RU105984U1 - Explosive ordnance simulator - Google Patents

Abstract

The utility model relates to means of simulating explosive processes. The claimed simulator contains a housing with an explosive placed therein. The novelty of the solution lies in the fact that the casing is made seamless and seamless from a biodegradable polymer material or a mixture based on such a material. Such a solution allows to increase the manufacturability of the simulator design and, at the same time, its strength and operational characteristics.

Description

The utility model relates to means of simulating explosive processes during the training and training of personnel of the armed forces and special services, as well as during various specialized games, filming, etc.

The process of training the personnel of the armed forces (AF) and special services requires constant training sessions that mimic the real combat situation. An integral part of such imitation is the creation of various pyrotechnic effects that reproduce grenades, mines, etc. bursts. The use of real ammunition for purposes of such reproduction is unacceptable for obvious reasons (the possibility of injuries of varying severity, including death). The practice of using real ammunition without explosive components equipped only with a detonator for simulating explosions, is ineffective because it does not allow to fully recreate the shape and rupture of real ammunition, in particular, to recreate the real area of the fragment fragments of such ammunition, being reduced, in fact, to only recreate sound effects. C. Recently, for the purpose of simulating grenade and mine explosions, plastic imitators have been widely used, for example, grenade body simulators (see, in particular, http://www.kalibr603.ru/shop/UID_1346.html), various airsoft grenades, etc. Such products contain a case made of thin plastic with a firecrack installed in it and are used, as a rule, in various militarized games (paintball, airsoft) to create noise effects. However, the use of such plastic simulators for the purpose of training the personnel of the aircraft is also ineffective, primarily because of the low strength of the simulator’s body, as well as the purely external resemblance to real explosive ammunition without relatively weight characteristics and to recreate the expansion of the shell of the latter.

The problem solved by the creation of the claimed simulator of explosive ordnance consists in the need to maximally simulate real explosive ordnance, including its weight, the fragmentation of fragments, which would allow to most fully simulate the rupture of such ammunition during the training of personnel of the aircraft, while minimizing the likelihood of receiving injuries and injuries with conditional damage by fragments of the simulator. The technical result achieved in solving the problem lies in increasing the manufacturability of the simulator design while increasing the strength and operational characteristics of the simulator, which contribute, as a result, to the most realistic reconstruction of the gap of real ammunition, as well as developing combat training skills without danger to destroy the ammunition explosion, damage and deformation of the shell.

To achieve the result, it is proposed in the simulator of explosive ordnance containing a housing with an explosive placed therein and / or means for initiating such a substance, to make the body seamless cast from a biodegradable polymer material or a mixture based on such material.

Preferred, but optional versions of the claimed simulator imply the presence of a color or weight filler in the body material; execution of the simulator in the form of a simulator of a grenade or a mine shell or a shellless explosive device or improvised explosive device, as well as the use of gunpowder or gas as an explosive.

The ability to achieve the result when creating the claimed design is due to the following.

The manufacturing technology of well-known plastic simulators involves stamping parts of the case, the subsequent connection of such parts, filling the cavity of the body with a filler - liquid or paint, simulating the explosion and installation of the detonator. A consequence of this technology is that the body of the known simulator essentially performs the function of a shell for the filler, without possessing sufficient strength, including sealing, characteristics due to insufficient thickness and the presence of a connecting seam. In practice, this often leads to premature failure of the simulator before training, for example, as a result of a simple fall of the simulator to the ground. Making the case seamless and seamless based on the well-known properties of the technology allows us to make a simulator that fully recreates the appearance of a real ammunition, while possessing sufficient strength.

The claimed simulator’s body, made by casting, allows such a case to be cast into a single mold in one go, obtaining a seamless seamless technological design for manufacturing, while the technology itself additionally contributes to the selection of body material components to obtain strength and weight characteristics corresponding to the characteristics of a real ammunition shell - it is obvious that the manufacture of the housing by stamping imposes certain restrictions on the choice of characteristics of the housing is ready th product. In turn, the possibility of varying the quantitative and / or qualitative composition of the polymer or composition based on it allows you to get a body that can withstand sufficient breaking loads, up to the use of real explosives and detonators, for the most complete recreation of the rupture of real ammunition, while using as a material the polymer shell minimizes the possibility of injuries or injuries caused by such fragments. It should also be noted that the performance of the claimed simulator is also affected by the use of a biodegradable polymer as the case material (paraffin can be an example), which leads to the natural decomposition of fragments and, as a result, the absence of clogging of training areas, which, in addition to preserving the environment, also indirectly reduces the likelihood of injury (for example, as a result of a fall to the ground).

In conclusion, it should be noted that the claimed simulator allows you to combine in one case the functions of the body and the filler itself (for the filler function, see above), which also helps to increase the strength and operational characteristics of the simulator as a whole.

Claims (5)

1. An explosive ordnance simulator comprising a body with an explosive placed therein and / or means for initiating such a substance, characterized in that the body is seamless cast from a biodegradable polymer material or a mixture based on such material. 2. The simulator according to claim 1, characterized in that the housing material further includes a color filler. 3. The simulator according to claim 1, characterized in that the housing material further includes a weight filler. 4. An imitator according to any one of claims 1 to 3, characterized in that it is an imitator of a grenade or a mine, or a shell, or a shellless explosive device, or an improvised explosive device. 5. The simulator according to any one of claims 1 to 3, characterized in that gunpowder or gas is used as the explosive.