RU90188U1 - PIROTECHNICAL IMITATION MEANS (OPTIONS) - Google Patents

Abstract

1. An imitation pyrotechnic agent containing a shell filled with a pyrotechnic composition and an ignition tool, characterized in that the shell is divided into two parts, one of which is filled with a mixture of combustible substances of the pyrotechnic composition, the other part is filled with an oxidizing agent, and contains a bursting charge as an ignition agent filled with an igniter mixture containing barium nitrate and metal powder, and equipped with an electric igniter. ! 2. An imitation pyrotechnic tool according to claim 1, characterized in that the conductors of the electric igniter are removed from the explosive charge and threaded through a side opening in the shell or removed through the open edge of the shell, providing the location of the burst charge inside the shell. ! 3. An imitation pyrotechnic product according to claim 1, characterized in that the metal powder contains spherical or dispersed aluminum powder or aluminum-magnesium powder. ! 4. Imitation pyrotechnic product according to claim 1, characterized in that the pyrotechnic composition further comprises color or spark-forming additives. ! 5. An imitation pyrotechnic product according to claim 1, characterized in that the shell contains a plastic bag or sleeve or the shell is made of cardboard or foil. ! 6. An imitation pyrotechnic agent containing a shell filled with a pyrotechnic composition, and an ignition tool, characterized in that the shell is divided into two parts, one of which is filled with a combustible substance of a pyrotechnic composition, the other part is filled with an oxidizing agent, and as a means of ignition,

Description

A useful model relates to the field of pyrotechnics, namely, to means intended for creating special effects (smoke, light, sound, etc.). The utility model can be used in cinema when filming in natural conditions at an ambient temperature of minus 30 to plus 50 ° C, as well as when conducting entertainment events, training or playing militarized events to simulate the effect of various charges, ammunition, or playback phenomena (for example, thunderstorm outbreaks) when, according to the safety conditions of people, buildings, equipment and animals, the use of explosives is unacceptable.

Known imitation pyrotechnic tool - "explosive package", consisting of a waterproof shell filled with smoky powder, and mounted in the shell of the ignition tool - fire wire. (Military Encyclopedic Dictionary, Moscow, Eksmo, 2007, p. 169). This device is accepted as the closest analogue.

The well-known imitator has an increased hazard class due to the use in the device of smoke powder, which is a propellant explosive, as well as storage and transportation of the product in a ready-to-use form. Hygroscopicity of gunpowder and insufficient uniformity of composition can lead to failure or deflagration of the charge. Therefore, the device is characterized by unsatisfactory reliability of operation and instability of the pyrotechnic effect.

The technical problem to which the presented group of utility models is directed is to eliminate the disadvantages of the known device, and in particular, to increase the safety of the pyrotechnic product and the quality of the imitation effect.

The technical result provided by the implementation of each of the devices of the claimed group of utility models is to obtain an imitation pyrotechnic means corresponding to an increased safety class, providing high reliability of operation, stability of the created effect and high quality of the imitation effect.

The achievement of the specified technical result is due to the constructive implementation of the claimed devices, namely, by providing the possibility of separate maintenance of the pyrotechnic components of the simulator before using the devices and using electric means of ignition.

According to a first utility model, a simulated pyrotechnic product contains a shell filled with a pyrotechnic composition and an ignition tool, wherein the shell is divided into two parts, one of which is filled with a mixture of combustible substances of the pyrotechnic composition, the other part is filled with an oxidizing agent, and contains a bursting charge as an ignition means filled with an igniter mixture in which an electric igniter is placed. The conductors of the electric igniter are removed from the bursting charge and threaded through a side opening in the shell or are brought out through the open edge of the shell, providing the location of the bursting charge inside the shell.

As an ignition mixture, the discontinuous charge contains barium nitrate and a metal powder, mainly aluminum powder, spherical or dispersed, or aluminum-magnesium powder.

The components of the explosive charge are not initiating explosives, so that the manufacturing process of the simulator is not dangerous. In addition, the substances of the ignition charge mixture are not prone to oxidation, caking and are not affected by moisture. Therefore, the discontinuous charge allows you to reliably transfer the initiating pulse from the electric igniter to the pyrotechnic composition, which ensures stable operation of the device and the reliability of its operation.

A variant of the utility model is an imitation pyrotechnic tool containing a shell divided into two parts, one of which is filled with a combustible substance of a pyrotechnic composition, the other part is filled with an oxidizing agent, and contains an electric igniter as an ignition tool. The conductors of the electric igniter are threaded through the side opening in the shell or removed through its open neck, providing the location of the electric igniter inside the shell. The device contains barium nitrate as an oxidizing agent, and metal powder as a fuel. As a metal powder, mainly contains magnesium powder.

The task of improving the safety and reliability of operation in this embodiment of the utility model is solved not only by providing the possibility of separate arrangement of the components of the pyrotechnic mixture, but also by performing an ignition tool without additional flammable charges. Moreover, the absence of an igniter charge further simplifies the manufacturing technology of the simulator, compared with the first option, and increases the safety in its manufacture.

The third embodiment of the utility model is an imitation pyrotechnic tool containing a shell filled with a pyrotechnic composition and an ignition tool, while the tool is made in two separate parts, the shell of one of which is filled with a mixture of combustible substances of a pyrotechnic composition, the shell of the other part is filled with an oxidizing agent, and in as a means of ignition contains an electric igniter. The conductors of the electric igniter are threaded through the side opening in the shell or led out through the open edge of the shell, providing the location of the electric igniter inside the part with fuel. At the same time, aluminum-magnesium powder was used as a mixture of combustible substances, and potassium chlorate was used as an oxidizing agent.

In this embodiment of the device, the principle of separate equipment is implemented literally, since the main components of the simulator (fuel and oxidizer of the pyrotechnic composition) are completely isolated from each other in separate parts-packages. This factor reduces the hazard class of the device, as a pyrotechnic product, which is significant not only when it is equipped, but also is especially important during its transportation and storage.

Separate content of pyrotechnic components in all versions of the proposed simulator prevents the occurrence of negative chemical processes between substances and, thus, ensures long-term safety of the components, which ensures reliability and completeness of the charge. The use of electric means of ignition instead of a flame-retardant cord increases the reliability and quality of initiation, which, in turn, also provides the necessary operation of the devices and high quality imitation effect.

In all variants of the utility model, a waterproof shell, for example, a plastic bag or sleeve, can be used as a shell, and the shell can be made of cardboard or foil.

The open edge of the shell after equipment components and installation of the ignition means is closed, mainly, with a clamp.

As a means of dividing the shell into parts, a constriction can be used, for example, a strong thread that is tied “on a bow” so that it can be easily untied before the direct use of the simulator.

Depending on the task, the pyrotechnic compositions of the proposed devices can be additionally introduced, for example, color or spark-forming additives that contribute to the most accurate transfer of the reproduced effect.

Figure 1 presents the first embodiment of the utility model. The device contains a shell (1) (plastic bag), separated in the middle by a constriction (2), one part of which is filled with an oxidizing agent (3), the other part of the shell is filled with a mixture of combustible substances (4). The simulator contains a bursting charge as a means of ignition (5), filled with an igniter pyrotechnic mixture and equipped with an electric igniter. The conductors (6) of the electric igniter are removed from the breaking charge and threaded through the side opening in the shell, providing the location of the ignition means (5) inside the oxidizer mass. The open neck of the bag is tied with a plastic clamp (7).

The proposed device operates as follows.

Immediately before use, the constriction in the middle of the simulator is untied, and both components of the oxidizing agent and fuel are mixed until a uniform pyrotechnic composition is obtained. The mixed composition is distributed so that the breaking charge is in the mass of the components. When a current is supplied to the electric igniter, the igniter pyrotechnic mixture ignites with a further transition of combustion to explosion. The resulting blast wave initiates the operation of the main pyrotechnic charge.

Figure 2 shows the design of the second variant of the utility model.

The simulator contains a shell (1) (plastic bag), separated in the middle by a waist (2), part of the shell with an oxidizing agent (3), part of the shell with a combustible substance (4), an electric igniter as an ignition tool (5). The conductors (6) of the electric igniter are threaded through the side opening in the shell, providing the location of the ignition means (5) inside the mass of the oxidizing substance. The open neck of the bag is tied with a plastic clamp (7).

Immediately before use, the constriction is untied and the main components of the simulator are mixed. The resulting mass is distributed so that the electric igniter is among the components. When a current is supplied to the electric igniter, the thermal pulse arising on it causes ignition of the pyrotechnic mixture, the operation of which reproduces the necessary effect.

The simulator, according to the third embodiment (figure 3), is made in the form of two separate parts, each of which contains a shell (1). In this case, one part is filled with an oxidizing agent (3), and the other part (4) is filled with a mixture of combustible substances. As a means of ignition (5), the device contains an electric igniter, the conductors (6) of which are removed through the open edge of the shell, and the electric igniter is located inside the shell with fuel. One edge of the part of the package with a mixture of flammable substances is closed by a constriction (2), and the other edge by a clamp (7). The open neck of the bag with the oxidizing agent is also tied with a plastic clamp (7).

Before using the device, remove the clamp from the bag with the oxidizing agent and connect the open neck of the bag with the neck of the second bag. Then the banner is untied (2). To ensure reliable combination of packages and mixing of the main components, the package with a mixture of combustible substances contains an elongated free edge. The resulting mixture is distributed so that the electric igniter is inside the pyrotechnic mixture. To operate the simulation tool, an electric signal is supplied to the electric igniter, from the heat pulse of which the pyrotechnic mixture ignites with a further transition of combustion to explosion.

In the manufacture of the proposed device variants, it is allowed to use only easily destructible materials that do not form sharp fragments when they are destroyed by a blast wave, which eliminates the risk of injury to the products. Therefore, the claimed proposal can be applied in close proximity to a person, buildings, equipment or animals without harm.

The proposed device does not have the disadvantages inherent in the analogue. The absence of explosive, highly sensitive and toxic substances, as well as the isolation of chemical components provide a low hazard class of pyrotechnic products, as well as ensure reliable operation and reproduction of the desired pyrotechnic effect. At the same time, each of the proposed designs is simple and technological.

The tests showed that the proposed group of utility models provides the necessary efficiency when used, namely, they confirm the reliability and reliability of operation of the devices, as well as ensuring a higher quality pyrotechnic effect. The proposed group of utility models is a product that meets the requirements for working with pyrotechnics, expanding the arsenal of simulation pyrotechnic tools.

Claims (15)

1. An imitation pyrotechnic agent containing a shell filled with a pyrotechnic composition and an ignition tool, characterized in that the shell is divided into two parts, one of which is filled with a mixture of combustible substances of the pyrotechnic composition, the other part is filled with an oxidizing agent, and contains a bursting charge as an ignition agent filled with an igniter mixture containing barium nitrate and metal powder, and equipped with an electric igniter. 2. An imitation pyrotechnic tool according to claim 1, characterized in that the conductors of the electric igniter are removed from the explosive charge and threaded through a side opening in the shell or removed through the open edge of the shell, providing the location of the burst charge inside the shell. 3. An imitation pyrotechnic product according to claim 1, characterized in that the metal powder contains spherical or dispersed aluminum powder or aluminum-magnesium powder. 4. Imitation pyrotechnic product according to claim 1, characterized in that the pyrotechnic composition further comprises color or spark-forming additives. 5. An imitation pyrotechnic product according to claim 1, characterized in that the shell contains a plastic bag or sleeve or the shell is made of cardboard or foil. 6. An imitation pyrotechnic agent containing a shell filled with a pyrotechnic composition, and an ignition tool, characterized in that the shell is divided into two parts, one of which is filled with a combustible substance of the pyrotechnic composition, the other part is filled with an oxidizing agent, and contains an electric igniter as an ignition tool. 7. An imitation pyrotechnic product according to claim 6, characterized in that the device contains barium nitrate as an oxidizing agent and metal powder, mainly magnesium powder, as fuel. 8. An imitation pyrotechnic tool according to claim 6, characterized in that the conductors of the electric igniter are brought out through the side opening in the shell or through the open edge of the shell, ensuring the location of the electric igniter inside the shell. 9. An imitation pyrotechnic agent according to claim 6, characterized in that the pyrotechnic composition additionally contains color or spark-forming additives. 10. An imitation pyrotechnic product according to claim 6, characterized in that the shell comprises a plastic bag or sleeve, or the shell is made of cardboard or foil. 11. An imitation pyrotechnic agent containing a shell filled with a pyrotechnic composition, and an ignition tool, characterized in that it is made in two separate parts, the shell of one of which is filled with a mixture of combustible substances of a pyrotechnic composition, the shell of the other part is filled with an oxidizing agent, and as a means The ignition contains an electric igniter. 12. Simulation pyrotechnic tool according to claim 11, characterized in that the conductors of the electric igniter are brought out through the side opening in the shell or through the open end of the shell, ensuring the location of the electric igniter inside the shell. 13. An imitation pyrotechnic product according to claim 11, characterized in that aluminum-magnesium powder is used as a mixture of combustible substances, and potassium chlorate is used as an oxidizing agent. 14. An imitation pyrotechnic product according to claim 11, characterized in that the pyrotechnic composition further comprises color or spark-forming additives. 15. An imitation pyrotechnic product according to claim 11, characterized in that the shell comprises a plastic bag or sleeve, or the shell is made of cardboard or foil.