RU2362114C2 - Method of charge de-concentration of exlosive material in borehole - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention refers to mining and can be implemented for charging boreholes at explosive operations. The method of de-concentration of charge of explosive material in a borehole consists in operations of forming lower portion of charge of explosive material in the borehole and in creating air interval above it by means of pneumatic borehole closure in form of a pressure tight ball-shaped chamber out of yielding material, which is introduced into the borehole and fixed at a specified depth. The pneumatic borehole closure is pumped with compressed air to a preset pressure with following sealing. Firing pins are installed in each part of charge of explosive material; further an explosive cord is arranged; an upper part of charge of explosive material is placed over the pneumatic borehole closure. Pumping and sealing are performed before introduction the closure into the borehole. A stop fixes the closure in the borehole at a preset depth; the stop is hung on a rope or is secured to a rod-shaped element. The pneumatic closure is introduced into the borehole under influence of gravitation forces.

EFFECT: invention facilitates reduction of labour intensiveness of method of boreholes charge; also it facilitates reduction of specific consumption of explosive material and its prime cost and improves quality of exploded rock.

5 cl, 1 ex, 2 dwg

Description

The invention relates to mining and can be used in blasting to charge wells.

A known method of charge dispersal in a well according to the application of Russia for invention No. 2005109617 A, MPK F42D 1/02 (2006.01), F42D 1/08 (2006.01), publ. 2006.09.10, including the operations of forming the lower part of the explosive charge in the well, creating an air gap above it with the help of the borehole shut from compliant material, which is introduced into the well and fixed at a given depth, installing militants in each part of the charge, mounting the detonating cord and placing above the borehole shutter of the upper part of the explosive charge.

The reason that impedes the achievement of the technical result is the complexity of the method, the low reliability of the shutter, which affects the quality of the formation of a dispersed charge. This is due to the fact that the well shutter used in the above method cannot close the well tightly, and the explosive can fill the air gap.

The closest analogue to the claimed utility model in terms of features and expected technical result is the method of charge dispersal in a well according to the Russian patent for invention No. 2235971 C1, F42D 1/02, F42D 1/08, publ. 2004.09.10, including the operation of forming the lower part of the explosive charge in the well, creating an air gap above it with the help of a pneumatic well shutter in the form of a sealed spherical chamber from malleable material, which is introduced into the well and fixed at a given depth, pumping the pneumatic shutter with air to a predetermined pressure with its subsequent sealing, installation of fighters in each part of the charge, mounting of the detonating cord and placing the top over the pneumatic borehole shutter th part of the explosive charge.

The reason that impedes the achievement of the technical result is that a mobile source of compressed air and equipment for connecting it are used to create pressure in the sealed spherical chamber, which complicates the process of operational use of the device for sealing and creating air gaps in the borehole explosive charge.

The above devices are unacceptable for use in hard-to-reach places, as well as in emergency rescue operations, where there is no possibility for connecting and deploying means for supplying compressed air, which limits its use.

In addition, the complexity of the method leads to the deviation of individual parameters of the parts of the explosive charge and air gaps in the borehole distributed charge from the design, i.e. given. This negatively affects the quality of preparation of blasted rock mass.

The basis of the invention is the task to improve the method of dispersing the explosive charge in the well by changing the sequence of operations and means for their implementation, to simplify the creation of air gaps, to increase the accuracy of charge formation according to the specified parameters and, thereby, reduce the complexity of the method of charging wells with dispersed charges, reduce specific consumption of explosives, reduce production costs and improve the quality of blasted rock mass.

The problem is solved in that in the method of dispersing the explosive charge in the well, including the operation of forming the lower part of the explosive charge in the well, creating an air gap above it with the help of a pneumatic borehole shutter in the form of a sealed spherical chamber from malleable material that is introduced into the well and fixed at a given depth, inflating the pneumatic borehole shutter with air to a predetermined pressure, followed by its sealing, installing militants in each part of the explosive charge, mounting the detonating cord and placing the upper part of the explosive charge over the pneumatic well shutter according to the invention, the pneumatic well shutter is pumped and sealed before it is entered into the well, it is fixed in the well at a predetermined depth by means of an abutment that is suspended on a rope or strengthened on a rod-shaped element, while the pneumatic shutter is introduced into the well under the action of gravitational forces.

At the same time, the pneumatic well shutter is pumped with air until the diameter reaches not more than (0.9-0.95) of the diameter of the well.

As a pneumatic shutter, industrial balls are used.

As an emphasis on the pneumatic well shutter, waste is used in the form of plastic containers with a length of at least the diameter of the well.

The length of the rod-shaped element is taken not less than the length of the air gap.

The compressed air pumping of a pneumatic borehole shutter and its sealing before its entry into the borehole under the action of gravitational forces has simplified the method of creating a gap between explosive charges and increased the operational reliability of the shutter, which eliminated the penetration of explosive into the said gap, reduces the specific consumption of explosive, cost price and improve the quality of blasted rock mass.

The method is illustrated by drawings, where:

figure 1 - presents the borehole charge dispersed by the air gap, in which a plastic bottle suspended on a rope is used as a stop;

figure 2 - presents the borehole charge dispersed by the air gap, in which a plastic bottle attached to a rod-shaped element is used as an abutment.

An example of a method for dispersing explosive charge in a well.

The gun 2 is lowered into the well 1 to a predetermined depth. After that, the lower part of the explosive charge 3 is formed to a predetermined depth. Then, in the well 1, at a predetermined depth, they are suspended on a rope 4 or on a rod-shaped element 5 taken at least from the height of the air gap, 6 in the form of a plastic bottle with a length of at least the diameter of the well, which is placed across the well 1.

The pneumatic borehole shutter 7 in the form of a sealed spherical chamber with a nipple 8 is pre-pumped with compressed air to a predetermined pressure, in particular up to 2 atm, at which the diameter of the chamber reaches a diameter of not more than (0.9-0.95) of the diameter of the borehole 1, and seal it by means of the nipple 8. In this case, as the pneumatic well shutter 7, it is possible to use industrial balls pumped with compressed air to a predetermined pressure and a diameter of not more than (0.9-0.95) of the diameter of the well 1. Then pumped with compressed air to Pneumatic downhole valve 7 annogo pressure drop and the diameter of the borehole 1, which is under the influence of gravitational forces is lowered into the wellbore 1 until they reach the stop 6. After that further advancement downhole pneumatic shutter 7 along the well 1 terminates. After self-installing a pneumatic borehole shutter 7 in the well 1, the next fighter 2 is lowered onto it and the upper part of the explosive charge 9 is formed to a predetermined depth. In this case, the part of the well between the parts of the explosive charge 3, 9 remains free of the explosive charge, i.e. there remains an air gap 10. In the process of forming the upper part of the explosive charge 9, the pneumatic borehole shutter 7, in cooperation with the stop 6 and under the action of the explosive charge mass 9, is deformed and takes on a shape close to an ellipse with a diameter exceeding the diameter of the borehole 1, the bursting forces of which in the walls of the well 1 ensure its fixation and increase operational reliability.

The subsequent creation of the air gap 10 and the formation of parts of the explosive charge is carried out in a similar way. The alternation of air gaps 10 with explosive charges is carried out to an economically and technically sound amount in the well 1. Part of the well 1 above the last part of the explosive charge remains under the clog 11, which is driven in the final stage.

Claims (5)

1. A method for dispersing an explosive charge in a well, including the steps of forming a lower portion of an explosive charge in a well, creating an air gap above it with a pneumatic borehole shutter in the form of a sealed spherical chamber from a malleable material that is introduced into the well and fixed at a predetermined depth, pumping a pneumatic downhole shutter with compressed air to a predetermined pressure followed by its sealing, installing militants in each part of the explosive charge mounting the detonating cord and placing the upper part of the explosive charge over the pneumatic borehole shutter, characterized in that the pneumatic borehole shutter is pumped with compressed air and sealed before it enters the borehole, it is fixed in the borehole at a given depth by means of an abutment that is suspended on a rope or strengthened on a rod-shaped element, while the pneumatic shutter is introduced into the well under the influence of gravitational forces. 2. The method according to claim 1, characterized in that the pneumatic well shutter is pumped with air until a diameter of not more than 0.9-0.95 of the diameter of the well is reached. 3. The method according to any one of claims 1 and 2, characterized in that industrial balls are used as a pneumatic shutter. 4. The method according to claim 1, characterized in that as an emphasis on the pneumatic well shutter, waste is used in the form of plastic containers with a length not less than the diameter of the well. 5. The method according to claim 1, characterized in that the length of the rod-shaped element is taken not less than the length of the air gap.

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