, which fits into its cross section, is installed over the stem from rocks left from the penetration, and the dispersed mine charges 6 of the explosive are laid into the flexible shell 7 with known charging machines. The gaps between the explosive charges 6 of the mine, and also between the outer surface of the flexible shell 7 and the contour of the rebellious mine 3 are filled with inert material 8, which is used as sawdust, ash, sand, etc. An action gun 9 is installed in each of the mine explosives 6 (a bunch of high-explosive cartridges with a detonator). The militants 9 are connected by a blasting network 10 and brought to the upper drilling horizon 1. The militants 9 blasting network can be made with a detonating cord or electric wires with detonator caps.

 It is advisable to place the specified inert material 8, for example, from wet clay 3-5 m high, over the clogging 4 of the rocks left from the penetration of the uprising mine (Fig. 2), and fill the space between the circuit of the uprising mine 3 and the outer surface of the flexible shell 7 with water, which increases the efficiency of the mine explosive charge and improves the quality of crushing.

 The method provides uniform crushing of the rock mass at a minimum explosive consumption and reduces the complexity of the formation of a mine explosive charge by placing it in a waterproof shell of a given size, which ensures the completeness of explosive detonation (mine explosive charge is not exposed to water, which reduces explosive ability).

Claims (2)

 1. The method of formation in the upstream production of a hydroisolated explosive charge for breaking ore, including sinking the upstream production using the drilling and blasting method, leaving the broken rock in the wellhead of this mine and using it as a clogging, charging the cavity of the upstream production with explosive charges from the workings of an overlying horizon, this uprising is held by the method of sequential sectional blasting of dispersed explosive charges in a set of wells, samples mines along the track of the rising production, and after the release of the broken rock to the bottom of the bottomhole, surveying of the resulting contour of the rising production is carried out and the results of this survey determine the actually obtained sections of the rising production at different heights and the lines of least resistance from them, then determined by calculation from these data the values of the necessary dispersed explosive charges over the height of the rising production; according to these calculations, the altitude in the rising production of each o of explosive charges, then they carry out the laying up in the rebellious production of each of these explosive charges with a fighter placed in it, and the gaps between these charges are filled with inert material and a militant blasting network is laid through it, characterized in that the dispersed charge is waterproofed in the cavity rising workings over its entire height, for which they establish a flexible shell that fits into the section of the passed rising workings, carry out laying in a flexible shell up a crushed dispersed explosive charge and, as a hydroisolated explosive charge is formed in a flexible shell, the space between the outer surface of the flexible shell and the contour of the rebellion is filled with inert material along the entire height of the rebellion, while the broken rock left in the mouth of the rebellion is used in as the stemming, a layer of waterproofing inert material from clay is laid to increase the compaction of the stemming in the wellhead stagnant production and prevent the penetration of explosive gases and air shock waves into the workings located in the bottom of the block.  2. The method according to claim 1, characterized in that a layer of waterproofing material is laid on the bottom of the rocks left from the penetration of the uprising mine, and the flexible shell is made of a sealed film material, and after the formation of a waterproofing charge of the explosive in a flexible shell over the entire height rising pore production in the specified inert material filling the space between the circuit of the rising production and the outer surface of the flexible shell, filled with water.

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