RU180139U1 - MANUAL Grenade simulator - Google Patents

Abstract

The utility model relates to training and training ammunition, and more specifically, to a simulator of a high-explosive fragmentation hand grenade disintegrating in flight, which is used for various paramilitary games (airsoft, paintball) and for training personnel of power structures in conditions close to combat , where tactical combat clash patterns of opposing teams are simulated. The hand grenade simulator contains a housing where bulk filling made in the form of peas or airsoft balls is placed, and a central a pyrotechnic propellant charge connected through a fire-conducting cord to a fire pulse shaper from the friction-sensitive composition of the initiating charge of the ignition mechanism, including the pull-out ring check. It is new that the pull-out ring check in the form of a thread is connected with a grater adjacent to the initiating charge installed on perforated lid of the receiver, on the opposite side of which on the end of the fire-retardant cord an igniter tablet is additionally placed, while all the body elements made of cardboard, and the Visco wick was used as a fire-retardant cord. The proposed technical solution provided high functional reliability of the fail-safe action of a hand grenade simulator of a simple design made of accessible materials that do not pose a danger of injuries, with an increased filling rate of the finished elements of remote expansion in flight, accompanied by a sound effect and visualization of the gap, serial production of which is possible in pyrotechnic workshops.

Description

The utility model relates to training and training ammunition, and more specifically, to a simulator of a high-explosive fragmentation hand grenade disintegrating in flight, which is used for various paramilitary games (airsoft, paintball) and for training personnel of power structures in conditions close to combat , where tactical combat clashes of warring teams are simulated.

The level of this technical field is characterized by a hand grenade simulating an explosive ordnance to create a sound effect of a combat situation, including the expansion of semi-finished non-lethal fragments, which allows it to be used in close combat and in specialized militarized games (patent RU No. 105984 U1, F42B 8/14, 2011).

This hand grenade contains a polymer case, in the functional equipment of which there is a bursting charge initiated by a standard ignition-starting device.

The thick-walled plastic shell of the grenade, made by casting, has semi-finished fragmentation elements formed by a network of corrugations along which the shell is destroyed under the action of gases of an explosive burst, shock and detonation waves from the inside, which contributes to a more complete recreation of a rupture of real ammunition with a minimum chance of injury or injuries when such fragments enter the body.

A feature of the described design of a hand grenade is the implementation of the body of their biodegradable polymer - paraffin, which leads to the natural decomposition of fragments in the soil that do not clog the training area.

The disadvantage of a hand grenade is the loss of functionality of the bearing shell made of paraffin during arsenal storage, as well as in the use of climatic differences in temperature of regions and time of year due to the instability of the material of the case.

Known for a more perfect design of a practical hand grenade (patent RU No. 2526329 C1, F42B 8/14, 2013), which contains a polymer case with functional equipment adjacent to the central explosive charge connected through a moderator with an igniter device initiated from a spring-loaded rod, associated with an external clamping lever equipped with a safety pin with a pull ring - ignition-starting mechanism (ZPM).

The case is equipped with granular material, mainly peas, or marking liquid, and the end face of the initiating rod is mounted in a layer of the initiating composition of the grater type, adjacent to the fire-conducting cord, which serves as a temporary moderator of the explosive charge.

Filling a thin-walled grenade that is destroyed during the functioning of the body from bulk material - peas, available cheap material, comparable in size to real fragments, but having a much lower speed and kinetic energy, eliminates the damaging and traumatic effect when hit by players.

Marking fluid is used to color the places where players fall into clusters of droplets that simulate fragmentation damage, which objectifies the assessment of the effectiveness of the competition and is absolutely safe.

A rigid connection between the initiating rod of the ZPM and the initiating composition of the grater type, having the first class of sensitivity to friction, provides ignition at a relative force displacement, while additionally using the spring energy to pull the rod to separate metal parts from the grenade to detonate it, which contributes to its safe intended use.

When a burst charge is triggered, a noise pressure of the established norm is formed, and the case is crushed by the front of the shock wave and the filling is thrown, simulating a fragmentation effect (non-lethal).

However, a continuation of the noted advantages is an inherent disadvantage - there may be cases of failure of the grenade fire chain due to the fact that the lower curved end of the ZPM spring rod, pulled out from the layer of the initiating composition, destroys it without igniting the flame-retardant cord or with a delay, longer grenade flight time, which loses functionality .

The noted drawback was eliminated in a hand grenade (RU No. 105984 U1, F42B 8/14, 2013), which was selected as the closest analogue to the proposed hand grenade simulator by the technical nature and the number of matching features.

A well-known practical hand grenade contains a thin-walled plastic case with a functional filling of marking gel or airsoft balls (bulk material) and a central fuse including an igniter, a temporary retardant in the form of a fire-retardant cord and an explosive charge from the pyrotechnic firework composition placed inside the filling.

A spring-loaded hammer is mounted on the fuse case, which in the cocked position is geometrically closed by an external safety handle fixed by means of a check with a pull ring.

A design feature is the placement of the initiating charge, with which the spring-loaded striker interacts, in an additional throttling sleeve, the output nozzle of which is aligned with the end of the flame-retardant cord, that is, the generated fire force is localized and directed directly to the end of the cord, while all the structural elements of the igniter, except the spring and checks are made of polymer.

The latter circumstance excluded the formation of damaging elements during the detonation of grenades by reducing their mass and speed of expansion, simplifying the manufacture and assembly of grenades.

When burning a firework pyrotechnic knock-out composition, gaseous products are formed that simulate a high explosive rupture of a grenade with the accompanying sparking of a flame, visualizing and creating a sound imitation of the detonation of a combat grenade.

The energy of the gaseous products of combustion of the pyrotechnic charge in the closed volume of the supporting central tube is not enough to crush the fuse and throw the destroyed shell at a noticeable distance from the place of detonation, which virtually eliminates injury to players.

At the same time, discrete filling through the faults of the body flies to a predetermined distance, where it marks a hit, simulating the fragmentation effect of a grenade.

The main disadvantage of the well-known practical grenade is the presence of a full-time ZPM, massive, time-consuming and voluminous, which works automatically after throwing an unlocked product.

This ballast hull assembly is not crushed and, at the blast site, shields part of the expansion sphere of the discrete filling of the housing, reducing the fragmentation efficiency.

The initiating pulse for ignition from the end of the flame-retardant cord is formed by the adjacent throttle sleeve, which is not reliable enough because the localized fire force from the burning of the initiating composition is suppressed in the critical section of the output nozzle by the counter-action of the reflected shock wave.

The technical problem to which the present utility model is directed is to increase the functional reliability of a hand grenade simulator of a simple design, without loss of effectiveness of the intended purpose.

The required technical result is achieved by the fact that in the well-known hand grenade simulator containing a case where bulk filling of non-lethal action is made, made in the form of peas or airsoft balls, and a central pyrotechnic throwing charge, connected through a fire-retardant cord to the fire pulse former from a friction-sensitive composition the initiating charge of the ignition mechanism, including the receipt of the pull-out ring, at the suggestion of the authors, the check of the pull-out ring in the form of a thread is connected with a grater, p adjacent to the initiating charge mounted on the perforated lid of the receiver, on the opposite side of which on the end of the flame-retardant cord is placed an igniter tablet, all of the body elements are made of cardboard, and Visco wick is used as a fire-retardant cord.

Distinctive features of the proposed technical solution ensured high functional reliability of the failure-free operation of a hand grenade simulator of simple design made of accessible materials that do not pose a risk of injury, with an increased filling rate of finished elements of remote expansion in flight, accompanied by a sound effect and visualization of the gap, serial production of which is possible in pyrotechnic workshops .

The connection of the pulling ring with a check in the form of a thread geometrically closed with a grater that is adjacent to the initiating charge provides manual cocking of the ignition mechanism immediately before throwing a game hand grenade.

The placement of the initiating charge inside the receiver provides, from almost instantly filling its limited volume with hot gaseous products of combustion, a jump in pressure and temperature of the formed front of the fire moving to the ignition charge.

The implementation of the perforated receiver cover provides drainage of excess pressure and gaseous products into the atmosphere, preventing premature force on the functional equipment of the case.

Placing at the end of the fire-conducting cord an additional ignition tablet from a heat-sensitive composition increases the reliability of ignition of the fire-conducting cord and firing of a grenade after a predetermined delay time (5-6 s), increasing the efficiency of the “fragmentation” action of a hand grenade simulator for more likely to hit players conditional opponent.

The implementation of the body elements of the simulator of hand grenades made of cardboard for serial use in paramilitary games, training and training of personnel of power structures in conditions close to combat, is technologically simple in artisanal production and significantly reduces its consumer cost, compared to standard and patent analogues.

The use of the Visco wick as a fire-retardant cord is dictated by its cheapness, accessibility and reliability of the intended purpose: transfer of the combustion front to the pyrotechnic propellant charge of discrete filling of the case in the form of peas or airsoft balls, scattering in all directions when the cardboard shell is destroyed.

Placing the initiating charge inside the igniter with the possibility of direct interaction by friction when pulling the checks with the igniter tablet of the fire-conducting cord placed inside the afterburner of the pyroelement localizes the firing pulse of the launch with a minimized delay time for the detonation of the grenade 3.5-4.5 s, which ensures the effectiveness of the damaging effect when modeling clashes.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

A comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical coincidence of the aggregate of essential features of the utility model.

The proposed differences of the hand grenade simulator, which do not directly follow from the statement of the technical problem, are not obvious to the specialist in training and practical ammunition.

The manufacture of hand grenade simulators according to a utility model is possible in series at the existing pyrotechnic production.

From the foregoing, we can conclude that the utility model meets the patentability conditions.

The essence of this utility model is illustrated by a drawing, which has a purely illustrative purpose and does not limit the scope of claims of the totality of the essential features of the formula.

The drawing shows: in FIG. 1 is a schematic longitudinal-sectional simulator of a hand grenade; in FIG. 2 is a view A in FIG. 1 in the initiation position.

The case 1 simulator of a hand grenade (Fig. 1) in the form of a glass with a diameter for the hand, made of cardboard, has a bulk filling 2 of peas or airsoft balls, inside of which there is a pyroelement 3, which performs the function of a propellant.

Pyroelement 3 is connected by a flame-retardant cord 4, preferably made in the form of a Visco wick, with an ignition tablet 5 mounted on a transverse jumper 6, restricting the filling 2.

Through the ring 7 in the housing 1, a free volume is formed - the receiver 8, which is covered with a perforated cover 9, forming the actual receiver 8, which performs the functions of a diaphragm with drainage holes 10.

From the inside, on the cover 9 (Fig. 2), an initiating charge 11 of a friction-sensitive composition is fixed, in which the grater 12 mounted with the thread 13 is mounted with the possibility of relative movement.

The thread 13 (or elastic tape), which performs the functions of pulling checks, is geometrically closed with a ring 14 under the finger of the hand, which is laid on the cover 9.

A parchment cap 15 is glued to the open end of the housing 1 and ring 14, insulating the volume of the grenade.

The proposed hand grenade simulator operates as follows.

Before throwing, holding the grenade by the housing 1, with the other hand, breaking through the parchment of the cap 15, grasp the fingers 14 with the fingers of the hand and, pulling the thread 13, move the grater 12 relative to the initiating charge 11, carrying out friction when pulling out the checks 13, as a result of which it ignites and active combustion with the generation of gaseous products filling the receiver 8.

From a jump in pressure and temperature in the receiver 8, a tablet 5 from a composition sensitive to a thermal pulse is ignited, which actively burns, igniting the flame-conducting cord 4 - Visco wick.

By increasing the pressure of the gaseous products of combustion, the cardboard case 1 is destroyed, and through the breaks of its shell, peas or airsoft filling balls 2 are released into the atmosphere, which is accompanied by a characteristic crack and smoke with flashes of fire, simulating the bursting of grenades and the expansion of fragmentation elements that do not have a traumatic effect on the body and organs of players and athletes, participants in paramilitary games and training.

Field tests of prototypes of hand grenade simulators of a simple and technological design confirmed the effectiveness of the main fragmentation and high-explosive actions as an entourage of militarized games and combat engagements, creating sound and visual accompaniment of military operations, while a fragmentation zone with marking action is formed, which allows recommending the proposed product for serial delivery to consumers.

Claims (3)

1. A hand grenade simulator comprising a case where bulk non-lethal action is placed, made in the form of peas or airsoft balls, and a central pyrotechnic propelling charge connected through a fire-conducting cord to a fire pulse former from a friction-sensitive composition of the initiating charge of the ignition mechanism, including the pin pulling rings, characterized in that the check of the pulling ring in the form of a thread is connected with a grater adjacent to the initiating charge mounted on the perforated th receiver cover, with the opposite side on which the cord end ogneprovodyaschego additionally placed igniting tablet. 2. A hand grenade simulator according to claim 1, characterized in that all the body elements are made of cardboard. 3. A hand grenade simulator according to claims 1 and 2, characterized in that the Visco wick is used as a fire-retardant cord.

Images