RU2811130C1 - Loading device - Google Patents

Abstract

FIELD: explosion technologies; initiation devices.

SUBSTANCE: invention relates to initiating devices for explosive charges, to the field of blasting, as well as to the development of means and systems for on-board explosive (pyro-)automation, and can be used at the facilities assigned for the rocket and space, aviation, oil, special equipment, socio-economic, scientific and military purposes, as well as explosive technology, to the field of formation of blast waves. It can be used in the creation of explosive devices that initiate detonation in explosives with a reduced detonation ability of low-sensitivity explosives. The loading device includes a coaxially located initiation source, an initiation means and a main explosive charge. The device is equipped with a detonation delay located in contact with an initiation means made of two or three layers of explosives, located coaxially and made of explosives with different dispersion. In the case of two layers, the initial layer of explosives, in contact with the detonation delay, is made of explosives with high dispersion Ssp = 3200-4000 cm²/g, and the final layer of explosives, in contact with the main explosive charge along the end surface, is made of explosives with low dispersity Ssp=700-1000 cm²/g. In the case of three layers, between the initial and final layers of explosives there is a middle layer of explosives with an average dispersion Ssp = 2500-3200 cm²/g, where Ssp is the specific surface area of the explosive layers.

EFFECT: increasing the reliability of initiation of the main explosive charge, simplifying the device and reducing its dimensions, as well as ensuring safety during the operation of explosive charges.

5 cl, 1 dwg

Description

The invention relates to initiating devices for explosive charges, to the field of blasting, as well as the development of means and systems for on-board explosive (pyro-) automation and can be used at rocket and space, aviation, oil, special equipment, socio-economic, scientific and military facilities purpose, as well as explosive technology - to the field of formation of blast waves - and can be used in the creation of explosive devices that initiate detonation in explosives with reduced detonation ability (low-sensitive explosives).

An explosive device for forming a blast wave in low-sensitive explosives is known (patent RU 2107254 C1, 03/20/1998, IPC: F42D 1/04), including a main charge from a low-sensitive explosive, an additional charge from a more sensitive explosive, the diameter of which exceeds the critical detonation diameter of the main charge , and the height is not less than its diameter and the unit for activating the additional charge, made in the form of winding a detonation cord of two branches around the additional charge.

The disadvantages of this device are low mechanical strength, which can lead to breaks and bends of the detonating cord during transportation, as well as increased requirements for the quality of the winding, because the necessary conditions for the transmission of the detonation pulse are provided with tightly packed turns.

An explosive device is known, described in patent RU 2243486 C1, 12/27/2004, IPC: F42B 1/024, which includes a main charge of a low-sensitive explosive, an additional charge of a more sensitive explosive in contact with it on the side surface, the end of which is made flush with the end of the main charge , an inert insert adjacent to the additional charge and separating it from the main charge, and a unit for activating the additional charge, placed coaxially with the additional charge and the inert insert, which is an electric detonator with an ignition channel and a detonation pulse amplifier in the form of a block of highly sensitive explosives.

The disadvantages of this device are increased technological requirements for manufacturing, the difficulty of ensuring tight contact between the additional and main explosive charges, which can lead to unreliable initiation of detonation in the main charge, as well as the impossibility of achieving small dimensions with this design.

The closest analogue to the claimed loading device, selected as a prototype, is the device described in patent RU 2722192 C1, 05/28/2020, MPK F42D 1/04, F42B 3/10, B01J 3/06, G01N 3/303, called " Plane-wave loading device”, which includes, coaxially located, an initiation source, an initiation means made of two layers, and the main explosive charge.

The disadvantages of this invention are:

- the proposed loading device, consisting of a two-layer initiation means, creates an initiation pressure P = 14 GPa, which in some cases is not enough to initiate low-sensitive samples of mixed explosives, for example, based on TATB, Aprol, etc.;

- the loading device must contain a layer of plastic explosive based on PETN, which has a high level of sensitivity to external influences, which generally reduces the explosion safety of the product during manufacturing, storage and testing;

- the need to introduce a sublayer of plastic explosives to increase the reliability of initiation of the main charge.

The objective of the invention is to ensure reliable initiation of charges from low-sensitivity explosives and safety during operation of the device.

The technical result is that it was possible to increase the reliability of initiation of the main explosive charge, simplify the device and reduce the dimensions, and also ensure safety during the operation of explosive charges using low-sensitive explosives.

The specified technical result is achieved in that the loading loading device includes a coaxially located initiation source, initiation means and the main explosive charge, characterized in that it is equipped with a detonation delay located in contact with the initiation means made of two or three layers Explosives located coaxially and made of explosives with different dispersion, in the case of two layers, the initial layer of explosives in contact with the detonation delay is made of explosives with high dispersion Ssp = 3200-4000 cm ² /g, and the final layer of explosives in contact with the main explosive charge along the end surface, from explosives with low dispersion Ssp = 700-1000 cm ² / g, in the case of three layers, between the initial and final layers of explosives there is a middle layer of explosives with average dispersion Ssp = 2500-3200 cm ² / g, where Ssp is the specific surface area of the explosive layers.

In addition, in order to eliminate the influence of electromagnetic interference, the detonation delay is made of plastic explosives.

In addition, for the purpose of electrical activation of the device, the initiator is made in the form of an electric detonator (ED).

In addition, for the purpose of fire or shock wave activation of the device, the initiator is made in the form of a detonator capsule (CD).

In addition, in order to increase the explosion safety of the product while maintaining detonation properties, the main explosive charge is made of high explosive.

The analysis of the level of technology carried out by the applicant, including a search through patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed us to establish that the applicant had not discovered an analogue characterized by features identical to all essential features of the claimed invention, but a definition from the list identified analogues of the prototype, as the closest analogue in terms of the totality of features, made it possible to identify a set of distinctive features in the claimed object that are essential in relation to the technical result perceived by the applicant, as set out in the claims.

Consequently, the claimed invention meets the requirement of “novelty” under current legislation.

To check the compliance of the claimed invention with the conditions of inventive step, the applicant conducted an additional search for known solutions in order to identify features that coincide with the features of the claimed invention that are distinctive from the prototype, the results of which show that the claimed invention does not follow clearly from the known technical level for a specialist.

Therefore, the claimed invention meets the “inventive step” requirement.

The proposed explosive device is illustrated in the drawing, where the following items are entered:

1 - initiator;

2 - detonation delay;

3 - initiation means;

4 - initial layer of explosive initiation means from explosives with high dispersion;

5 - middle layer of explosive initiation means from explosives with medium dispersion;

6 - final layer of explosive initiation means from explosives with low dispersion;

7 - main explosive charge;

D - direction of initiation.

The loading device consists of a main explosive charge 7, an explosive initiation means 3 contacting it along the end surface, an initiator 1, a detonation delay 2 located between the initiator 1 and the initiation means 3. The initiation means 3 is made of three layers of explosives 4, 5 and 6 (see drawing), located coaxially from explosives with different dispersion, the value of which is selected from the condition: the initial layer of explosives 4 is made of explosives with high dispersity S _beat = 3200-4000 cm ² /g, and is in contact with detonation delay 2, the final layer Explosive 6 is made of explosives with low dispersion _Ssp =700-1000 cm ² /g, and is in contact with the end surface of the main charge of explosive 7, and the middle layer of explosives 5 is located between the initial layer of explosives 4 and the final layer of explosives 6 and is made of explosives with average dispersion _Ssp =2500-3200 cm ² /g, where _Syd is the specific surface area of the explosive layers.

The detonation delay 2 can be made in the form of a plastic explosive. The initiator 1 is made in the form of an electric detonator (ED) or a detonator capsule (CD).

The work is carried out as follows. The activation of the initiation means 3 is carried out from the initiator 1 (electric detonator (ED) or detonator capsule (CD)) and the detonation delay 2, made in the form of a column of plastic explosive, which is installed on the side of the initiation means 3, made in the form of layers of explosives with different explosive dispersion , in contact with the initial layer of explosives 4 with high dispersion S _beat = 3200-4000 cm ² /g. The middle layer of explosives 5 is made with a dispersion _Ssp = 2500-3200 cm ² /g, while the initial 4 and middle 5 layers of explosives can be made in their original form with a given dispersion or obtained by sifting the initial product from explosives with a dispersion _Ssp = 2500-4000 cm ² /g. and dividing it into two fractions: S _beat = 2500-3200 cm ² /g. and 3200-4000 cm ² /g. The final layer of explosives 6 of the initiation agent 3 is made with low dispersion _Ssp =700-1000 cm ² /g.

The dispersity indicator is the specific surface area. Specific surface ( _Ssp ) - the ratio of the total area of the interphase surface to the volume (or mass) of the dispersed phase (Chemical Encyclopedia: In 5 volumes: vol. 2: Daffa-Copper / Editorial Board: Knunyants I.L. - M. Sov. Encycl., 1990. - 671 p., 80-82 p.: ill.).

Detonation delay 2 acts as a “cutter” of electromagnetic interference generated when a high-voltage pulse is applied to initiator 1. When the initiation means 3 is activated from the detonator capsule (DC) initiator 1, the detonation delay 2 may not be installed. In the initiation means 3, a shock wave (SW) arises, which turns into a detonation wave (DW) at a certain depth. The DV formed in the initiation means 3 is capable of reliably initiating the main explosive charge 7 and ensuring complete transmission of the detonation pulse to it.

The material for the selected loading device can be used as a low-sensitive blasting explosive triaminotrinitrobenzene (TATB), produced in serial conditions using chloraniline and phloroglucinol technologies (Zhilin V.F. Low-sensitive explosives: a textbook / V.F. Zhilin, V.L. Zbarsky, N.V. Yudin. - M.: RKhTU named after D.I. Mendeleev, 2008. - 160 p.). These technologies ensure the production of explosive TATB crystals in a wide range of required dispersion.

It is also possible to implement the initiation means 3 using two layers of different dispersion, for example:

initial layer 4 - S _beat1 =3200-4000 cm ² /g and final layer 6 S _beat2 =2500-3200 cm ² /g;

initial layer 4 - S _beat1 =2500-3200 cm ² /g and final layer 6 S _beat2 =700-1000 cm ² /g;

initial layer 4 - S _beat1 =2500-4000 cm ² /g and final layer 6 S _beat2 =700-1000 cm ² /g.

The thickness of each explosive layer in all embodiments varies from 2 to 20 mm.

This design of the initiation means using layers of explosives with different dispersion requires a significantly lower initiation pressure than an explosive charge with uniform dispersion. Experimental work carried out to determine the shock wave sensitivity of the initiation device to the detonation pulse showed that the proposed design has a 20...30% better indicator of initiation.

Making the initiation means in the form of layers of explosives from TATB with different dispersion increases the explosion safety of the product while maintaining the detonation properties necessary to activate the main charge. Currently, in gas-dynamic practice, to initiate the main charge, initiation means are used based on explosives of octogen, hexogen, and highly dispersed PETN, which are highly sensitive to shock wave effects and pose a danger during emergency impacts.

An example of a specific implementation is a loading device in which the initiation means 3 is made in the form of three layers with different dispersion: the initial layer of explosives 4 with high dispersity S _beat = 3800 cm ² /g, the middle layer of explosives 5 with dispersion S _beat = 2800 cm ² /g., the final layer of explosives 6 of the initiation agent with low dispersion S _beat = 900 cm ² /g. During the experiment, the performance of the proposed loaded device was tested, ensured by reliable transmission of the detonation pulse to the main charge 7.

The use of this invention will improve the operational characteristics of the loading device, namely, reduce the response energy, increase safety during manufacturing and operation by eliminating the use of highly sensitive initiating explosives, and increase the reliability of the initiating ability of the loading device with small dimensions.

For the claimed invention in the form as it is characterized in the claims, the possibility of its implementation using the above-described design solutions and the ability to achieve the specified technical result have been confirmed. Therefore, the claimed invention meets the condition of “industrial applicability”.

Claims (5)

1. A loading device, including a coaxially located initiation source, an initiation means and a main explosive charge, characterized in that it is equipped with a detonation delay located in contact with the initiation means, made of two or three layers of explosives, located coaxially and made from explosives with different dispersion, in the case of two layers, the initial explosive layer in contact with the detonation delay is made of explosives with high dispersion Ssp = 3200-4000 cm ² /g, and the final explosive layer in contact with the main explosive charge along the end surface , from explosives with low dispersion Ssp = 700-1000 cm ² /g, in the case of three layers, between the initial and final layers of explosives there is a middle layer of explosives with average dispersion Ssp = 2500-3200 cm ² /g, where Ssp is specific surface of explosive layers. 2. Loading device according to claim 1, characterized in that the detonation delay is made of plastic explosive. 3. Loading device according to claim 1, characterized in that the initiator is made in the form of an electric detonator (ED). 4. Loading device according to claim 1, characterized in that the initiator is made in the form of a detonator capsule (CD). 5. Loading device according to claim 1, characterized in that the main explosive charge is made of high explosive.