RU2133007C1 - Process of charging of holes going down for sparing explosion and device for its implementation - Google Patents

Abstract

FIELD: mining and construction industry, sparing blasting while excavating valuable crystal starting material, working of benches of quarries. SUBSTANCE: characteristic feature of process consists in anchoring of water-tight end of polyethylene hose placed into flooded or dry holes near bottom by means of parachute-catch, in feed of emulsion explosive with gas- generating additive in amount enabling density of explosive in hose to be diminished to (0,4÷0,8)•10³ kg/m³. EFFECT: increased efficiency of blasting operations while excavating valuable crystal starting material. 11 cl, 3 dwg

Description

 The invention relates to the field of mining and construction, in particular to gentle methods of blasting wells, and can be used to eject the ledges during the extraction of valuable crystal raw materials, when it is necessary to reduce the crushing effect of charges on the surrounding rock.

 There is a method of gentle blasting of wells, according to which, when charging wells, they reduce the density of explosives in the well due to special charge designs, creating radial gaps and passive screens between the charge and the wall of the well, and also by introducing special additives that reduce the density of explosives when loading (see "The effect of an explosion in soils and rocks", Materials of the All-Union Scientific Conference, Kiev, "Naukova Dumka", 1982, pp. 240-247).

 However, the known methods require increasing labor costs when loading wells with special charge designs, and, in addition, their scope is limited, since they are suitable for loading dry, non-watered wells.

 A device is known for charging descending waterlogged wells, including a sleeve sealed at one end, the second end of which is fixed at the wellhead with the possibility of feeding into the cavity of the BB sleeve, under the weight of the column of which the sleeve is lowered into the flooded well (see US Pat. No. 3,696,703, class F 42 D 1/00, 1972).

 However, the known device involves the use when loading explosives, the density of which exceeds the density of water, to ensure the flooding of the sleeve in the well. Therefore, the known device for sparing blasting waterlogged wells is not applicable, because crushing of the rock through the aquatic environment will take place.

 The objective of the present invention is to develop a gentle method of blasting dry and flooded wells, combining the use of low-density explosives with the possibility of loading flooded wells into a sleeve, which will increase the efficiency of blasting operations in the extraction of valuable crystalline raw materials, as well as for mowing ledges quarries.

The problem is achieved in that in the known method of sparing blasting of wells, according to which, when loading, the density of explosives in the well is reduced due to the formation of radial gaps between the explosive charge and the wall of the well, as well as the addition of additives to the explosive composition. For loading wells, a sleeve sealed at one end is used, at one end of which a load is fixed, the sleeve is lowered by means of the load into the well and the sleeve is fixed in the well, after which an emulsion explosive is introduced into the sleeve, including an additive that reduces the loading density to (0.4 - 0.8) • 10 ³ kg / m ³ .

 The task is achieved in that the sleeve is made of polyethylene, and to ensure a gap between the charges and the wall of the well, the diameter of the sleeve is 0.4 - 0.8 of the diameter of the well.

 The problem is also achieved by the fact that as an emulsion explosive additive, a gas generating additive (GHD) is used.

 The problem is achieved by the fact that the sleeve is centered in the wellhead, and also by the fact that the sleeve is completely filled with an emulsion explosive or the upper wellhead of the sleeve is not charged and the hole is jammed for the length of the undercharge of the explosive in the sleeve.

This object is achieved by the fact that in the known device for loading downhole wells, including a sleeve sealed at one end, the second end of which is fixed at the wellhead with the possibility of feeding into the cavity of the sleeve of the explosive, to hold the sleeve with a low-density explosive in the flooded well, it is equipped with a seal on the sealed the end of the sleeve with a load and a fixing device, which is made, for example, in the form of a parachute-retainer having the shape of a hollow truncated cone with a serrated rim of a larger base, whose diameter is ≥ 1.1 of the diameter of the well, and the taper angle is ≤75 ^o .

 The task is also achieved by the fact that the parachute-retainer is made of polyethylene, and the load is placed under the parachute-retainer and is connected to the sleeve via a cord passing through the smaller base of the parachute-retainer.

 The invention is illustrated by drawings, where in FIG. 1 shows a device for implementing the blasting method; in FIG. 2 shows the moment when the emulsion explosive is fed into the sleeve cavity; FIG. 3 shows a charged well with a stem.

A device for implementing the method of gentle blasting of downhole wells (see Fig. 1) includes a polyethylene sleeve 2 attached to the wellhead 1 by means of a device 3, a load 6 and a fixing device made in the form of a parachute-retainer 5 are mounted on the hermetically sealed end of the well, having a hollow truncated cone shape with a toothed rim of a larger base, the diameter of which is ≥ 1.1 of the diameter of the well and the taper angle is ≤ 75 ^o . The parachute - retainer 5 is made of polyethylene, and the load 6 is placed under the parachute-retainer 5 and connected by a polyethylene sleeve 2 through a cord passing through the smaller base of the parachute-retainer 5.

 The method of gentle blasting of descending dry and flooded wells is implemented as follows.

At the end of the sealed polyethylene sleeve 2, the load 6 and the fixing device 3 for securing the sleeve 2 are secured by a cord or in another way, and the sealed end of the sleeve 2 with the parachute-retainer 5 fixed on it and placed under the last load 6 is lowered into the well filled with water 4. After cargo 6 and parachute-retainer 5 reach the bottom of the well, a low-density emulsion explosive 7 (see Fig. 2) with a gas-generating additive (GGD) in an amount that reduces the initial tight explosive in a polyethylene sleeve 2 to (0.4 - 0.8) • 10 ³ kg / m ³ . With a decrease in the density of the explosive, the charge will rise along the polyethylene sleeve 2, and the parachute-retainer 5 will hold the lower end of the sleeve with the explosive charge at the bottom of the well, due to its design at any value of the final density of the emulsion explosive in the sleeve. In this case, the parachute-retainer 5 is designed for pulling forces of up to 300 kg or more, and the maximum charge mass in the well can be up to 500 kg with a minimum explosive charge density of 0.4 • 10 ³ kg / m ³ . When loading, the polyethylene sleeve 2 will tend to float, and thus a condition is created for the minimum contact of the sleeve with the walls of the well, i.e. the diameter of the sleeve can be 0.4 to 0.8 of the diameter of the well. When loading the well, the upper protruding part of the polyethylene sleeve 2 can be centered in the wellhead by any known method, and the charge when charging can reach the wellhead or the upper wellhead of the sleeve is not charged, leaving a section of the well 2 m or more free or this section can be loaded fill with clogging 8 (see Fig. 3), which is made of sand or small rock.

 After loading the well with an emulsion explosive and completing the action of the gas generating additive to reduce its density to a predetermined value, an explosion is performed. By reducing the density of explosives in the sleeve and the radial gap between the sleeve and the wall of the well, a sparing explosion effect is achieved, both with conventional crushing charges and when using charges in contour wells for smooth blasting.

Claims (11)

1. The method of loading downhole wells for gentle blasting, according to which, when loading, the density of explosives in the well is reduced due to the formation of radial gaps between the explosive charges and the wall of the well, as well as the addition of additives to the composition of explosives, characterized in that a sleeve is used to load the wells at one end of which the load is secured, the sleeve is lowered by means of the load into the well and the sleeve is fixed at the bottom of the well, after which an emulsion explosive is introduced into the sleeve, including an additive that reduces the loading density to (0.4-0.8) • 10 ³ k g / m ³ .  2. The method according to claim 1, characterized in that the sleeve is made of elastic material.  3. The method according to p. 1 or 2, characterized in that in order to provide a gap between the charge and the wall of the well, the diameter of the sleeve is 0.4-0.8 of the diameter of the well.  4. The method according to claim 1, characterized in that as an additive for an emulsion explosive, a gas generating additive (GHD) is used.  5. The method according to any one of claims 1 to 3, characterized in that the sleeve is centered in the wellhead.  6. The method according to claim 1, characterized in that the sleeve is completely filled with an emulsion explosive.  7. The method according to claim 1, characterized in that the upper wellhead portion of the sleeve is not charged.  8. The method according to p. 1 or 7, characterized in that they carry out the stemming of the well for the length of the undercharge of explosives in the sleeve. 9. A device for charging downhill wells, including a sleeve sealed at one end, the second end of which is fixed to the wellhead with the possibility of feeding into the cavity of the sleeve of the explosive, characterized in that for holding the sleeve with a low-density explosive in the flooded well, it is equipped with fastened to the sealed end of the sleeve cargo and fixing device, which is made in the form of a parachute-retainer, having the shape of a hollow truncated cone with a rim of a larger base, the diameter of which is greater than or equal to 1.1 diameters Azhinov and taper angle ≤75 ^o.  10. The device according to claim 9, characterized in that the parachute-retainer is made of solid material.  11. The device according to claim 9, characterized in that the cargo is placed under the parachute-retainer and connected to the sleeve via a cord passing through the smaller base of the parachute-retainer.

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