RU2462684C1 - Pyrotechnic devices to simulate attack of projectile to target (versions) - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: devices to simulate an attack of a projectile to the target contains a pyrotechnic charge and the electric igniter, in which the pyrotechnic charge is an agglomerate of acetone peroxide, or HMTD and/or pyrotechnic mixture containing no lead azide, or contains dispersed in the binder acetone peroxide or HMTD and/or pyrotechnic mixture, not containing lead azide, or contains a porous and/or fibrous material of natural or artificial origin, and acetone peroxide or HMTD and/or pyrotechnic mixture, not containing lead azide, optionally dispersed in a binder.

EFFECT: simplified construction of a pyrotechnic simulator, reducing the hazard class of the product and its production, as well as obtaining a universal, by type of facilities use, environmentally friendly simulator that has a high quality of the simulation effect.

19 cl

Description

The invention relates to the field of pyrotechnics, and in particular to the creation of pyrotechnic products used in film and television shooting, during theatrical and entertainment events to simulate the effect of a bullet hitting an obstacle, for example, a wall, soil, clothing on a person, a ricochet of a bullet or electrical shorting wires with sparks, etc.

The closest technical solution is a pyrotechnic device that simulates the entry of a bullet into an obstacle (RF Patent 2009443, F42B 4/00, publ. March 15, 1994). The tool contains a pyrotechnic charge coated with varnish (shell), and an electric igniter. The pyrotechnic charge is made in two layers: the inner layer is made of a mixture of lead azide and a binder, which is deposited on an electric igniter. The outer layer is made of a composition that is a mixture of a metal powder and a binder. Nitrocellulose, rosin, and fluororubber are proposed as a binder for the layers, and aluminum, magnesium, aluminum-magnesium alloy, titanium, and mixtures of these powders are used as a metal powder. The shell is made in the form of a layer of varnish.

The internal initiating charge layer deposited on the electric igniter, in fact, is an igniter mixture (azide droplet) of an electric igniter containing a mixture of lead azide and a binder in a ratio of 6: 1 to 100: 1, which is necessary for electrically initiating. The explosive nature of the combustion of lead azide leads to crushing, scattering, ignition and explosive burning of the outer layer of a metal powder in air.

Due to the significant content of metals (in the form of lead azide and metal powder), the charge has a high flash point and has electrical conductivity, which determines the sensitivity to static electricity (breakdown through a drop), and therefore does not provide safety. These disadvantages are a negative factor in the specified method of initiation. Explosion products have a high propelling and crushing effect and contain sparks. The triggering of such a device is usually accompanied by smoke and a flash. In this connection, this tool can be effective, mainly, only for simulating a bullet ricochet from a metal surface, but is unsuitable for simulating a bullet getting into a fabric and other non-sparking barrier, due to a mismatch of the visual effect.

In addition, toxic products containing heavy metal are present in the combustion products, which is an environmentally harmful factor when using the product, especially indoors.

Thus, the known tool has a number of disadvantages that determine the high hazard class of both the product itself and its production, and also has a number of negative factors that do not allow the use of this tool to implement a simulation effect on any obstacles.

The claimed solution is aimed at eliminating the shortcomings of the known solutions and expanding the arsenal of pyrotechnic imitation tools.

The technical result achieved by the implementation of the present invention is to simplify the design of the pyrotechnic means, reduce the hazard class of the product and its production, as well as obtain a universal, by type of application, environmentally friendly simulator, providing a high quality simulation effect.

The technical result is achieved by performing a pyrotechnic means to simulate a projectile entering an obstacle consisting of a pyrotechnic charge and an electric igniter, in which the pyrotechnic charge is an agglomerate of an initiating explosive and / or pyrotechnic mixture containing no lead azide.

The specified technical result can also be achieved by performing a pyrotechnic means for simulating a projectile entering an obstruction containing a pyrotechnic charge and an electric igniter, in which the pyrotechnic charge contains initiating explosive dispersed in a binder and / or dispersed pyrotechnic mixture that does not contain lead azide.

The specified technical result can also be achieved by performing a pyrotechnic means for simulating a projectile entering an obstacle containing a pyrotechnic charge and an electric igniter, in which the pyrotechnic charge contains porous and / or fibrous material of natural or artificial origin and initiating explosive and / or pyrotechnic mixture, not containing lead azide dispersed in or without a binder.

The pyrotechnic charge or charge together with an electric igniter can be coated with varnish or other film-forming composition.

Preferred substances for use in a pyrotechnic charge are initiating explosives and pyrotechnic mixtures having a detonation velocity of less than 4000 m / s and a low flash point. Such substances or mixtures when triggered, provide the desired visual effect (having a minimum flash), without igniting the products of a damaged barrier (for example, fabric), and a low response speed makes the effect more readable when shooting. In this case, the possibility of the formation of negative explosion products - flashes and smoke (when this is not provided for by special additives) is completely excluded. Therefore, the effect obtained during the sale of the product is the most realistic, both when simulating the hit of a projectile, for example, a bullet, in destructible obstacles with the formation of holes (obstacle defects), and simulating rebounds.

As an initiating explosive that does not contain lead azide and is suitable for use in the claimed agent, the most effective are compounds such as acetone peroxide and hexamethylene triperoxide diamine, and as a pyrotechnic mixture, a mixture of lead rhodanite with bertholite salt or potassium ferrocyanate (red blood salt) with potassium perchlorate. Moreover, other individual substances or mixtures with sufficient energy and sensitivity to an electric igniter, not containing lead azide, can also be useful for obtaining a pyrotechnic charge of the proposed agent.

The use of initiating explosives and pyrotechnic mixtures in a simulator is not new in itself. However, simulators known in the art suggest the use of these substances and compositions in a dry pressed form, which suggests the presence of bodies, shells or additional ignition charges. At the same time, working with dry substances is dangerous and requires special production facilities.

Means of the proposed group of inventions have reliable response from the igniter in the absence of a housing, shell or igniter charges. This is achieved through the use of components of a pyrotechnic charge in an unconventional form that provides properties that are not inherent in these mixtures obtained by other methods used in the art, for example, dry pressing.

So it was found that during agglomeration, the explosive and / or pyrotechnic mixture change their mechanical properties, sensitivity, flash point, which allows them to be used individually as a pyrotechnic charge or together with a binder or porous and / or fibrous material.

As a binder, various substances having a binding and / or cementing ability, for example, varnishes, adhesives, resins, polymers, can be used. The choice of binder is determined depending on the type of explosive and the problem to be solved.

The most preferred compositions for producing a pyrotechnic charge are the following: acetone peroxide dispersed in epoxy resin, hexamethylene triperoxydiamine in nitrocellulose varnish, a mixture of lead rhodanite with a bertholate salt in a nitrocellulose varnish, a mixture of potassium ferrocyanate with potassium perchlorate, and porcine tin citrozenesite with tartrate potassium perchlorate and titanium powder in nitrocellulose varnish.

As the porous and / or fibrous material, a polymeric synthetic material, for example, synthetic winterizer or any synthetic fabric or cotton, is preferred. As a natural material, materials of plant origin, for example, paper, or porous cardboard, or basalt fiber, or fabric, are most preferred.

In addition to the required components, the pyrotechnic charge may additionally contain additives that do not affect its performance, but allow you to adjust the effect obtained depending on the task. Such additives may be smoke-forming or spark-forming substances and materials.

As an electric igniter, standard electric igniters or incandescent filaments can be used.

Coating the charge with varnish in order to create a shell additionally affects the integrity and safety of the structure. Such a coating is preferable in cases of intentionally preventing the contact of the charge with the environment or the evaporation of the charge components, as well as for preserving the mass of the charge, but the presence of the coating is not required. Many of the binders used are hydrophobic, have a good dispersing effect and become sufficiently strong after hardening. When using such binders, coating is not required.

The proposed pyrotechnic tool is characterized by a simple and safe technology for its manufacture. The manufacturing process of the tool is considered on the example of one of the possible explosive components.

Obtaining pyrotechnic means, according to the first embodiment, is as follows. The required amount of initiating explosive and / or pyrotechnic mixture containing no lead azide is placed in a forming container, moistened with an appropriate solvent and left with or without pressing until the solvent is removed. After removal of the solvent, the charge is a compacted agglomerated mass with a density (hardness) sufficient for long-term preservation of the form. The electric igniter is installed in the pyrotechnic charge until the solvent is removed or after solidification in the hole specially prepared for this.

According to a second embodiment, an explosive, for example, hexamethylene triperoxide diamine (or acetone peroxide), when wet, is mixed with a solution of a binder previously dissolved in an appropriate solvent, for example, nitrocellulose varnish in alcohol. After dispersing the explosive in the solution, the composition must be left for some time to remove volatile solvents. Until the solvent is completely removed, the charge is given the necessary shape. The hardened composition is a solid mass with explosives uniformly distributed throughout the volume.

Upon receipt of a pyrotechnic product with porous and / or fibrous material, a solution of TRS and / or pyrotechnic mixture (active substance) with or without binders is preliminarily prepared. The resulting liquid composition is impregnated or saturated with a porous and / or fibrous material. In this case, the active substance, as such or dispersed in a binder, is evenly distributed over the surface of the material and / or its entire volume. After removal of the solvent, the active substance with or without a binder solidifies with the formation of a solid product with a uniformly distributed active substance over the surface of the material and / or inside it.

The electric igniter is installed in the pyrotechnic charge until the solvent is completely removed, or an appropriate hole is prepared for its installation by placement in the liquid composition or in the porous (fibrous) material until the element is completely removed from the solvent corresponding to the shape of the electric igniter. After solidification, the element is removed, and an electric igniter is installed in its place.

The proposed invention has high manufacturability and production safety. Unlike the prototype, the tool does not involve the use of igniter or other auxiliary compositions and charges, because in the proposed versions of the means, the pyrotechnic composition performs the function of both an igniter and a pyrotechnic (working) composition.

When dispersing an explosive (pyrotechnic mixture) - the dispersed phase is evenly distributed in the binder - dispersion medium, which leads to the isolation of the sensitive component. Such preservation ensures long-term preservation of the component itself and its characteristics and eliminates the occurrence of processes such as evaporation, decomposition, and redox reactions during storage, which is especially important when using volatile components.

The binder content in the proposed composition of the pyrotechnic charge may be from about 0.01 to 80 wt.%.

The distribution of the explosive in the binder reduces the concentration of the explosive per unit mass and reduces sensitivity, and therefore increases the safety of the charge. In addition, this lowers the flash point and decreases the specific heat of the explosive fluids. The burning rate of such a charge is significantly lower with respect to a pure explosive or pyrotechnic mixture.

In the known solution (prototype), the size of the igniter charge (first layer) is limited by a very small amount of substance due to the high sensitivity and power of lead azide.

A pyrotechnic charge containing dispersed TRS in a binder provides the possibility of obtaining pyrotechnic means without restrictions in shape and size. Therefore, the pyrotechnic means obtained in accordance with the proposed options can be made in any form (including in the form of a cord), necessary for use in a particular case. The use of light shells and shells is also permitted, but this is not the claim of the applicant.

During agglomeration of the active substance, regardless of its initial state (powder, granules), the resulting charge is a monolithic mass with a sensitivity sufficient for electric ignition and, at the same time, safe operation with it, and when used as a pyrotechnic charge, provides all of the above advantages.

Mixing the components in the presence of a solvent, which is a phlegmatizer for sensitive active substances, not only ensures manufacturability and production safety, but also allows for the process of the most complete and uniform distribution of the substance (without lumps) by weight of the composition.

Thus, the main factors ensuring the achievement of this result are: the use of the active substance obtained after wetting it with a solvent, as well as dispersed in a binder form, i.e. a condition not previously used in the art. These advantages allow you to charge from only one active component (TRS and / or pyrotechnic mixture). In this case, each of the proposed options means provides a uniform density of the pyrotechnic charge, new mechanical and operational properties of the means, increases the safety of the means. Moreover, the products have a simpler design and production.

Obtaining a pyrotechnic agent according to the invention does not require complex production facilities, and can be adjusted directly at the place of use.

The proposed tool works as follows.

An electric signal is supplied to the electric igniter. The heat pulse is transferred to the pyrotechnic charge, as a result of which it ignites with a further transition of combustion to explosion. The resulting explosion products have the necessary propelling and crushing effect, reproducing the imitation effect. The effect may be accompanied by a characteristic scattering of fragments of the barrier at the site of destruction.

The proposed product design is represented by a minimum set of features sufficient to realize the specified purpose and ensure a technical result. Products made in accordance with the proposed invention can be adjusted taking into account the particular characteristics of the objects of application and the necessary imitation effect. For example, a change in size (s) may vary depending on the power of the intended impact on the barrier. When working with various obstacles, it is possible to form charges in accordance with the characteristics of each obstacle, as well as by adding additives to the pyrotechnic charge that contribute to the most accurate reproduction of the effect (dust, spark or fire - flash additives). It is also allowed to use the proposed pyrotechnic charges in combination with other compositions to obtain simulators with various effects.

The results of the tests indicate high reliability and completeness of response of the funds obtained according to the invention. It is obvious that the proposed simulators have a simpler and safer manufacturing technology compared to well-known counterparts and at the same time have improved performance and higher technical performance.

The invention is universal in terms of applications and types of reproducible shells, and is also safer to use it close to a person or indoors.

As a result of the dispersion of the active substance in the binder, the active substance is isolated from external factors. Therefore, in addition to the main advantages, the second and third options for obtaining funds provide long-term preservation of the specified qualities and performance of the product, in particular, the reliability of operation from a standard electric igniter or incandescent filament with the desired effect.

The proposed tool does not have the disadvantages inherent in the analogue, such as electrical conductivity, high flash point (explosion), as well as non-environmental friendliness due to the absence of heavy metals and toxic combustion products. The tool according to the invention does not require a housing, which simplifies production, improves safety when triggered and expands the range of products.

The absence of highly sensitive initiating substances and solid structural elements provide a low hazard class of products and their production.

The simplicity of the design, pyrotechnic filling and the ability to use regular tools allow you to get simple and compact pyrotechnic products, which greatly expands the possibilities of using the proposed pyrotechnic means.

The tests carried out confirm the efficiency of the proposed variants of the invention and their implementation of the desired effect, i.e. indicate the implementation of the proposed device for the specified purpose. The analysis of the prior art showed that currently among the pyrotechnic means used to obtain the effect of a projectile getting into an obstacle, devices that are identical or similar in content and embodiment to the claimed proposal are not known. Thus, the proposed invention expands the range of pyrotechnic products used to create special effects, and is an improved competitive product.

Claims (19)

1. A tool for simulating a projectile entering an obstruction containing a pyrotechnic charge and an electric igniter, characterized in that the pyrotechnic charge is an agglomerate of acetone peroxide or hexamethylene triperoxide diamine and / or a pyrotechnic mixture not containing lead azide. 2. The tool according to claim 1, characterized in that the outer surface of the charge or charge together with the electric igniter is coated with varnish or other film-forming composition. 3. The tool according to claim 1, characterized in that, as a pyrotechnic mixture, it contains a mixture of lead rhodanite with a bertholite salt or potassium ferrocyanate with potassium perchlorate. 4. The tool according to claim 1, characterized in that the pyrotechnic charge further comprises smoke-forming or spark-forming substances and materials. 5. A means for simulating a projectile entering an obstruction containing a pyrotechnic charge and an electric igniter, characterized in that the pyrotechnic charge contains acetone or hexamethylene triperoxide diamine dispersed in a binder and / or a pyrotechnic mixture that does not contain lead azide. 6. The tool according to claim 5, characterized in that the outer surface of the charge or charge together with the electric igniter is coated with varnish or other film-forming composition. 7. The tool according to claim 5, characterized in that, as a pyrotechnic mixture, it contains a mixture of lead rhodanite with a bertholate salt or potassium ferrocyanate with potassium perchlorate. 8. The tool according to claim 5, characterized in that as a binder contains varnishes, adhesives, resins, polymers or a mixture thereof. 9. The tool according to claim 8, characterized in that the pyrotechnic charge contains acetone peroxide dispersed in an epoxy resin. 10. The tool according to any one of paragraphs.7 or 8, characterized in that the pyrotechnic charge contains a mixture of lead rhodanite with a bertholite salt dispersed in nitrocellulose varnish. 11. The tool according to claim 5, characterized in that the pyrotechnic charge further comprises smoke-forming or spark-forming substances and materials. 12. A means for simulating a projectile entering an obstruction containing a pyrotechnic charge and an electric igniter, characterized in that the pyrotechnic charge contains porous and / or fibrous material of natural or artificial origin and acetone or hexamethylene triperoxide diamine and / or pyrotechnic mixture not containing lead azide, optionally dispersed in a binder. 13. The tool according to item 12, characterized in that the outer surface of the charge or charge together with the electric igniter is coated with varnish or other film-forming composition. 14. The tool according to p. 12, characterized in that as a pyrotechnic mixture contains a mixture of lead rhodanite with bertholite salt or potassium ferrocyanate with potassium perchlorate. 15. The tool according to item 12, characterized in that as a binder contains varnishes, adhesives, resins, polymers or a mixture thereof. 16. The tool according to p. 12, characterized in that as a porous and / or fibrous material contains a polymeric material or material of plant origin, for example, synthetic winterizer synthetic fabric or cotton wool, basalt fiber, paper, porous cardboard or fabric. 17. The tool according to any one of paragraphs.15 or 16, characterized in that the pyrotechnic charge contains a synthetic fabric saturated with acetone peroxide dispersed in an epoxy resin. 18. The tool according to any one of paragraphs.14, 15 or 16, characterized in that the pyrotechnic charge contains a porous cardboard impregnated with a mixture of lead rhodanite with a bertholite salt dispersed in nitrocellulose varnish. 19. The tool according to p. 12, characterized in that the pyrotechnic charge further comprises smoke-forming or spark-forming substances and materials.