UA15280U - Method for formation of borehole charge of explosive substance - Google Patents

Abstract

This utility model relates to the mining industry. A method of formation of borehole charge of explosive substance includes operations of lowering the means of initiation to the well, with placement of inert bodies at given sections of the well, with supply of explosive substance to the well with formation of column of charge with varying cross-section restricted by water-permeable elastic shell of the well, and installation of the filling. To increase the area with varying cross-section in the well and density of the blast power the well at prescribed sections is separated to long main and compensation cavities by means of inert body, this is arranged as a thin-wall partition with width equal to the chord common for the long cavities named. The thin-wall partition is formed of n-modules, those are rigidly connected to each other by split joints. Explosive substance is placed in the long main cavity, and the filling is placed in compensation cavity.

Description

Description of the invention

The useful model refers to the mining industry and can be used when charging 2 dry and watered wells.

A method of forming a well charge with an explosive substance is known according to the declaratory patent

Ukraine Mo 65180), INTERIOR 7 P4203/04; E21B 37/00 pr. 16.09.2004, publ. 16.05.2005 Byul.Mo5, 2005.|, which includes the operations of lowering the initiation means into the well, placing inert bodies in the specified areas of the well, feeding the explosive substance into the well with the formation of a charge column of variable cross-section, 10. limited by a waterproof elastic shell and plugging installation.

The closest in terms of the set of features and the expected technical result to the proposed method is the method of forming a well charge (according to the AS of USSR Mo1475296, МИЖ 4 Р4201/00), which includes the operations of lowering the initiation means into the well, placing inert bodies in specified areas of the well, supply of explosive substance into the well with the formation of a charge column of variable cross-section, limited by the 712 well and installation of plugging.

The general disadvantage of the above methods is that inert bodies, or wide and narrowed parts of a polyethylene sleeve, or garlands made of foam or wood are used to form a borehole charge of variable cross-section, which occupy the volume in the borehole charge of an explosive substance and in the places of contact of these volumetric of inert bodies with an explosive substance and the walls of the well, zones of such a shape are formed in which the cross-sectional areas of the charge approach the critical ones and in which the density of the explosion energy per unit surface area of the charge decreases and is insufficient for a complete chemical reaction of the explosion. As a result, the release of thermal energy decreases and the speed of detonation processes decreases, which leads to a decrease in the efficiency of the explosion and a deterioration in the quality of crushing the rock mass.

The useful model is based on the task of improving the method of forming a well charge with an explosive substance by increasing the area of a variable cross-section in the charge and the density of the explosion energy per unit surface area of the charge, increasing the speed of detonation processes and thereby increasing the efficiency of the explosion and improving the quality of crushing mountain mass.

The problem is solved by the fact that in the method of forming a well charge with an explosive substance, which includes lowering the means of initiation into the well, placing inert bodies in the specified areas of the well, or forming a charge with an explosive substance, limited by a waterproof elastic casing or with the well, installing plugging, according to a useful model, the well in the specified areas is divided into longitudinal main and compensatory cavities with the help of an inert body, which is made in the form of a thin-walled partition with a width equal to the chord common to the mentioned longitudinal cavities, while the thin-walled partition is created from n-modules, which are rigidly connected They are connected with a detachable connection, the explosive substance is placed in the longitudinal main cavity, and the filler is placed in the compensating cavity. --

A low-explosive explosive substance is placed in the longitudinal compensation cavity in the well.

The means of initiation are placed in the longitudinal compensation cavity in the well.

A thin-walled partition module is created by a set of longitudinal plates with fastening elements between them. "

The lower module of the thin-walled partition is closed from the end. With 70 Separation of the well in given areas into longitudinal main and compensatory cavities using an inert body made in the form of a thin-walled partition with a width equal to the chord common to

From" mentioned longitudinal cavities, and the creation of a thin-walled partition made of n-modules, which are rigidly connected to each other by a detachable connection, where the explosive substance is placed in the longitudinal main cavity, and the filler is placed in the compensation cavity, made it possible in the above-mentioned areas to form the surface of the column 49 of the cylinder-segmented explosive charge column, which led to an increase in the explosive charge of the cross-sectional area and the density of the explosion energy per unit area of the surface of the charge and due to this 4! increase the speed of detonation processes, increase the efficiency of the explosion and improve the quality of rock mass crushing. o The essence of the useful model is explained by the drawings, where: o 20 fig.1 - the formed well charge with an explosive substance without a waterproof elastic shell is shown; with Fig. 2 - a well charge with an explosive substance with a waterproof elastic shell;

Fig. 3 - well charge of an explosive substance in the cross section along A-A; Fig. 4 - borehole charge of explosive substance in the B-B section; 29 Fig. 5 - a well charge of an explosive substance in a cross section along S-S. c An example of the method.

An inert body is lowered into the well 1 on the suspension 2, with the help of which the given section C of the well 1 is divided into longitudinal main 4 and compensatory 5 cavities (see Fig. 1). Separation of the well 1 is achieved due to the fact that the inert body is made in the form of a thin-walled partition 6 with stops 7 under the wall of the well 1. The width of the thin-walled partition 6 is equal to the chord common to the longitudinal main 4 and compensation 5 cavities. A thin-walled partition 6 is created from n-modules 8, rigidly connected to each other by a detachable connection 9. This design solution allows dividing the cavity of the well 1 at the given sections З into two longitudinal cavities 4, 5, which have a cylindrical segmental shape. Depending on the given value of the chord, the width of the thin-walled partition could be increased in width. To do this, in the module 8, on both sides of its central plate 10 with the fastening elements of the detachable connection 11 in the form of a series of slots, the end plates 12 with the fastening elements in the form of corresponding protrusions are attached to the mentioned slots (not shown in the drawing). At the same time, the lower module of the thin-walled partition 6 is closed from the end.

In a similar way, depending on the height of the cavities 4, 5 of the cylindrical segment shape in the given area of the borehole 1, a thin-walled longitudinal partition 6 is formed by connecting n-modules 8 with the help of fastening elements 9 in the form of slots and corresponding protrusions, also made according to the edges of the wide side of the thin-walled partition 6.

After that, in the main cavity 4 of the well 1, the initiation means 13 and the waterproof elastic shell 14 are placed in the case of the watered well 1 (see Fig. 2). Next, the explosive substance 15 is fed into the 7/0 main cavity 4 of the well 1, or into the waterproof elastic casing 14.

As well 1 is filled with explosive substance 15, starting from the hole of well 1 to its mouth, a column of explosive charge of a cylindrical shape is formed first, and then at a given area C, a column of explosive charge of cylinder-segment shape is formed. The well charge is formed with explosives up to the upper level of the thin-walled partition 6. After that, packing 16 is fed into the compensating cavity 5. Depending on the physical and mechanical properties of the rock and the task of conducting blasting, the compensating cavity 5 in well 1 is filled with low explosive explosive substance, or initiation means are placed in it.

Claims (5)

The formula of the invention 1. The method of forming a well charge with an explosive substance, which includes the operations of lowering the initiation means into the well, placing inert bodies in the specified areas of the well, feeding the explosive substance into the well with the formation of a charge column of variable cross-section, limited by a waterproof ovepastic shell or well, and installing a plug, which differs in that the well is divided into longitudinal main and compensatory cavities in its specified sections with the help of an inert body, which is made in the form of a thin-walled partition with a width equal to the chord common to the mentioned longitudinal cavities, while the thin-walled partition is created from n-modules , which are rigidly connected to each other by a detachable connection, the explosive substance is placed in the longitudinal main cavity, and the plug is placed in the horizontal compensating cavity. 2. The method of forming a well charge with an explosive substance according to claim 1, which differs in that a low-explosive explosive substance is placed in the 89 longitudinal compensation cavity in the well. with 3. The method of forming a well charge with an explosive substance according to claims 1, 2, which differs in that initiation means are placed in the longitudinal compensation cavity in the well. is) 4. The method of forming a well charge with an explosive substance according to claims 1-3, which differs in that "- a thin-walled partition module is created by a set of longitudinal plates with fastening elements between them. 5. The method of forming a well charge with an explosive substance according to claims 1-4, which differs in that the lower module of the thin-walled partition is closed from the end. " - and? - 1 name) (ee) (42) 60 b5