UA60824A - Capsule-detonator - Google Patents

Abstract

The invention relates to means for initiation of charges of secondary explosive substances with instant or delayed effect. To increase reliability of operation of capsule-detonator that has hollow body with closed bottom in which main charge of explosive substance is placed, intermediate shell with initiation charge of secondary explosive substance and ignition element, at that in end of intermediate shell at side of ignition element opening is provided, there sealing partition with opening is placed, this is installed in the body between intermediate shell and ignition element, at that intermediate shell is arranged as plug that is rigidly connected to inner surface of the body. Geometrical dimensions of the plug are chosen from ratios: L=(7.3÷8.5)d, D=(1.6÷2.2)d, where L- length of the plug, d – diameter of opening, and D – outer diameter of the plug. Density of secondary explosive substance of initiation charge in end section of opening of the plug is larger than its density at initial section of opening of the plug and is smaller than density of secondary explosive substance of main charge. Sealing partition can be arranged as cup with pyrotechnical and retardation mixes. The invention increases reliability of operation of capsule-detonator.

Description

Description of the invention

The invention refers to the means of initiating charges of secondary explosives (BP) of instantaneous or 2 delayed action and can be used during explosive works in various branches of the national economy that use BP, for example, in the mining industry, construction industry, emergency rescue service.

Detonator capsules are known, in which a primary explosive (GOST USSR 6254-85) is used as an initiating charge. 70 The main disadvantage of the aforementioned detonator capsules is the high probability of their unauthorized activation due to the use of a primary explosive substance sensitive to mechanical action, a fire beam, and static electricity.

The prototype of the proposed technical solution is a detonator capsule (USSR patent Mo1521291, E42B 3/10, g42С 19/08, 1989), which contains a hollow body with a closed bottom, in which the main charge of 12 secondary explosives, an intermediate shell with an initiating charge are placed from the secondary explosive substance and the ignition element, a hole is made in the end of the intermediate shell on the side of the ignition element. An intermediate charge of secondary explosive material is placed between the initiating and main charges, the density of which is lower than the density of the secondary explosive of the initiating charge. The intermediate charge can be placed both in the body cavity and in the intermediate shell with the initiating charge. A pyrotechnic and retarding mixture can be installed between the ignition element and the initiating charge.

The known design is more reliable in comparison with the mentioned analogues due to the use of an initiating charge from a secondary explosive substance, which is characterized by low sensitivity to a fire beam, mechanical and electrical actions.

The disadvantage of the prototype is insufficiently high reliability of operation, since the thin-walled intermediate shell leads to its deformation and, due to the leakage of the formed gas, energy consumption, which "can lead to the extinguishing of the process of transformation of combustion into detonation. The location between the initiating and main charges of the intermediate secondary BP, the density of which is less than the density of the initiating charge, can lead to the extinction of the detonation, and its location outside the intermediate shell - to the destruction of the unreinforced walls of the case until the moment of detonation of the main charge. M

The basis of the invention is the task of improving the capsule-detonator, in which, due to the introduction of new design elements and connections and a new execution of known elements, an increase in the reliability of functioning is ensured. co

To solve the problem, a detonator capsule containing a hollow body with a closed chamber, in which the main charge of a secondary explosive substance, an intermediate shell with an initiating charge of 3o secondary explosive substance and an ignition element are placed at the end of the intermediate shell from the side of the ignition ee , the element is made of a hole, according to the invention, a sealing partition with a hole is introduced, which is installed in the housing between the intermediate shell and the ignition element, the intermediate shell is made in the form of a bushing, which is rigidly connected to the inner surface of the housing, while the geometric dimensions of the bushing are selected from " ratios: Z

I -(7.3-8.5)a, c O-(1.6-2.239, :z» where I is the length of the sleeve, and is the diameter of the sleeve opening,

Or - outer diameter of the sleeve. b 15 In addition, according to the invention, the density of the secondary explosive of the initiating charge in the final section of the sleeve opening is greater than its density at the initial section of the sleeve opening and less than the density of the secondary (ав) explosive of the main charge. The sealing partition can be made with a conical opening, the base of which is turned towards the ignition element. ko 20 In another example, the sealing partition can be made rigidly connected to the end

HT" of the sleeve of the cup, in the bottom of which a hole is made, while the outer diameter of the end surface of the sleeve can be drilled, on which the cup is pressed.

A pyrotechnic mixture can be pressed into the cup.

In the second example, a retarding mixture can be placed in the cup on top of the pyrotechnic mixture.

According to the invention, the ratio of the cross-sectional area of the opening of the sealing partition to the area of of the cross-section of the pyrotechnic mixture may be equal to 1:1.3 - 1:2.6.

The set of essential features of the claimed detonator capsule provides the possibility of converting combustion into detonation within the fortified section of the case, preventing its destruction and gas leakage, as a result of which the reliability of the detonator capsule's functioning increases. because This is achieved due to the introduction of a hermetic partition, which forms a closed volume for combustion, which, together with an intermediate shell made in the form of a thick-walled sleeve, the diameter of the opening of which is much smaller than the length, ensures layer-by-layer combustion of the initiating charge with a wave-like build-up of gas pressure, which turns into permanent detonation even within the sleeve, which strengthens the case and prevents its destruction before the explosion of the main charge. because, in addition, the placement of the secondary BP with a gradual increase in its density during the combustion process, namely from the initial charge located in the initial part of the bushing to the main charge, ensures the stability of the increase in the combustion temperature and gas pressure and, as a consequence, increases the reliability of the detonator capsule operation .

Variants of the design of the sealing partition and its rigid connection with the sleeve provide more reliable sealing of the volume where combustion occurs, preventing gas leakage, due to which the reliability of the device as a whole is strengthened.

The location of the pyrotechnic mixture in the sealing partition ensures not only the reliable ignition of the initiating charge, but also the reliable covering of the opening of the sealing partition with slag from the combustion of this explosive.

Placement of the retarding mixture between the initiating charge and the pyrotechnic mixture allows not only to slow down the initiation of the explosion, if necessary, but also provides time for more reliable clogging of the opening of the sealing partition with the slag of the pyrotechnic mixture.

Thus, the set of essential features of the claimed device allows to increase the reliability of its 7/5 functioning.

In addition, the proposed detonator capsule does not require the use of an intermediate secondary BP, which simplifies the design.

Figure 1 shows a detonator capsule with a sealing partition and a fire-conducting cord, longitudinal section; Fig. 2 - a detonator capsule with an electric igniter and a sealing partition in the form of a 2-cup cup with a pyrotechnic mixture, longitudinal section; Fig. 3 shows a detonator capsule with a waveguide, pyrotechnic and retarding mixture, longitudinal section.

The detonator capsule contains a hollow body 1 with a closed bottom, in which the main charge 2 from the secondary BP is placed, an intermediate shell in the form of a sleeve C with an initiating charge 4 from the secondary BP in its opening and an ignition element 5. In the housing 1 between the ignition element 5 and a sealing partition 6 with an opening 7 is installed by the sleeve C. The sleeve C is rigidly connected to the inner surface of the housing 1. The geometric dimensions of the sleeve C are selected from the ratios: І -(7.3-8.5)4, 0-(1.6 -2,2)0, where Y is the length of the sleeve 3, y is the diameter of the hole « of the sleeve 3, and 0 is the outer diameter of the sleeve 3.

In the best example of the device, the density of the secondary BP of the initiating charge 4 in the final section of the opening of the bushing C is greater than its density in the initial section of the opening of the bushing Z and less than the density of the secondary BP "I from the main charge 2.

The sealing partition b can be made with an opening 7, for example, cylindrical (Fig. 2, 3) or conical (Fig. 1), the base of which faces the ignition element 5. Ge)

The hermetic partition 6 can be made, for example, in the form of a sleeve C rigidly connected to the end of the cup, in the bottom of which there is a hole 7 (fig. 2, 3). For a rigid connection, glue can be used (Fig. 3) -

З35 or on the outer diameter of the end surface of the bushing З, a tapping 8 is made, on which the cup (o (fig. 2) is pressed).

The pyrotechnic mixture 9 (fig. 2) can be pressed into the cup, on top of which the retardant mixture 10 (fig. 3) can be placed.

The ratio of the cross-sectional area of the opening 7 of the sealing partition b to the cross-sectional area of the pyrotechnic mixture 9 can be, for example, 1:1.3 - 1:2.6. шщ с The specified density of the secondary BP is ensured during the assembly of the detonator capsule. For example, in the hollow body 1, the weight of the secondary BP of the main charge 2 is pressed under the greatest pressure. In "" the end section of the hole of the sleeve C, one part of the weight of the secondary BP of the initiating charge 4, divided in half, is pressed under lower pressure. Then, under even less pressure, into the initial section of the hole the second part of the secondary BP of the initiating charge 4 is pressed into the sleeve Z. The sleeve Z is inserted into the body 1 and adjoins the main charge 2.

The value of the diameter of the hole of the sleeve Z is chosen not less than the critical value for the secondary BP that is used.

Ho) The ignition element 5 in the technical solution that is claimed can be a fire-conducting cord, which is ignited by an open flame (Fig. 1), or an electric igniter with a bridge of the heating or electric arc type (Fig. 2), or a waveguide in the form optical fiber or Nonel cord (Fig. 3).

And" For the initiating charge 4, such secondary BPs as TEN, octogen, hexogen or mixtures based on them can be used.

The detonator capsule works as follows.

The initiating charge 4, which is located in the opening of the sleeve 3, having received an initial impulse from the ignition element 5 through, for example, the conical opening 7 of the sealing partition b installed in the body 1, starts to burn (Fig. 1). Under the pressure of the high-temperature gases formed, the thinnest part of the sealing partition 6 - the top of the conical opening 7 - is deformed and bends, covering this opening. At the same time, the sealing partition b remains practically intact, because the burning process takes place at a distance from it, and the amount of secondary BP of the initiating charge 4, which begins to burn, is small, because it is placed in the narrow opening of the thick-walled sleeve 3.

A wave of high-temperature gas is reflected from the sealing partition 6 and, returning to the sleeve

C, compresses the secondary BP of the initiating charge 4 in the initial section of its opening with the gases that are formed, moving the combustion process to the next layer. The pressure, in turn, on the other hand, is opposed by a thicker layer b5 of the Secondary BP in the final section of the opening of the bushing C and further by an even thicker layer - the main charge 2. The amplified wave of high-temperature gas returns and is again reflected from the sealing partition 6, returning with a higher speed and pressure to the sleeve 3. Thus, the burning process of the secondary BP of the initiating charge 4 occurs in layers, and the compression spreads in the form of weak shock waves. The speed of each high-temperature wave is greater than the previous one! accordingly catches up with her. At the moment when the temperature of the shock wave becomes high enough, a stable mode of detonation of the secondary BP of the initiating charge 4 occurs in the end section of the sleeve 3, which causes the detonation of the secondary BP of the main charge 2.

This completes the detonator capsule's operation.

In an example, when the ignition element 5, for example, an electric igniter (Fig. 2), a waveguide (Fig. 3), does not provide guaranteed ignition of the initiating charge 4, a pyrotechnic mixture 9 is placed in front of it, for example, in a sealing partition 6, made in the form of a cup, which is pressed onto the groove 8 of the sleeve C (Fig. 2). The pyrotechnic mixture 9 burns instantly with the release of high-temperature gases with high pressure, which ignite the secondary BP of the initiating charge 4, leading to a state of convective combustion with subsequent transition to detonation. The slag from the combustion of the pyrotechnic mixture 9 clogs the opening 7 of the cup.

In the example with the location of the retarder mixture 10 in the detonator capsule between the pyrotechnic mixture 9 and the 7/5 Initiating charge 4, high-temperature gases from the combustion of the pyrotechnic mixture 9 ignite the retarder mixture 10, which, with a time delay, causes the ignition of the initiator charge 4. This variant of execution, as a rule, it is used in time-detonating capsules.

Claims (8)

The formula of the invention 1. A detonator capsule containing a hollow body with a closed bottom, in which the main charge of a secondary explosive substance, an intermediate shell with an initiating charge of a secondary explosive substance and an ignition element are placed, a hole is made in the end of the intermediate shell on the side of the ignition element, which differs due to the fact that a sealing partition with a hole is introduced, which is installed in the housing between the intermediate shell and the ignition element, the intermediate shell is made as a bushing, which is rigidly connected to the inner surface of the housing, while the geometric dimensions of the bushing are selected from the ratios: I. - (07.3 8.534, rAiba2,a, « where I is the length of the bushing, Ge a is the diameter of the bushing hole, Or is the outer diameter of the bushing. 2. The detonator capsule according to claim 1, which is characterized by the fact that the density of the secondary explosive substance (3) of the initiating charge in the final section of the sleeve opening is greater than its density in the initial section of the sleeve opening and is less than the density of the secondary explosive substance of the main charge. 3. Capsule-detonator according to claim 1, which is characterized by the fact that the sealing partition is made with a conical opening, the base of which is turned to the ignition element. 4. Detonator capsule according to claim 1, which is characterized by the fact that the sealing partition is rigidly "5" connected to the end of the sleeve of the cup, in the bottom of which a hole is made. With t0 5. Detonator capsule, according to claims 1 and 4, which differs in that the outer diameter of the end surface of the sleeve is drilled, on which the cup is pressed. "with 6. Capsule-detonator according to claims 1 and 4, which differs in that a pyrotechnic mixture is pressed into the cup. 7. Detonator capsule according to claims 1, 4 and b, which is characterized by the fact that a retardant mixture is placed in the cup on top of the pyrotechnic mixture. 8. Capsule-detonator according to claims 1, 3, 4, 6 and 7, which differs in that the ratio of the cross-sectional area Ф of the opening of the sealing partition to the cross-sectional area of the pyrotechnic mixture is 1:1.3 - 1:26. (c) (ee) from 50 s" R 60 b5