RU2285230C1 - Blast initiator for blasting of industrial explosives (modifications) - Google Patents

Abstract

FIELD: blast initiators designed for initiation of deep-hole, blast-hole and other charges of low-sensitive industrial explosives at blasting in all climatic regions of Russia and the CIS countries.

SUBSTANCE: the means of initiation are disposed in longitudinal lateral slots of the polymeric case or in longitudinal lateral slots and annular grooves of the polymeric case. The thin-walled polymeric cylinder is made with rounded-off edges in the bottom part getting onto the bottom part of the polymeric case. The diameter of the hemisphere of the bosses of the thin-walled polymeric cylinder equals half the height of the lower annular groove of the polymeric case, and they in pairs are shifted to half the height of the lower annular groove so that the longitudinal slots of the thin-walled polymeric cylinder enter the longitudinal lateral slots of the polymeric body and press the means of initiation against the polymeric case over their entire length, molding or grain, or hydrogen containing explosives are used as explosives. For blast initiator 2-the height of the polymeric case of the intermediate detonator from the cover to the upper annular groove makes up 0.3 to 0.6 of the overall height of the polymeric case. The cover of the polymeric case is made with lugs, whose diameter of the described circumference is larger than the diameter of the rising hole, and with a branch pipe whose outside diameter corresponds to the diameter of the charging hose. The polymeric thin-walled cylinder and the lower part of the polymeric case from the upper annular groove are similar to modification 1.

EFFECT: enhanced efficiency of blasting due to enhanced reliability and safety of initiation of low-sensitive industrial explosives of hole and well charges, expanded source of raw materials for production of detonating blocks and fields of their use.

10 cl, 21 dwg, 2 tbl

Description

The invention relates to militants designed to initiate borehole, boreholes and other charges from low-sensitivity industrial explosives, including granular, emulsion and water-containing ones, with temperatures when loading wells up to 85 ° C, during blasting in all climatic regions of Russia and the CIS countries.

Action - an intermediate detonator of explosives (BB), connected to the initiator of the explosion, capable of causing detonation of a hole or borehole charges from low-sensitivity industrial explosives [1].

The designs of the militants are distinguished by the type of intermediate detonator (checkers-detonators, explosive cartridges, etc.) and by means of initiation that ensure stable detonation of the charge of industrial explosives. Non-electric initiation systems such as Nonel, Edilin, SINV and their analogs, detonating cords or various electric detonators can be used as blasting means for initiating explosive substances of an intermediate detonator.

Fighters are known in which molten waterproofing TNT, TNT-hexogen checkers-detonators with a central channel are used as intermediate detonators [2, 3], which are initiated from a detonating cord or from a detonator capsule. Known checker-detonator in a polymer case, made of a mixture of TNT and highly dispersed heating elements, having a through channel and a socket for mounting initiation means [4]. Known contact intermediate detonator, consisting of a standard detonator "Prokor 5", placed in a plastic shell, into the through channels of which pass a piece of tube "Nonel". A through channel is made in the peripheral part of the housing for passing the detonating cord [5]. Known checker-detonator, the body of which consists of two parts, filled with different explosives - pentolite and TNT [6]. However, fighters made on their basis have an increased risk of chemical interaction with aggressive rocks and downhole waters, insufficiently high thermal resistance and mechanical strength, limited water resistance, since part of the surface of the explosive of the detonator-detonator and the surface of the initiation means are not protected from external influences , which can lead to failure of downhole charges from explosives. Known checker-detonator of bulk explosives placed in a sealed polymer case. The housing is made in the form of a cylindrical container with a lid, with lateral longitudinal grooves for accommodating initiating means and annular grooves for fasteners, for example rubber rings (7). The disadvantages of this checker-detonator are the low reliability of fastening the checker-detonator with means of initiation and the insecurity of the means of initiation from mechanical stress.

Known action film, consisting of a thin-walled cylinder of polymer material with 4 hemispherical protrusions equally spaced from each other on the inner surface of the thin-walled polymer cylinder located at a height corresponding to the lower annular groove of the polymer body of the intermediate detonator, with 4 diametrically located R-shaped through end cutouts connected in pairs with a jumper with spikes on its outer and inner surfaces; inside which the polymer body of the intermediate detonator is inserted, made with a bottom cumulative recess, lateral longitudinal grooves, annular grooves and filled with loose or plastic highly sensitive explosive material, covered by a lid through a gasket-seal, and initiating means placed in the longitudinal side grooves of the polymer case, that the hemispherical protrusions of the thin-walled polymer cylinder enter the lower annular groove of the polymer casing of the intermediate detonate pa, and the internal spikes of the jumper of the R-shaped end cutouts of the thin-walled polymer cylinder press them in longitudinal grooves to the polymer casing of the intermediate detonator (8), adopted by the authors as a prototype.

The disadvantage of this prototype action movie is the insufficiently reliable (point) fastening of the initiation means with the polymer body of the intermediate detonator, since the spikes are 0.2 times the height of the thin-walled polymer cylinder, the possibility of slight movement of the thin-walled polymer cylinder relative to the polymer body in the axial direction, since the centers are hemispherical protrusions and annular grooves coincide, limited explosives used to fill the polymer body and styles of using militants.

An object of the invention was to increase the efficiency of blasting operations by improving the reliability and safety of initiating low-sensitivity industrial explosives of boreholes and borehole charges, expanding the raw material base for the production of detonator drafts and areas of their use.

The technical problem was solved by the development of an action movie and its variant, consisting of an intermediate detonator made in the form of a polymer body filled with explosive, with longitudinal side grooves, annular grooves and a lid, with initiating means installed inside a thin-walled polymer cylinder made with two opposite side cylinders grooves, with four hemispherical protrusions equidistant from each other on its inner surface, located at a height, respectively vuyuschey lower annular groove housing an intermediate polymer detonator, wherein

- option 1 - initiating means are placed in the longitudinal side grooves of the polymer body or in the longitudinal side grooves of the polymer body and the annular grooves of the polymer body, the thin-walled polymer cylinder is made with rounded edges in the bottom that extend to the bottom of the polymer body, while the hemisphere diameter of the protrusions of the thin-walled the polymer cylinder is equal to half the height of the lower annular grooves of the polymer casing, and they are pairwise offset by half the height of the lower annular grooves, thus then the longitudinal grooves of the thin-walled polymer cylinder are included in the longitudinal side grooves of the polymer body and press the initiation means along their entire length to the polymer body, in this case, injection or bulk or water-containing explosive compositions are used as explosive.

- option 2 - the height of the polymer casing of the intermediate detonator from the cover to the upper annular groove is 0.3-0.6 of the total height of the polymer casing, the cover of the polymer casing is made with petals, the diameter of the circumference of which is larger than the diameter of the rising hole or well, and is equipped with a pipe, the outer diameter of which corresponds to the inner diameter of the hose for pneumatic loading of explosives; initiation means are located in the longitudinal side grooves of the polymer body or in the longitudinal side grooves of the polymer body and the annular grooves of the polymer body, the thin-walled polymer cylinder is made with rounded edges in the bottom part extending to the bottom of the polymer body, the hemisphere diameter of the protrusions of the thin-walled polymer cylinder is half the heights of the lower annular grooves of the polymer casing, and they are pairwise offset by half the height of the lower annular grooves, so that the longitudinal The grooves of the thin-walled polymer cylinder enter the longitudinal lateral grooves of the polymer case and press the initiation means along their entire length to the polymer case, in which case, injection or loose, or water-containing explosive compositions are used as explosive.

As injection explosive compositions are used injection explosive mixtures containing TNT and RDX or TNT and TEN in any ratio; or a combined explosive mixture of granular explosive composition, the free volume between the granules of which is filled with any injection explosive composition. As bulk explosive compositions, powdered and / or granular explosives based on RDX and / or TNT can be used. Emulsion explosive mixtures may be used as water-containing explosives.

The need for two options is due to the large difference in the diameters of the charged wells and holes, loading conditions and blasting. The fighter of option 2 is used for blasting industrial explosives in a hole or a well, mainly in underground mining of rocks and loading in a pneumatic way.

The invention is illustrated in figures 1-16.

Figure 1 is a view of a thin-walled polymer cylinder.

Figure 2 is a view of a thin-walled polymer cylinder with a polymer casing filled with explosives placed therein for an action movie of option 1.

Figure 3 - installation diagram of the detonating cord on the polymer casing of the intermediate detonator.

Figure 4 - view of the action movie of option 1 with the means of initiation - detonating cord.

Figure 5 - installation diagram of a non-electric detonator with a waveguide on the polymer casing of the intermediate detonator of the fighter of option 1.

6 is a view of the action movie of option 1 with the means of initiation - non-electric detonator with a waveguide.

Fig. 7 is a mounting diagram of a non-electric detonator of the EDZI type on the polymer casing of an intermediate detonator.

Fig. 8 is a view of an action movie of embodiment 1 with an initiation means - a non-electric detonator of the EDZI type.

Fig.9 is a view of the action movie of option 1 with a means of initiation - SINV system.

Figure 10 - flow chart of the fighter of option 1 into the well at the detonating knot double knit.

11 is a view of the polymer shell of an intermediate detonator of an action movie of option 2.

12 is a view of a thin-walled polymer cylinder for an action movie of option 2.

Fig. 13 is a view of a thin-walled polymer cylinder with a polymer body housed therein for an action movie of embodiment 2.

Fig - view of the action movie of option 2 with the means of initiation - non-electric detonator with a waveguide.

Fig - installation diagram of a non-electric detonator type EDZI on the polymer casing of an intermediate detonator for the fighter of option 2.

Fig is a view of the action movie of option 2 with the initiation means - non-electric detonator type EDZI.

Designations (for all figs.):

1 - thin-walled polymer cylinder;

2 - a rounded edge in the bottom of a thin-walled polymer cylinder;

3 - lateral longitudinal groove;

4 - hemispherical protrusions;

5 - lower annular groove of the polymer body;

6 - polymer casing of the intermediate detonator;

7 - explosive intermediate detonator;

8 - the upper edge of the lower annular grooves of the polymer body;

9 - the lower edge of the lower annular grooves of the polymer body;

10 - detonating cord;

11 - loop detonating cord;

12 - node detonating cord;

13 - non-electric detonator;

14 - waveguide;

15 - electric detonator;

16 - hole ferrite ring;

17 - ferrite ring;

18 - blasting wire;

19 - loop blasting wire;

20 - upper annular groove of the polymer body;

21 - waveguide tube;

22 - low energy detonating cord;

23 - double knit loop;

24 - cover petals;

25 - a cover of a polymer case;

26 - pipe.

d _p - the diameter of the hemispherical protrusion, mm;

h is the height of the lower annular grooves of the polymer body of the intermediate detonator, mm;

D is the outer diameter of the petals is the diameter of the circumscribed circle,

d is the outer diameter of the nozzle is the inner diameter of the hose for pneumatic charging;

N is the height of the polymer shell of the intermediate detonator from the cover to the upper annular groove;

N _total - the total height of the polymer shell of the intermediate detonator.

A thin-walled polymer cylinder 1 (Fig. 1) with a wall thickness of 1-3 mm is made with rounded edges 2 in the bottom part, with two opposite longitudinal longitudinal grooves 3, with four hemispherical protrusions 4 equally spaced from each other on its inner surface, located on the height corresponding to the lower annular groove 5 of the polymer housing of the intermediate detonator. The hemisphere diameter (d _p ) of the thin-walled polymer cylinder is equal to half the height (0.5 h) of the lower annular groove of the polymer shell of the intermediate detonator.

The polymer case 6 of the intermediate detonator, filled with explosive 7, is placed in a thin-walled polymer cylinder 1 (figure 2). The lateral longitudinal grooves 3 of the polymer body and the thin-walled polymer cylinder coincide and prevent the polymer body from moving relative to the thin-walled polymer cylinder in the radial direction. The hemispherical protrusions 4 of the thin-walled polymer cylinder 1 are located between the upper 8 and lower 9 edges of the lower annular groove 5 of the polymer body 6, which prevents the polymer body from moving in the axial direction relative to the thin-walled polymer cylinder.

Figure 3-8 shows the installation methods of various types of means of initiation and the fighters of option 1 with their use.

Figure 3 presents the installation diagram of the detonating cord on the polymer casing of the intermediate detonator. The detonating cord 10 extends along the bottom of the polymer case 6, two longitudinal side grooves 3 with loops 11 in the upper 20 and lower 5 ring grooves of the polymer case 6, the ends of the detonating cord are connected to a node 12 above the cover of the polymer case.

The polymer case 6, filled with explosive, with the means of initiation - detonating cord is inserted into a thin-walled polymer cylinder 1 with the alignment of the lateral longitudinal grooves 3 (figure 4).

Figure 5 presents the installation diagram of non-electric detonators with waveguides on the polymer casing of the intermediate detonator. Two non-electric detonators 13 with waveguides 14 (main and backup), one by one, are stacked in opposite longitudinal side grooves 3 of the polymer body 6, waveguides 14 of which extend along the bottom and side longitudinal groove of the polymer body. The polymer body 6 with the initiation means is inserted into a thin-walled polymer cylinder 1, the lateral longitudinal grooves 3 of which press the electric detonators to the polymer body, the ends of the waveguides 14 are brought out (Fig.6).

Figure 7 shows the installation diagram of the non-electric detonators of the EDJI type on the polymer casing of the intermediate detonator. One electric detonator 15, in the holes 16 of the ferrite ring 17 of which the blast wire 18 is passed, is laid down in the longitudinal side grooves of the polymer case with the ferrite rings downward, the blast wire 18 encircles the upper ring groove 20 of the polymer case with loops 19.

The polymer body 6 with the initiation means is inserted into the thin-walled polymer cylinder 1 so that the side grooves 3 of the thin-walled polymer cylinder and the polymer body coincide. The gunman is lowered into the well on an assembly blasting wire 18 (Fig. 8).

Figure 9 shows an action movie with an initiation tool — the Edilin system or SINV (a non-electric detonator with a segment of a shock wave tube (waveguide) and a low-energy detonating cord). Installation diagram: a non-electric detonator 13 is placed in a lateral longitudinal groove 3 of the polymer body 6, the waveguide 14 of which passes along the bottom and the opposite longitudinally located second longitudinal side groove 3 of the polymer body 6 and is closed by a plug 21. A thread is passed along the longitudinal side groove where the waveguide 14 is located low-energy detonating cord 22, on which the fighter descends into the well to the required depth. Several fighters can be placed on one string of a low-energy detonating cord in a well. The low-energy detonating cord does not detonate the explosive borehole charge and the explosive of the intermediate detonator and transmits an initiating pulse to the shock wave tube causing the explosion of a non-electric detonator, from which the detonator of the intermediate detonator originates. Non-electric detonators can be instantaneous or short-delayed, which allows the claimed fighters to be used to instantly initiate explosive charges in a well or to initiate dispersed parts of an explosive charge.

Figure 10 shows the action movie of option 1, lowered into the well on a double knitting detonating cord 23 formed by loops of the waveguide 14 and detonating cord 10.

Figure 11 shows a view of the polymer case of the intermediate detonator of the action movie of option 2, in which the height (H) of the polymer case of the intermediate detonator from the cover to the upper annular groove is 0.3-0.6 of the total height (N _total ) of the polymer case, cover 25 the polymer case is made with petals 24, the diameter (D) of the circumscribed circle of which is larger than the diameter of the rising hole or well, and is equipped with a nozzle 26, the outer diameter (d) of which corresponds to the inner diameter of the hose for pneumatic loading of explosives.

On Fig shows a view of a thin-walled polymer cylinder for the action movie of option 2, the design of which is similar to the design of a thin-walled polymer cylinder for the action movie of option 1 (figure 1).

Figure 13 shows the placement of the polymer shell 6 of the intermediate detonator, filled with explosive 7, in a thin-walled polymer cylinder 1 for the fighter of option 2, which is similar to option 1. The lateral longitudinal grooves 3 of the polymer case 6 and the thin-walled polymer cylinder 1 are the same.

On Fig-16 shows the installation methods of various types of means of initiation and the fighters of option 2 with their use.

On Fig presents a fighter, consisting of a polymer shell of an intermediate detonator filled with explosive, and means of initiation - non-electric detonator with a waveguide inserted in a thin-walled polymer cylinder. The installation diagrams of the non-electric detonator 13 with the waveguide 14 on the polymer casing 6 of the intermediate detonator for the fighters of options 1 and 2 are similar.

On Fig presents a diagram of the installation of non-electric detonators type EDZI on the polymer casing of the intermediate detonator of the fighter of option 2, which is similar to the installation of such non-electric detonators for fighters of option 1.

Figure 16 shows the action movie of option 2 - the polymer case 6 with the initiation means is inserted into the thin-walled polymer cylinder 1 so that the longitudinal side grooves 3 of the thin-walled polymer cylinder and the polymer case coincide, thereby the detonators are pressed against the groove of the polymer case along their entire length. The gunman is lowered into the well on an assembly blasting wire 18.

The procedure for forming a borehole or borehole charge using the fighters of option 2: on the pipe 26 the end of the hose for pneumatic charging is put on, with which the fighter is fed to the set length of the borehole, for example, uprising - directed vertically or obliquely upwards, after which explosive is fed through the hose with gradual pulling the hose, while the fighter on the set length of the hole is fixed and held in the hole due to the petals 24 of the cover 25 of the polymer case 6.

The general procedure for manufacturing an action movie according to options 1 and 2: after filling the polymer case with explosive, the polymer case is closed by a lid. In the grooves of the polymer body are placed means of initiation. The thin-walled polymer cylinder is mounted on the housing with initiation means so that the grooves of the polymer case and the thin-walled polymer cylinder coincide, which ensures a tight fit of the initiation means along their entire length to the polymer case of the intermediate detonator, and the hemispherical protrusions of the thin-walled polymer cylinder are located between the upper and lower edges the lower annular grooves of the polymer casing, which prevents the movement of a thin-walled polymer cylinder flax polymer housing axially. The combined grooves of the polymer body and the thin-walled polymer cylinder, the hemispherical protrusions of the thin-walled polymer cylinder fix the constancy of the position of the polymer case relative to the thin-walled polymer cylinder in axial and radial directions.

The action must be located in the hole and in the borehole so that the cumulative recess of the bottom coincides with the direction of propagation of detonation in the explosive charge.

The use of a wide range of industrial explosives with high sensitivity to the initiating impulse - injection, granular, water-containing explosive as a filler for an intermediate detonator, expands the raw material base for the production of intermediate detonators and the claimed fighters based on them. The tight polymer case of the intermediate detonator, inserted into a thin-walled polymer cylinder, provides high explosion safety and reliability of the militant when breaking rocks of any strength in a wide temperature range of application (from minus 60 to plus 85 ° C) when charging blast holes and boreholes with any explosives, including number and hot; and also allows the use of the claimed militants for loading waterlogged wells with acidic and alkaline downhole waters, differentially designing blasting operations depending on the strength and watering of rocks, such as industrial explosives used to charge wells.

The use of militants with a large contact surface when initiating low-sensitivity industrial explosive mixtures makes it possible to ensure a steady state of their detonation due to the high detonation pressure, which increases with an increase in the energy intensity of the explosive aggregate of the intermediate detonator. The presence of bottom and lateral cumulative recesses of the intermediate detonator contributes to the appearance of an additional lateral initiating pulse in the direction perpendicular to the propagation of detonation, while the relative detonation pressure in the axial direction is 1.5-2 times higher than that of standard detonator checkers. The initiation of borehole charges by the proposed gunman is accompanied by stable high-speed axial detonation, in contrast to detonation initiated by cylindrical pressed or cast blocks, acting in the radial direction with a front extending at an angle to the axis of the borehole.

A thin-walled polymer cylinder protects the means of initiation from mechanical damage during the formation of drill holes and borehole charges. The rounded bottom of the thin-walled polymer cylinder entering the bottom of the polymer body additionally protects the initiation means (waveguides, detonating cords, blasting wires) from external influences during the loading of holes and boreholes, and the central hole in the bottom of the thin-walled polymer cylinder enhances the cumulative effect, created by the cumulative recess of the polymer body. The proposed action movie and its variant can be used when loading flooded wells with an aggressive environment (acidic and alkaline downhole waters). The design of the action movie allows the use of duplication of initiation means by installing two non-electric or electric detonators in the housing.

Examples of the proposed model of the action movie are shown in tables 1 and 2.

The inventive action movie and its version provides the main technical result:

- the reliability of the connection of the initiation means with the intermediate detonator by installing them in the grooves of the polymer body and fixing the grooves of the thin-walled polymer cylinder along their entire length;

- a fixed and constant position of the polymer body relative to the thin-walled polymer cylinder in the axial and radial directions;

- the safety of the use of militants from highly detonating explosives by sealing the polymer shell of the intermediate detonator and isolating the intermediate detonator and means of initiation from the action of the external environment;

- expansion of the raw material base for the production of militants through the use of injection-molded, bulk and water-containing explosives with increased sensitivity to the initiating impulse and a wide range of detonation parameters; use of a wide range of initiation tools;

- duplication of means of initiation to increase the reliability of detonation due to the installation of two electric or non-electric detonators in an action movie;

- and for option 2 - an additional technical effect - the expansion of the scope. The design of the fighter is equipped with special elements - a pipe - for connecting with a hose to feed the fighter into the boreholes during pneumatic loading, with petals - for fixing the intermediate detonator in the rising boreholes.

The proposed design of the action movie can be made at the place of blasting; the polymer shell of the intermediate detonator can be filled with explosive both at the manufacturer of the blasting equipment and at the explosive preparation centers of organizations conducting blasting operations.

The proposed fighter and its version were made with filling the polymer case with explosive mixtures, shown in tables 1 and 2, and tested in dry and waterlogged quarries and underground mines when initiating borehole and drill holes from granular and emulsion industrial explosives with positive results: complete detonation of borehole charges, failures and incomplete detonation were not detected.

Information sources

1. V.I. Gushchin “Handbook of an explosive in a quarry” M .: Nedra, 1971, p. 117.

2. OST 84-1366-76.

3. OST 84-411-80.

4. Patent of Russia No. 2177927.

5. V.L. Baron, V.Kh. Kantor "Technique and technology of blasting in the USA." M .: Nedra, 1989.

6. Utility model No. 22534.

7. Patent of Russia No. 2213929.

8. Utility model No. 31440.

Table 1
Characteristics and properties of fighters of option 1 Indicators Sample No. 1 (TNT + TEN) Sample No. 2 (TNT + RDX) Sample No. 3 (ammonite: live) Sample No. 4 (hexonite) Sample No. 5 (sibirite P) Appearance Polymer housing with explosives, closed by a cover and inserted with initiating means into a thin-walled polymer cylinder with rounded edges in the bottom Dimensional and mass characteristics Diameter - 70 mm; height - 153 mm; weight (net) - 500-600 g The density of explosives, kg / m ³ 1580 1650 950 1450-1500 1120-1220 Knock speed, m / s 7500 7500-7670 3600-4800 7900-8200 4900-5500 The heat of explosion, kcal / kg 1050 1020-1170 1030 930-1020 690-700 Sensitivity to shock, approx. No. 2, (lower limit), mm 70 120 200 500 500 Sensitivity to friction, lower limit, MPa 400 400 230 300 400 Initiation tools Electric and non-electric detonators, detonating cord

table 2
Characteristics of the fighters of option 2 Indicators Injection BB (TNT + TEN) Injection BB (TNT + RDX) Powdered explosive (hexonite) Appearance Polymer housing with explosives, closed by a cover having petals and a nozzle inserted with initiation means into a thin-walled polymer cylinder with rounded edges in the bottom Dimensional and mass characteristics Diameter - 32 mm, height - 165 mm, weight (net) - 150 g
Diameter - 38 mm, height - 21 mm, weight (net) - 250 g Density, kg / m ³ 1580 1650 1450-1500 Knock speed, m / s 7500 7500-7670 7900-8200 The heat of explosion, kcal / kg 1050 1020-1170 930-1020 Sensitivity to shock, approx. 2, lower limit, mm 70 120 500 Sensitivity to friction (lower limit), MPa 400 400 300 Initiation tools Electric and non-electric detonators, detonating cord

Claims (10)

1. The action, consisting of an intermediate detonator, made in the form of a polymer case filled with explosive with longitudinal side grooves, annular grooves and a lid, with initiating means installed inside a thin-walled polymer cylinder made with two opposite side grooves, with four equally spaced from each other other hemispherical protrusions on its inner surface, located at a height corresponding to the lower annular groove of the polymer body a weft detonator, characterized in that the initiating means are located in the longitudinal lateral grooves of the polymer body or in the longitudinal side grooves and annular grooves of the polymer body, the thin-walled polymer cylinder is made with rounded edges in the bottom that extend to the bottom of the polymer body, while the diameter of the hemisphere of the protrusions thin-walled polymer cylinder is equal to half the height of the lower annular grooves of the polymer body and they are pairwise offset by half the height of the lower annular grooves so in such a way that the longitudinal side grooves of the thin-walled polymer cylinder enter the longitudinal side grooves of the polymer body and press the initiation means along their entire length to the polymer body, in this case, injection or bulk or water-containing explosive compositions are used as explosive. 2. The action according to claim 1, characterized in that injection molding explosive mixtures based on TNT and RDX or TNT and TENA are used in any ratio, or in the form of a combined explosive mixture consisting of a granular explosive, the intergranular volume of which filled with injection explosive. 3. The action according to claim 1, characterized in that the powder and / or granular explosive mixtures based on RDX and / or TNT are used as bulk explosive composition. 4. Action according to claim 1, characterized in that emulsion explosive mixtures are used as a water-containing explosive composition. 5. Action according to claim 1, characterized in that as a means of initiation, a detonating cord, electric and non-electric detonators are used. 6. The action, consisting of an intermediate detonator made in the form of a polymer case filled with explosive with longitudinal side grooves, annular grooves and a cover, with initiating means installed inside a thin-walled polymer cylinder made with two opposite side grooves, with four equally spaced from each other other hemispherical protrusions on its inner surface, located at a height corresponding to the lower annular groove of the polymer body a weft detonator, characterized in that the height of the polymer case of the intermediate detonator from the cover to the upper annular groove is 0.3-0.6 of the total height of the polymer case, the cover of the polymer case is made with petals, the diameter of the circumference of which is larger than the diameter of the rising hole or well, and equipped with a pipe, the outer diameter of which corresponds to the inner diameter of the hose for pneumatic loading of explosives, the initiating means are placed in the longitudinal side grooves of the polymer case or in the longitudinal side grooves and annular grooves of the polymer case, the thin-walled polymer cylinder is made with rounded edges in the bottom part extending to the bottom part of the polymer case, the hemisphere diameter of the protrusions of the thin-walled polymer cylinder is half the height of the lower ring groove of the polymer case and they are pairwise offset by half the height of the lower annular grooves so that the longitudinal side grooves of the thin-walled polymer cylinder are included in the longitudinal side grooves of the polymer body and the initiating means are pressed along their entire length to the polymer body, while casting, or loose, or water-containing explosive compositions are used as explosive. 7. Action under item 6, characterized in that the injection explosive composition used is an injection explosive mixture based on TNT and RDX or TNT and TENA in any ratio, or in the form of a combined explosive mixture consisting of a granular explosive, the intergranular volume of which filled with injection explosive. 8. Action according to claim 6, characterized in that the powder and / or granular explosive mixtures based on RDX and / or TNT are used as bulk explosive composition. 9. Action according to claim 6, characterized in that emulsion explosive mixtures are used as a water-containing explosive composition. 10. Action according to claim 6, characterized in that detonating cord, electric and non-electric detonators are used as initiating means.

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