RU2317282C1 - Blasting cartridge (embodiments) and initiator for blasting industrial explosives (embodiments) - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: invention relates to blasting cartridges and blasters for charges of low-sensitivity industrial explosives. According to first embodiment, blasting cartridge consists of polymeric case having longitudinal side grooves, annular furrows, and cover and incorporates two-layer explosive charge obtained from pulse-sensitive loose explosive, initiation means disposed in top part of polymeric case, and molded explosive capable to detonate from loose explosive and disposed in bottom part of polymeric case. According to second embodiment, blasting cartridge differs from the first one by that interface between two explosive layers is located below upper annular furrow when molded explosive is disposed in bottom part of polymeric case and above upper annular furrow when loose explosive is disposed in bottom part of polymeric case. Blasters in the two embodiments contain, as intermediate detonator, first- and second-embodiment blasting cartridges, respectively. Initiation means are inserted in longitudinal side grooves or in longitudinal side grooves and annular furrows of polymeric case in the lose explosive zone. Thin-walled polymeric cylinder is constructed with rounded edges in its bottom part protruding on bottom part of polymeric case. Diameter of hemisphere of protrusions of thin-walled polymeric cylinder is equal to half height of lower annular furrow of polymeric case and they are shifted by pairs to half height of lower annular furrow such that longitudinal grooves of thin-walled polymeric cylinder enter into longitudinal side grooves of polymeric case and press primary initiation means to polymeric case along all their length. Third-embodiment blaster contains second-embodiment blasting cartridge and polymeric case filled with molded explosive, wherein polymeric cases are arranged in bottom-to-bottom manner and inserted into thin-walled polymeric cylinder. Fourth-embodiment blaster consists of one or two second-embodiment blasting cartridges and two or three polymeric cases filled with molded explosive and disposed in the covered polymeric case. Initiation means are located in a similar manner as in the first-embodiment blaster.

EFFECT: increased blasting operations efficiency.

19 cl, 13 dwg, 4 tbl

Description

The invention relates to blasting devices designed to initiate boreholes, boreholes and other charges from low-sensitivity industrial explosives.

Hydro-insulated pressed and cast TNT, TNT-hexogen checkers-detonators with a central channel are known (1, 2). A known detonator block in a polymer case made of an injection mixture of TNT and a finely dispersed heating element having a through channel and a socket for mounting initiation means (3, 4). Known checker-detonator, the body of which consists of two parts filled with different injection molding explosives - pentolite and TNT (5). The disadvantages of pressed detonator blocks include their porosity, which in conditions of flooded wells leads to their gradual wetting and a decrease in susceptibility to the initial impulse. Having molten detonator drafts, possessing sufficient water resistance, they do not provide reliable excitation of detonation from standard initiators (detonator caps, electric detonators, detonating cords) due to the reduced susceptibility of the cast TNT structure to their initiating impulse.

Known checker-detonator of granular explosive - phlegmatized RDX, 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 (6), adopted by the authors as a prototype. The disadvantage of the prototype is the relatively high cost of RDX.

An object of the invention was to increase the efficiency of blasting by reducing cost while maintaining a high susceptibility to existing means of initiation, reliable initiation of low-sensitivity industrial explosives, drill holes and borehole charges.

The technical problem was solved by the development of a detonator-checker and its variant, consisting of a polymer case with longitudinal side grooves and annular grooves, filled with explosive and covered with a lid, in which

- option 1 - for loading wells - the charge consists of two layers of explosives - in the upper part of the polymer body is a free-flowing explosive that is sensitive to the impulse of the initiating means, and an injection explosive capable of detonating from the free-flowing explosive in the bottom of the polymer case, this height of the polymer shell does not exceed three of its diameters;

- option 2 - for loading boreholes - the charge consists of two layers of explosives - a bulk explosive material that is sensitive to the impulse of the initiating agent, and an injection explosive substance that can detonate from the bulk explosive substance, while the interface between the layers of explosives is located below the upper ring grooves, if the injection explosive is placed in the bottom of the polymer body, and above the upper annular groove, if in the bottom of the polymer body is loose e explosive, and the height of the polymeric shell is greater than its diameter more than three times.

Powdered explosives based on RDX and / or TNT are used as bulk explosives. They are sensitive to the impulse of the primary means of initiation and are capable of transmitting a detonation impulse to an injection explosive.

As injection explosive compositions, injection explosive mixtures are used, containing TNT or TNT and RDX, or TNT and TEN, or Ammotol, which can be initiated from a free-flowing explosive and transmit a detonation pulse to an insensitive explosive of a borehole or drill hole.

The invention is illustrated in figures 1, 2.

Figure 1 - appearance of the checker-detonator option 1.

Figure 2 - external view of the checker-detonator of option 2 with different placement of bulk and injection explosives:

a) - bulk explosive in the upper part, and injection explosive in the lower part of the polymer body;

b) - injection explosive in the upper part, and bulk explosive in the lower part of the polymer body.

The checker-detonator of option 1 (FIG. 1) consists of a polymer case 1 with a lid 2, filled with injection molding 3 and loose 4 explosives. A gasket 5 is placed between the cap 2 and the loose explosive 4. The gasket 5 is made of a waterproof material or waterproof mastic. The polymer housing 1 is made with two opposed longitudinal longitudinal grooves 6 and the annular upper 7 and lower 8 grooves. The height of the polymer body does not exceed three of its diameters.

The checker-detonator of option 2 (FIG. 2) consists of a polymer case 1 with a lid 2, filled with injection molding 3 and loose 4 explosives. A gasket 5 is placed between the lid 2 and the explosive 3 (4). When placing a loose explosive 4 in the upper part of the polymer body 1, the gasket 5 is made of a waterproof material or waterproof mastic (figa). The surface of the section 27 between the layers of explosives is located below the upper annular groove if the injection explosive is placed in the bottom of the polymer body, and above the upper annular groove if the bulk explosive is placed in the bottom of the polymer body. The height of the polymer shell exceeds its diameter by more than three times.

The characteristics of the detonator drafts of option 1 are given in table 1, and option 2 in table 2.

Table 1 - characteristics of the detonator checkers of option 1. Indicators one Appearance Plastic housing with explosives, closed lid Weight and size characteristics Diameter 70 mm, height 153 mm, weight (net) 500-800 g Filler: - bottom part Injection BB - top part Loose explosive

Table 2 - characteristics of the detonator checkers of option 2. Indicators one 2 Appearance Plastic housing with explosives, closed lid Weight and size characteristics Diameter 32 mm, height 165 mm, weight (net) up to 150 g
Diameter 38 mm, height 210 mm, weight (net) up to 370 g Filler: - bottom part Injection BB Loose explosive - top part Loose explosive Injection BB

Examples of the implementation of the proposed checkers-detonators of options 1, 2 are given in table 3.

Table 3 - fillers checkers detonators options 1 and 2. Indicators Option 1 Option 2 Example 1 Example 2 Example 3 Example 4 The mass of explosive detonator drafts, g 800 610 150 370 Explosive bottom part, g Ammotol 40/60 TNT-RDX Ammotol 40/60 ammonite 6ZHV 390 450 65 190 BB of the upper part, g ammonite 6ZHV ammonite 6ZHV Ammotol 40/60 410 160 85 180 The average density of the combined explosive composition, kg / m ³ 1370 1280 1260 1390

The inventive checker-detonator and its variant provide the main technical result of the invention:

- the safety of the use of detonator drafts from highly detonating explosives by sealing the case and isolating the explosives from the action of the external environment;

- the expansion of the raw material base and the simplification of the technology for the manufacture of detonator blocks through the use of injection and bulk explosives with layered placement in a polymer case;

- cost reduction by replacing part of the injection explosive with a bulk explosive.

The inventive checker-detonator (intermediate detonator) and its variant are used for the manufacture of fighters for initiating drill-hole and borehole charges from low-sensitivity explosives.

The action consists of a detonator-checker (intermediate detonator) connected to the means of initiation. The militants are distinguished by the type of intermediate detonator (checkers-detonators, explosive cartridges, etc.) and the type of means of initiating the intermediate detonator, providing stable detonation of charges of industrial explosives.

Non-electric initiation systems of the type "Edilin", SINV, "Nonel" and their analogs, detonating cords, electric detonators are used as means of initiating explosive substances of an intermediate detonator.

Insensitive explosives of boreholes and borehole charges often require the use of enhanced initiation, which is achieved by using an intermediate detonator of a highly sensitive explosive of a larger mass. The industry produces intermediate detonators from explosives (TNT, TNT-hexogen mixture, etc.) of certain weight and size characteristics. Militants with an increased mass of the intermediate detonator can be manufactured by assembling existing detonator blocks into blocks. Known blocks of series-connected cartridges by piercing holes in the lid and introducing into it the docking unit of the previous cartridge or combining the protrusions of the bottom parts of the cartridges made in the "lock" (7). The disadvantage of the unit is that the individual cartridges are spaced from each other, the transmission of detonation between the cartridges is disrupted, which leads to incomplete detonation of the hole and borehole charges. When piercing the lid of the cartridge, its tightness is violated and when conducting blasting operations in flooded conditions, the explosive gets wet and, as a result, the charges fail. Known blocks of cartridges in a polymer shell with a blank bottom and a lid at one end, with corrugations corresponding to each other on the cylindrical part of the shell and a casing at the other end for docking with other cartridges (8). Known block made in the form of a cylindrical polyethylene shell with a blank bottom, the entrance of which is closed by a lid; at the inlet of a cylindrical polyethylene shell, a cylindrical shell (9) is made. On the body of the cylindrical shell in the bottom and end parts, the external and internal trapezoidal threads are respectively made to each other for connecting the individual cartridges to each other. On the housing in the area of the internal thread there are two holes for fastening the electric detonator. The disadvantage of this design is the relatively remote location of the electric detonator from the initiated explosive, the inability to install a larger diameter unit.

Known action film, consisting of a thin-walled polymer cylinder with four hemispherical protrusions equally spaced from each other on the inner surface of the cylinder, located at a height corresponding to the lower annular groove of the polymer body of the intermediate detonator, with four diametrically located R-shaped end-to-end end cutouts connected in pairs with a jumper with studs 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 explosive, covered by a cover through a gasket-seal, and initiating means placed in the longitudinal side grooves of the polymer case in such a way that hemispherical protrusions of the cylinder enter the lower annular groove of the polymer shell of the intermediate detonator, and the inner spikes of the lintel of the R-shaped end cylinder pressed against them in the recesses of the longitudinal grooves to the housing intermediate the detonator (10) received by the authors as the 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 in height of the cylinder, the possibility of minor movement of the thin-walled polymer cylinder relative to the polymer body in the axial direction, since the centers of the hemispherical protrusions and The annular grooves are the same, the suboptimal choice of explosives used to fill the polymer shell. The thin-walled polymer cylinder of the prototype action movie does not allow the production of action movies with an increased mass of the intermediate detonator.

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

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

- option 1 - for the borehole charges, the detonator checker according to option 1 is used as an intermediate detonator, the initiating means are placed in the longitudinal side grooves or in the longitudinal side grooves and ring grooves of the polymer case, while the detonator capsule or detonator containing the initiating explosive, or knot knot detonating cord is placed in the zone of bulk explosive; a thin-walled polymer cylinder is made with rounded edges in the bottom that extend to the bottom of the polymer body, the diameter of the hemisphere of the protrusions of the thin-walled polymer cylinder is equal to half the height of the lower ring groove of the polymer body, and they are pairwise offset by half the height of the lower ring groove so that the longitudinal grooves of the thin-walled the polymer cylinder enter the longitudinal lateral grooves of the polymer body and press the initiation means along their entire length to the polymer body,

- option 2 - for borehole charges, the detonator-checker according to option 2 is used as an intermediate detonator, an adapter with a nozzle, the outer diameter of which corresponds to the inner diameter of the charging hose, and petals, the diameter of the circumscribed circle of which is larger than the diameter of the rising hole or bore, are used as an intermediate detonator ; initiation means are located in the longitudinal side grooves or in the longitudinal side grooves and annular grooves of the polymer body, wherein the detonator capsule containing the initiating explosive or knot knot of the detonating cord is placed in the bulk explosive zone; a thin-walled polymer cylinder is made with rounded edges in the bottom that extend to the bottom of the polymer body, the diameter of the hemisphere of the protrusions of the thin-walled polymer cylinder is equal to half the height of the lower ring groove of the polymer body, and they are pairwise offset by half the height of the lower ring groove so that the longitudinal grooves of the thin-walled the polymer cylinder enter the longitudinal lateral grooves of the polymer body and press the initiation means along their entire length to the polymer body,

- option 3 - for borehole charges with an increased mass of the intermediate detonator, the detonator checker according to option 2 and a polymer case filled with injection explosive are used as an intermediate detonator; an adapter with a nozzle is placed on the cover of one of the polymer cases, the outer diameter of which corresponds to the internal diameter of the charger hose, and petals, the diameter of the circumscribed circle of which is larger than the diameter of the rising hole or well; initiation means are placed in the longitudinal side grooves or in the longitudinal side grooves and annular grooves of the polymer body filled with loose and injection explosive material, while the detonator capsule containing the initiating explosive substance or the knot of the detonating cord is placed in the bulk explosive zone, the checker the detonator of embodiment 2 and the polymer case filled with explosive, with primary means of initiation, are installed end to end with each other; a thin-walled polymer cylinder is made of a height equal to two heights of the polymer case from the bottom to the upper annular groove of the polymer case, with two rows of four in a row of hemispherical protrusions with a hemisphere diameter equal to 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 grooves of the thin-walled polymer cylinder enter the longitudinal side grooves of the polymer bodies and press the initiation means along their entire length to polymer cases

- option 4 - for boreholes and borehole charges with an increased mass of the intermediate detonator - as an intermediate detonator use one or two checkers-detonator of option 2 and two or three polymer bodies filled with injection molding material, the initiating means are placed in longitudinal side grooves or in longitudinal lateral grooves and annular grooves of the polymer body, filled with a bulk and injection explosive substance, while the detonator capsule or detonator containing the initiating explosive, or the knot of the detonating cord is located in the zone of bulk explosive, four polymer bodies filled with explosives, with the initiation means are installed close to each other in a thin-walled polymer cylinder, and a thin-walled polymer cylinder is made with rounded edges in the bottom part, going to the bottom of the polymer shells , the ends of the thin-walled polymer cylinder end with a corresponding external and internal thread, on the inner surface of the thin-walled polymer the row cylinder has two rows of four in a row of clamping protrusions that press the polymer bodies with initiating means to each other along their entire length; the cover of a thin-walled polymer cylinder is made with four holes equally spaced around the circumference, with a nozzle whose outer diameter corresponds to the inner diameter of the charging hose. When loading boreholes and boreholes using an action movie of option 4, two plates perpendicular to each other are installed on the nozzle under the charging hose, the diameter of the circumscribed circle of which is larger than the diameter of the rising hole or borehole. Lowering the fighter into the well is carried out on a detonating cord, a waveguide of a non-electric blasting system, or a polymer cord secured with two oppositely located cover openings. Several fighters of option 4 can be assembled into a single unit by connecting them along the external and internal threads of thin-walled polymer cylinders. When lowering the fighter of option 1 into the well without duplicating the blasting network, a hinge loop is placed under the cover on the neck of the polymer case through which the detonating or polymer cord or waveguide passes, which ensures the alignment of the lowered fighter and the borehole. The alignment of the lowered action movie and the well can be achieved in another way.

The invention is illustrated in figures 3-13.

Figure 3 - appearance of the action movie option 1.

Figure 4 - appearance of a thin-walled polymer cylinder of the action movie of option 1.

Figure 5 - the appearance of the action movie of option 1 with the primary means of initiation in the form of a detonating cord.

6 is an external view of the action movie of option 2.

7 is an external view of a thin-walled polymer cylinder of an action movie of option 2.

Fig - external view of the action movie option 3.

Fig.9 is an external view of a thin-walled polymer cylinder of the action movie of option 3.

Figure 10 - appearance of the action movie option 4.

11 is an external view of a thin-walled polymer cylinder of the action movie of option 4.

12 is an external view of the cap of a thin-walled polymer cylinder of an action movie of embodiment 4.

Fig. 13 is a diagram of an assembly of an action movie of increased mass from action movies of option 4.

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

d - outer diameter of the nozzle - inner diameter of the hose for pneumatic charging.

The action movie of option 1 (FIG. 3) for downhole charges consists of a detonator checker 9 of option 1 (claim 1), a thin-walled polymer cylinder 10, and primary initiating means 11.

The thin-walled polymer cylinder 10 (Fig. 4) is made with rounded edges 12 in the bottom that extend to the bottom of the polymer body, with two oppositely located longitudinal side grooves 6, coinciding with the longitudinal side grooves 6 of the polymer body 1, with four hemispherical equidistant circumferences protrusions 13 located on the inner side of the thin-walled polymer cylinder at the height of the lower annular groove 8 of the polymer body, with a hemisphere diameter equal to half the annular groove, and twin offset by half of its height.

The polymer body 1 of the intermediate detonator 9 with the initiation means 11 located in the longitudinal side grooves 6 of the polymer body or in the longitudinal side grooves 6 of the polymer body and the annular grooves 7 or 8, is installed in a thin-walled polymer cylinder 10 (Fig. 3).

As primary means of initiation, electric or non-electric detonators with waveguides or an electric wire, or detonating cords, are used. In the proposed action movie and its variants, the initiating means are installed in such a way that the initiating explosive of the primary means of initiating 11 was placed in the zone of the bulk explosive 4.

When using a detonating cord as a means of initiation, a knot assembly 14 of the detonating cord is placed in the bulk explosive zone (Fig. 5).

If it is necessary to duplicate an explosive network in an action movie, two primary means of initiation are installed, while the initiating element of the second initiation means is also located in the zone of bulk explosive.

The action movie of option 2 (FIG. 6) consists of checker-detonator 15 of option 2, primary initiating means 11, a thin-walled polymer cylinder 10 and an adapter 16. The checker-detonator 15 with initiating means 11 is inserted into a thin-walled polymer cylinder.

The adapter 16 is a cover with a pipe 17, the outer diameter (d) of which corresponds to the inner diameter of the charging hose, with petals 18, the diameter (D) of which circumference is larger than the diameter of the rising hole or well. The adapter 16 is placed on the cover of the polymer case of the detonator-checker of option 2. When charging wells, a charging hose 19 is put on the pipe 17.

The thin-walled polymer cylinder 10 (FIG. 7) of the action movie of option 2 is similar to the thin-walled polymer cylinder of the action movie of option 1 and differs only in its diameter.

The action movie of option 3 (Fig. 8) consists of a detonator checker 15 of option 2, a polymer case 1 filled with injection molding explosive, initiating means 11 and a thin-walled polymer cylinder 20. An adapter 16 is mounted on the cover of one of the polymer cases.

The thin-walled polymer cylinder 20 (Fig. 9) is made with lateral longitudinal grooves 6 and two rows of four in a row of hemispherical protrusions 13 located at the height of the lower annular grooves of the polymer bodies and pairwise offset along the height of the lower annular grooves. The polymer bodies are formed end-to-end with the primary means of initiation and are installed in a thin-walled polymer cylinder 20 so that the longitudinal grooves of the thin-walled polymer cylinder 20 and polymer bodies coincide and press the initiation means 11 along their entire length to the polymer body, and hemispherical protrusions 13 are located between the upper and the lower edges of the lower annular grooves of the polymer bodies (Fig. 8).

The action movie of option 4 (FIG. 10) consists of one or two checkers-detonators 15 of option 2, two or three polymer casings 1 filled with injection molding explosives, initiating means 11 and a thin-walled polymer cylinder 21 closed by a cover 24. The initiating means are installed similarly to the action variant one.

The thin-walled polymer cylinder 21 (Fig. 11) is made with rounded edges 12 in the bottom, extending to the bottom of the polymer bodies, with two rows of four in a row of hemispherical pressing protrusions 13 on the inner surface of the thin-walled polymer cylinder, equally spaced around the circumference. The ends of the thin-walled polymer cylinder end with an external 22 and an internal 23 thread corresponding to each other.

Four polymer shells filled with explosives, with the means of initiation, are installed in a thin-walled polymer cylinder 21, are tightly pressed against each other and are fixed along the entire height with hemispherical protrusions 13. The thin-walled polymer cylinder 21 is closed by a cover 24.

The cover 24 (Fig. 12) of the thin-walled polymer cylinder 21 is made with a pipe 17, four holes 25 equally spaced around the circumference. The internal thread of the cover corresponds to the external thread of the thin-walled polymer cylinder 21.

When loading holes or boreholes using the fighters of option 4, two plates 26 are installed perpendicular to each other under the charging hose 17 with a diameter of the circumference described greater than the diameter of the rising hole or borehole.

On Fig presents a diagram of the formation of an action movie with an increased explosive mass of an intermediate detonator from several action variant 4 fighters by connecting them along the external and internal threads of a thin-walled polymer cylinder.

The manufacturing procedure for the militants according to options 1-4: detonator checkers of options 1 or 2 are made, the polymer bodies are filled with injection and bulk explosives, and for options 3 and 4, part of the polymer buildings is filled with injection explosives, the polymer case is closed with a lid. In the longitudinal side grooves or the longitudinal side grooves and the annular grooves of the polymer body, initiation means are arranged so that the detonator capsule or knot of the detonating cord is placed in the zone of the bulk explosive. The polymer casing with primary initiation means is installed in the thin-walled polymer cylinder so that the longitudinal side grooves of the thin-walled polymer cylinder and the polymer casing coincide and press the initiation means along their entire length to the polymer casing, and hemispherical protrusions are located between the upper and lower edges of the lower annular groove of the polymer corps. This prevents axial movement of the thin-walled polymer cylinder relative to the polymer body. Combining the longitudinal lateral grooves of the thin-walled polymer cylinder and the polymer body, the hemispherical protrusions of the thin-walled polymer cylinder fix the constancy of the position of the polymer body relative to the thin-walled polymer cylinder in the axial and radial directions.

The order of formation of a borehole charge: a pneumatic charging hose is put on the nozzle, with which the fighter is fed to the set borehole length, for example, uprising - directed vertically or obliquely upwards, after which the explosive is gradually fed through the hose using the hose, while the fighter is stretched over the specified length the hole is fixed and held in the hole due to the petals or plates.

The order of formation of the borehole charge: the gunman descends into the borehole on a detonating cord, waveguide or polymer cord. When lowering the action movie into the well without duplicating the blasting network, a hinge loop is placed under the cover on the neck of the polymer body through which the detonating or polymer cord or waveguide passes, which ensures alignment of the action movie and the well being lowered. The alignment of the action movie and the well lowered into the well can be achieved in another way.

The gunman 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 characteristics of the militants of options 1-4 are given in table 4.

Table 4 - characteristics of the fighters of options 1-4. Indicators Option 1 Option 2 Option 3 Option 4 Appearance Polymer housings filled with explosives placed with primary initiating means in a thin-walled polymer cylinder. Detonator checker Checker-detonator option 1 Detonator checker option 2 Detonator checker var. 2 + polymer shells filled with injection molding Initiation tools Detonating cord, electric detonators, non-electric detonator caps-detonators "SINV" Number of initiation tools installed One thing; when duplicating an explosive network - two. Loading conditions Dry and flooded wells Types of explosives
hole and borehole charges Granular, water-containing (suspension and emulsion)

The use of a wide range of industrial explosives as bulk filler of an intermediate detonator: bulk, pulse-sensitive initiation means, and injection materials capable of detonating from a bulk explosive, expands the raw material base for the production of intermediate detonators and the declared fighters based on them. The tight polymer case of the intermediate detonator, the initiating means placed in a thin-walled polymer cylinder, provide high explosion safety, mechanical strength and reliability of initiation of borehole and borehole charges when breaking rocks of any strength in a wide temperature range of application (from minus 60 to plus 85 ° C) during charging holes and wells with any explosives, including hot ones, and also allows you to use the claimed militants to load wells with aggressive redids (sulfide-bearing rocks and ores, as well as wells with acidic and alkaline downhole waters).

The presence of bottom cumulative recesses of the intermediate detonator contributes to the appearance of an additional initiating pulse in the direction of propagation of detonation along the explosive charge, while the detonation pressure in the axial direction develops 1.5-2 times higher than that of standard detonator blocks of the same mass. 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.

The thin-walled polymer cylinder of the fighter protects the primary means of initiation from mechanical damage during the loading of holes and wells, 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 variants 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 the explosive network by installing two non-electric or electric detonators.

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

- the reliability of the connection of the initiation means with the intermediate detonator by installing them in the longitudinal side grooves or in the longitudinal side grooves and ring grooves of the polymer body and pressing them with the grooves of the thin-walled polymer cylinder to the grooves of the polymer body along the 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 security of the use of militants from highly detonating explosives by sealing the polymer shell of the intermediate detonator and isolating the explosive of the intermediate detonator and means of initiation from the action of the external environment;

- the expansion of the raw material base for the production of militants through the use of injection and bulk explosives with increased sensitivity to the initiating pulse and a wide range of detonation parameters, as well as the use of a wide range of initiation means;

- cost reduction through the use of detonator blocks, in which part of the injection explosive is replaced by bulk explosives;

- increasing the reliability of initiation by duplicating the means of initiation by installing two electric or non-electric detonators in an action movie;

- and for the militants of options 3-4, an additional technical effect is the expansion of the area of use by increasing the mass of the intermediate detonator.

The proposed design of the action movie (its variants) can be manufactured both at the manufacturers of explosive devices and at the place of blasting; the case 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 action movie (its variants) was made with filling the polymer case with explosive mixtures, indicated in the table, and tested in dry and flooded conditions in quarries and underground mines when initiating borehole and drill holes from granular and emulsion industrial explosives with positive results: complete detonation borehole charges, failures and incomplete detonation of charges were not detected.

Information sources

1. OST 84-1366-76.

2. OST 84-411-80.

3. Patent of Russia No. 2177927.

4. Utility model No. 41514.

5. Utility model No. 22532.

6. Patent of Russia No. 2213929.

7. Copyright certificate of the USSR No. 1119398.

8. Patent of Russia No. 2080545.

9. Patent of Russia №2251653.

10. Utility model No. 31440.

Claims (19)

1. The detonator-bomb, consisting of a polymer case with longitudinal side grooves, annular grooves and a lid with an explosive charge placed in it, characterized in that the explosive charge is made of two layers of free-flowing explosive material, sensitive to the pulse of the initiation means, located in the upper parts of the polymer shell, and injection explosive capable of detonating from the bulk explosive and placed in the bottom of the polymer shell, while the height of the polymer about the body does not exceed three of its diameters. 2. Checker-detonator according to claim 1, characterized in that it further comprises a waterproof gasket or a layer of waterproof mastic. 3. Checker-detonator according to claim 1, characterized in that the lid is threaded and sealed with waterproof glue or other means. 4. Checker-detonator according to claim 1, characterized in that the injection mixture used TNT, TNT and RDX, TNT and TEN, or Ammotol. 5. Checker-detonator, consisting of a polymer case with longitudinal lateral grooves, annular grooves and a lid with an explosive charge placed in it, characterized in that it contains a two-layer charge made of granular explosive material, sensitive to the pulse of the initiation agent, and injection molded explosive capable of detonating from a bulk explosive, while the interface between the layers of explosives is located below the upper annular groove when placing the injection explosive substances in the bottom of the polymer shell and above the upper annular groove when placing bulk explosives in the bottom of the polymer shell, and the height of the polymer shell exceeds its diameter by more than three times. 6. Checker-detonator according to claim 5, characterized in that it further comprises a waterproof gasket or a layer of waterproof mastic when filling the upper part of the polymer body with a bulk explosive. 7. Checker-detonator according to claim 5, characterized in that the lid is threaded and sealed with waterproof glue or other means when filling the upper part of the polymer body with a loose explosive. 8. Checker-detonator according to claim 5, characterized in that the injection mixtures used are injection mixtures containing TNT, TNT and RDX, TNT and TEN, Ammotol. 9. The action, consisting of an intermediate detonator, with the means of initiation installed inside a thin-walled polymer cylinder made with two oppositely located side grooves, with four hemispherical protrusions equally spaced from each other on its inner surface, characterized in that it contains an intermediate detonator a detonating checker consisting of a polymer case with longitudinal side grooves, annular grooves and a lid with an explosive charge placed therein, made of a two-layer of granular explosive material, a pulse-sensitive initiating means located in the upper part of the polymer shell, and an injection explosive capable of detonating from the granular explosive substance and placed in the bottom of the polymer shell, and the height of the polymer shell does not exceed its three diameters, means initiation made in the form of a detonator capsule containing an initiating explosive, or knot knot detonating cord and placed in the longitudinal sides in grooves or in longitudinal lateral grooves and annular grooves of the polymer case in the zone of bulk explosives, the thin-walled polymer cylinder is made with rounded edges in the bottom that extend to the bottom of the polymer case, the hemisphere diameter of the protrusions of the thin-walled polymer cylinder is half the height of the lower annular groove of the polymer case and they are pairwise offset by half the height of the lower annular groove so that the longitudinal grooves of the thin-walled polymer cylinder enter the longitudinal side new grooves of the polymer body and press the means of initiation along their entire length to the polymer body. 10. Action under item 9, characterized in that it contains a duplicate means of initiation. 11. Action under item 9, characterized in that it contains a hinge loop. 12. The action, consisting of an intermediate detonator, with the means of initiation installed inside a thin-walled polymer cylinder made with two oppositely located side grooves, with four hemispherical protrusions equally spaced from each other on its inner surface, characterized in that it contains an intermediate detonator detonator block consisting of a polymer case with longitudinal lateral grooves, annular grooves and a lid with a two-layer charge placed in it material made of a bulk explosive material, sensitive to the impulse of the initiating means, and an injection explosive material capable of detonating from a bulk explosive material, wherein the interface between the layers of explosive materials is located below the upper annular groove when the injection material is placed in the bottom of the polymer case and above the upper annular groove when placing a bulk explosive in the bottom of the polymer shell, and the height of the polymer shell exceeds It exceeds its diameter by more than three times, and it also contains an adapter with a nozzle, the outer diameter of which corresponds to the inner diameter of the charging hose, and petals, the diameter of the circumscribed circle of which is larger than the diameter of the rising hole or well, the initiating means are made in the form of detonator capsules containing initiating explosive, or knot knot detonating cord and placed in the longitudinal side grooves or in the longitudinal side grooves and ring grooves of the polymer body in the area of bulk explosives of the substance, the thin-walled polymer cylinder is made with rounded edges in the bottom that extend to the bottom of the polymer body, the diameter of the hemisphere of the protrusions of the thin-walled polymer cylinder is half the height of the lower annular groove of the polymer body and they are pairwise offset by half the height of the lower ring groove so that the longitudinal the lateral grooves of the thin-walled polymer cylinder enter the longitudinal lateral grooves of the polymer body and press the initiation means along the entire length of the polymer orpusu. 13. Action under item 12, characterized in that it contains a duplicate primary means of initiation. 14. The action, consisting of an intermediate detonator, with the means of initiation installed inside a thin-walled polymer cylinder, made with two oppositely located side grooves, with four hemispherical protrusions equally spaced from each other on its inner surface, characterized in that it contains an intermediate detonator detonator block consisting of a polymer case with longitudinal lateral grooves, annular grooves and a lid with a two-layer charge placed in it material made of a bulk explosive material, sensitive to the impulse of the initiating means, and an injection explosive material capable of detonating from a bulk explosive material, wherein the interface between the layers of explosive materials is located below the upper annular groove when the injection material is placed in the bottom of the polymer case and above the upper annular groove when placing a bulk explosive in the bottom of the polymer shell, and the height of the polymer shell exceeds its diameter exceeds more than three times, and an additional polymer case filled with injection explosive, while an adapter with a nozzle, the outer diameter of which corresponds to the inner diameter of the charging hose, and petals, the diameter of the described circles which are larger than the diameter of the rising hole or well, the initiation means are in the form of a detonator capsule containing an initiating explosive, or a knot tinted cord and placed in the longitudinal lateral grooves or in the longitudinal lateral grooves and annular grooves of the polymer body in the zone of bulk explosives, two polymer bodies filled with explosives, with the primary means of initiation are installed butt-to-butt to each other, the thin-walled polymer cylinder is made in height equal to two the heights of the polymer case from the bottom to the upper annular groove of the polymer case, with two rows of four in a row of hemispherical protrusions with a hemisphere diameter equal to n 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 so that the longitudinal grooves of the thin-walled polymer cylinder enter the longitudinal side grooves of the polymer casings and press the initiation means along their entire length to the polymer casings. 15. The insurgent according to claim 14, characterized in that it comprises a duplicating means of initiation. 16. Action according to claim 14, characterized in that two mutually perpendicular plates are installed on the pipe under the charging hose, the diameter of the circumscribed circle of which is larger than the diameter of the rising hole. 17. The action, consisting of an intermediate detonator, with the means of initiation installed inside a thin-walled polymer cylinder, made with four hemispherical protrusions equally spaced from each other on its inner surface, characterized in that it contains one or two detonator blocks as an intermediate detonator, consisting of a polymer case with longitudinal lateral grooves, annular grooves and a lid with a two-layer explosive charge placed in it, made of loose blast an explosive substance, sensitive to the impulse of the initiating agent, and an injection explosive capable of detonating from a free-flowing explosive, the interface between the layers of explosives being located below the upper annular groove when the injection explosive is placed in the bottom of the polymer body and above the upper annular groove when placement of bulk explosives in the bottom of the polymer shell, and the height of the polymer shell exceeds its diameter by more than three times, and two and or three polymer bodies filled with injection-molded explosive material, the initiation means are in the form of a detonator capsule containing an initiating explosive substance, or a knot of a detonating cord, and are placed in longitudinal side grooves or in longitudinal side grooves and ring grooves of the polymer body filled with loose and injection explosive in the area of bulk explosives, four polymer shells filled with explosives, with primary means of initiation set vpl close to each other, the thin-walled polymer cylinder is made with rounded edges in the bottom, the ends of the thin-walled polymer cylinder end with a corresponding external and internal thread, on the inner surface of the thin-walled polymer cylinder there are two rows of four in a row of clamping protrusions that press the polymer bodies with means of initiating to each other along their entire length; the cover of a thin-walled polymer cylinder is made with four holes equally spaced around the circumference from each other and with a nozzle whose outer diameter corresponds to the inner diameter of the charging hose. 18. Action under item 17, characterized in that it contains a backup means of initiation. 19. Action according to claim 17, characterized in that two mutually perpendicular plates are installed on the nozzle under the charging hose, the diameter of the circumscribed circle of which is larger than the diameter of the rising hole.

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