RU2415369C1 - Method of handling articles comprising explosive charge, and explosive device - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: entire charge or its layer is arranged between electrically conducting plates that make electric circuit elements whereto constant potential difference is applied before impact wave affects the charge. Uniform electric field is induced with intensity exceeding breakdown strength of explosive arranged between the plates. On generating detonation wave in explosive charge positive potential is applied to first plate, as seen in direction of wave impact, while in preventing unauthorised blasting, circuit is kept open, or charge sensitivity to detonation pulse is reduced by applying positive potential to opposite plate. Explosive device comprises impact wave generator and capacitor with plates where between main explosive charge or its layer is placed, and whereto constant high-voltage source is connected to break the circuit or to change polarity. Explosive layer thickness between plates is selected to exceed explosive detonation excitation depth on loading explosive by impact wave generator.

EFFECT: fast switching proposed device from one state in another.

3 cl, 1 dwg

Description

The invention relates to the field of blasting, in particular to methods and devices for detonating explosive charges (EXPLOSIVES), as well as ensuring safety when handling products containing explosive charges, throughout their life cycle, up to the standard operation, and can be used , for example, when creating systems for initiating charges of low sensitivity, including industrial explosives.

One of the urgent tasks facing the field of technology is the creation of a reliable method of generating a detonation wave in the explosive charge while ensuring safe handling of the product.

Known solutions to this problem from the prior art, for example, a method of generating a blast wave in an explosive charge (RF patent No. 2150659, IPC ⁸ : F42B 1/00, publication date 10.06.2000), including the transmission of an initial detonation pulse of a subthreshold intensity for the main explosive charge to an inert insert of an additional explosive charge, which locally enhances the shock-wave action on the main explosive charge by redistributing the energy of the initial detonation pulse. The initial pulse is formed by detonating an additional explosive charge. A device that provides the formation of a blast wave according to the patented method includes a main explosive charge, an additional explosive charge with an inert insert and a shock wave generator, which is a means of initiating an additional explosive charge. The transfer of a detonation pulse to an inert insert allows one to obtain interacting shock waves and a reflected wave along the axis of the insert. The pressure in the reflected wave with an appropriate choice of the insertion parameters will be higher than the pressure of the detonation wave incident on the insertion, i.e. detonation wave energy is concentrated in the insertion region.

The disadvantage of this solution is that the overall mass characteristics of the device cannot be optimized due to the relatively large length of the pre-detonation section required to reach the stationary detonation mode, since the parameters of the amplified shock pulse under an inert insert are affected by the insert parameters. It should also be noted that this method of generating a blast wave does not exclude the danger of an explosion of the main explosive charge in case of an emergency.

Closest to the claimed solution are a method of handling products containing an explosive charge, and an explosive device that implements this method, known from the description of the patent of the Russian Federation No. 2238517, IPC ⁸ : F42D 5/00, F42B 3/00, publication date 10/20/2004 g., which are selected as a prototype. The known method of handling products including an explosive charge provides safety when handling products throughout their entire life cycle, for example, during transportation, storage, preparation for use, etc. up to the standard operation. The method includes both operations to generate a blast wave in an explosive charge by means of a shock-wave action and increase the sensitivity of a charge to a detonation pulse during normal operation, and operations to exclude unauthorized explosion of an explosive charge in case of an emergency. The operations to exclude unauthorized detonation consist in placing an inert insert in the product gap in direct contact with the explosive charge, which makes it possible to exclude it, and when an unauthorized shock impulse occurs in the shock generator, it is transmitted through the main charge to an inert insert that prevents the gap from closing. Operations for the formation of a detonation wave include the extraction of an inert insert by mechanical displacement from the gap immediately before a standard detonation and transmission of the initial pulse from the shock wave generator to the main explosive charge. The shock wave passes through the charge and enters the gap, the unloading wave returns to the explosive charge, the shock-wave sensitivity of the explosive charge increases, and when the gap closes, the shock wave is reflected in the explosive charge, forming a detonation one. An explosive device that implements this method includes a shock wave generator and a main explosive charge, equipped with a system that provides an operation mode during a standard detonation of the device and a mode that excludes undermining in case of an emergency. This system is an inert foam insert placed in the gap between the steel plate and the explosive charge and in contact with them. A steel plate is placed on the opposite side of the shock wave generator.

The disadvantage of the prototype is the presence of operations on the installation and removal of the insert, which complicates the design, maintenance, increases the time to bring into working condition, and also does not allow to optimize the overall mass characteristics.

The technical result that can be achieved using the proposed solution is to simplify the organization of work on handling products, increase the speed of transfer from one mode to another.

The specified technical result is achieved due to the fact that the method of handling products containing an explosive charge includes common features with the prototype, namely, the operation of generating a detonation wave in a charge by means of a shock wave and increasing the sensitivity of the charge to the shock pulse during normal operation and operations to exclude unauthorized charge detonation, also includes features that are distinctive from the prototype, namely, the entire charge or its layer is placed between the electrically conductive casing kami, which are elements of an electric circuit, to which a constant potential difference is applied before the shock wave impact on the charge, they form a uniform electric field with an intensity less than the electric strength of the explosive placed between the plates, and when the detonation wave is formed, to the plate located first on a positive potential is applied to the direction of the shock wave, and when preventing unauthorized detonation, either the circuit is left open, or o reduce the sensitivity of the charge to the detonation pulse by applying a positive potential to the opposite lining.

An explosive device that includes common features with the prototype, namely: a shock wave generator and the main explosive charge, equipped with a system that provides a response mode with a standard detonation of the device and a mode that excludes unauthorized detonation, includes distinctive signs, namely: a system that provides a response mode when standard detonation of the device, and the mode that excludes unauthorized detonation is a capacitor, between the plates of which the main explosive charge or its layer is placed, to which is connected ysokovoltny constant voltage source detachably or polarity switching, wherein the thickness of the explosive layer enclosed between the electrodes is selected greater than the depth of the excitation detonation of explosives at its loading shock wave generator.

The size of the plate located on the side of the shock wave generator can be selected so that the surface area with which it faces it is less than the area of the corresponding surface of the generator.

Placing a charge or its layer between electrically conductive plates, which are elements of an electric circuit, provides an increase in speed and simplification of the process of transferring explosives to various states with respect to shock-wave sensitivity, since the electrical structure is easier to maintain than the mechanical one and the time it takes to bring it into one mode or another is at least an order of magnitude less.

The application of a constant potential difference to the capacitor plates before the shock wave action allows the formation of a constant electric field in microseconds by the moment of initiation of the explosive, which can influence the explosive to affect the detonation excitation process without using additional mechanical elements.

The generated uniform electric field with constant characteristics, acting on the explosive, simplifies the possibility and reduces the time to achieve uniformity of properties throughout the volume of the charge, which in turn allows one to achieve either uniformity of the front of the blast wave in the charge during regular blasting, or a guaranteed decrease in charge sensitivity.

The choice of an electric field strength value smaller than the electric strength of an explosive is due to the fact that the resulting field characteristics provide a quick switching of sensitivity (increase and decrease) without electrical breakdown, which eliminates additional electrical requirements for the material of the main explosive charge.

When a blast wave is formed in the normal operation mode, it is necessary to apply a positive potential to the cover located first along the shock wave, which allows to increase the sensitivity of the explosive, and to prevent unauthorized detonation, the positive potential must be applied to the opposite cover, which allows to reduce the sensitivity of the explosive to the level below the initial (typical passport value) sensitivity. These operations are performed in microseconds, and they do not require complex devices that provide the movement of additional elements (as in the prototype). To prevent unauthorized detonation, it is also possible to leave the circuit open. Safety is guaranteed by the low sensitivity of the main explosive charge.

Choosing a device in the form of a capacitor allows you to create an electric field in the explosive.

The placement between the plates of the capacitor of the main explosive charge or part thereof allows you to create at a depth greater than the detonation excitation depth, a constant electric field, which allows you to either quickly form the necessary mode and reliably initiate the explosive, or eliminate the detonation.

A high-voltage source of constant voltage ensures the formation in the explosive of a uniform electric field that affects the sensitivity of the explosive and forms the required modes in the microsecond time range.

The ability to disconnect or switch the polarity of the voltage source allows you to increase the shock-wave sensitivity of the explosive charge in the standard blast mode or to reduce the sensitivity in case of an emergency, which makes it possible to quickly ensure the transfer from one mode to another with one electric signal.

The choice of the size of the plate located on the side of the shock wave generator, such that the surface area with which it is facing it, is smaller than the area of the corresponding surface of the generator, is necessary to reduce the requirements for the electric strength of the explosive and simplify the design as a whole.

The drawing shows an example of a specific implementation of the inventive device, which also explains the inventive method, where:

1 - shock wave generator;

2 - explosive charge;

3 - conductive lining of the capacitor, placed first along the shock wave action of the capacitor;

4 - the second electrically conductive lining;

5 - high voltage source of constant voltage.

An example of a specific embodiment of the claimed device, which also explains the claimed method, can be a blast wave generating device comprising a main explosive charge placed between electrically conductive plates made of aluminum foil 0.05 mm thick and connected to a high-voltage constant voltage source, a shock wave generator, representing a multipoint initiation system with a sublayer of explosives. The sublayer is glued to the lining placed first in the direction of the shock wave. The main explosive charge is a saber. The plates glued to the checker and the checker itself are a capacitor. A multipoint initiation system is a foam base with channels equipped with explosives and a sublayer (not shown) that use a single pulse from an electric detonator (not shown). The foam base is glued to the sublayer. A high voltage constant voltage source is connected to the plates and is configured to switch polarity.

The method of handling a charge from an explosive during the formation of a blast wave in a normal operation mode includes the following operations. Before the shock wave action on the main charge 2, the first capacitor plate 3 is connected to the positive terminal of the constant voltage source 5, and the plate 4 is connected to the negative terminal. Voltage is applied to the plates and a homogeneous electric field is formed in the explosive checker, which increases the sensitivity of the explosive to the detonation pulse. The operation to increase the sensitivity of the explosive charge is performed for a microsecond time interval in automatic mode, while the actuators do not contain mechanical elements, which simplifies the process control. Next, the initiating pulse from the electric detonator is transmitted to a multi-point distributor 1, the end sections of the channels of which initiate a sublayer, forming a plane shock wave. As a result of a preliminary increase in the explosive charge sensitivity, the requirements for the power of the shock wave generator are reduced, which allows one to either reduce the amount of explosive used or expand its choice. The shock wave through the first lining 3 of the capacitor acts on the explosive charge 2, which operates normally, providing the specified output characteristics.

The method of handling a charge from an explosive to exclude unauthorized detonation includes the following operations. The polarity of the high-voltage constant voltage source 5 is switched, the first capacitor plate 3 is connected to the negative terminal of the constant voltage source 5, and the plate 4 is connected to the positive terminal, which reduces the sensitivity of the main explosive charge 2, while in case of unauthorized operation of the shock wave generator 1 charge 2 is not undermined. In case of unauthorized external shock-wave action on the main explosive charge 2, a decrease in its sensitivity below the typical value guarantees its increased explosion safety.

With an open circuit when trying to detonate or an external shock wave, the power of the generator of the shock wave 1 is insufficient to undermine the main charge of explosive 2, because the power of generator 1 is selected to work with explosives with increased sensitivity, and the sensitivity of the main charge of explosives 2 is not enough to undermine.

T.O. using the proposed method, the organization of work on handling products containing an explosive charge is simplified, the speed of transferring the product from the standard operation mode to the mode of eliminating unauthorized detonation is increased.

Claims (3)

1. The method of handling products containing an explosive charge, including the operation of forming a detonation wave in a charge by means of a shock wave and increasing the sensitivity of the charge to the detonation pulse during normal operation and the operation to exclude unauthorized charge detonation, characterized in that the entire charge or its layer is placed between the electrically conductive plates, which are elements of an electric circuit, and to which a constant different potentials form a uniform electric field with a strength lower than the electric strength of the explosive placed between the plates, and when a detonation wave is generated, a positive potential is applied to the plate located first in the direction of the shock wave, and when performing operations to prevent unauthorized explosion the circuit is left open or the sensitivity of the charge to the detonation pulse is reduced by applying a positive potential iala to the opposite lining. 2. An explosive device including a shock wave generator and a main explosive charge, equipped with a system that provides a response mode with a standard blasting device and a mode that excludes blasting, characterized in that this system is a capacitor, between the plates of which the main explosive charge is placed or its layer, and to which a high-voltage source of constant voltage is connected with the possibility of separation or switching of polarity, and the thickness of the explosive layer, Conclusion between the electrodes is selected greater than the depth of the excitation detonation of the explosive loading is at its shock wave generator. 3. The device according to claim 2, characterized in that the size of the plate located on the side of the shock wave generator is selected so that the surface area to which it is facing is less than the area of the corresponding generator surface.