RU2778701C1 - Fuse for non-lethal hand grenade - Google Patents

Abstract

FIELD: ammunition.

SUBSTANCE: invention relates to ammunition, namely to the fuse for a non-lethal hand grenade. The fuse for a non-lethal hand grenade includes a firing mechanism fixed in the upper part of the body of the retarding-initiating unit, in which an igniter cap, a pyrotechnic retarder and an igniter or a detonator cap are located. The body of the retarding-initiating assembly is made of two parts connected by a tubular thin-walled coupling located between the igniter capsule and the pyrotechnic retarder and made of plastic, which is destroyed by gas pressure when the igniter capsule and the pyrotechnic retarder are triggered. The distance between the igniter capsule and the pyrotechnic retarder is chosen to be no more than 2.5 diameters of the working end of the pyrotechnic retarder. The wall thickness of the tubular coupling is in the range of 0.8-1 mm. The outer surface is made with stress concentrators.

EFFECT: increasing the stability and reliability of separating the firing mechanism from a non-lethal grenade and ensuring its safe use.

3 cl, 1 dwg

Description

The invention relates to ammunition intended for completing non-lethal grenades used in training personnel in close combat techniques, for paramilitary games simulating the explosion of standard ammunition, and suitable for use by law enforcement agencies as a means of countering violators of law and order.

The proposed technical solution can significantly increase the stability and reliability of separating the upper part of the fuse with traumatic parts from the grenade body when the fuse is triggered and ensure the safety of its use. The shock-starting mechanism of such a fuse can be made both axial (along the axis) and rotary action.

The level of this field of technology is characterized by a manual fan of close combat of NATO troops of the brand BRM-75, described in the reference book by B.V. Pribylov. Hand grenades, M, "Arctic 4D", 2004, p. 131, containing an explosive-filled polymer corrugated body with a composite shell adjoining from the inside, into the polymer matrix of which distributed balls with a diameter of 1.5 mm are introduced, representing ready-made submunitions, and a fuse screwed into the central hole of the body. The fuse includes a body, a striker with a mainspring, a safety handle with a check and a fire-conducting chain in which an igniter primer, a powder retarder with a burning time of 3.5-4 seconds and a detonator are installed in series. The drummer is installed with the possibility of rotation about the axis, which in official use (before actuation) is geometrically closed by a safety handle fixed on the body by means of a cotter pin equipped with a pull-out ring.

However, the fuse of this combat grenade, which has metal parts in its design and fully performs the function of reliable ignition of the grenade explosive, cannot be used for installation in non-lethal grenades. This is due to the fact that when a grenade with such a fuse is triggered, its heavy metal parts, flying apart, can cause severe bodily harm to others.

The noted drawback is partially eliminated in a practical hand grenade according to the utility model patent RU 140656 U1, F42B 8/14, 2013, in which most of the structural elements of the fuse, except for the striker spring and pins, are made of polymeric materials. In accordance with the technical solution for this patent, the fuse screwed with the shell of the grenade contains a pyrotechnic fire-conducting chain of sequentially located pressings of the initiating composition in the throttling bushing and placed in the deaf axial tube of the deceleration cord and explosive executive charge to actuate the functional filling of the grenade. The polymer striker ignites the initiating composition in the fire-conducting chain with the energy received from the torsion spring when the safety handle is released from the user's palm, which then rotates, freeing the striker's path.

This fuse, despite the fact that it has a minimum of metal parts, is a danger to others. The massive parts of the fuse made of plastic, when the grenade fires, have enough energy to inflict bodily harm on them.

This disadvantage is eliminated in the fuse for a non-lethal hand grenade described in the patent for invention RU No. 2235289 C1, F42C 14/02, 2003, in which the safety-pricking mechanism containing dangerous metal parts is separated from the grenade at a relatively low speed, safe for the thrower. According to the number of matching features and technical essence, this fuse is selected as the closest analogue to the proposed fuse and is accepted by the applicant as a prototype.

According to the features of the patent, the fuse contains a housing with an igniter-retarder unit located in it (an igniter cap, a pyrotechnic retarder and a detonator cap), as well as a safety-pricking mechanism containing a sleeve fastened to the housing, a spring-loaded drummer, a trigger lever, a cotter pin and a ring.

The design feature of this fuse is that the sleeve has a longitudinal section and its threaded or corrugated part is pressed onto the seating surface of the body, which is made of soft plastic and is equipped with a branch pipe that goes deep into the sleeve. Slots are made in the pipe wall to direct the gas pressure of the primer-igniter when it is triggered to the walls of the sleeve, and the drummer is equipped with a washer that blocks the exit of gases of the primer-igniter from the cavity of the tube. The gas pressure pushes the parts of the safety-impact mechanism away from the grenade and, by opening the sleeve, facilitates its release from the body of the igniter-retardant assembly, due to which the traumatic parts of the fuse are separated from the grenade at a low speed until the main charge of the grenade is triggered.

The disadvantage of the known fuse for a non-lethal hand grenade is the instability of the process of separating the safety-spear mechanism from the grenade, which is explained by the presence of many parameters (physical and geometric) that determine this process and have their own deviations from the nominal values. These include: the elastic properties of the material of the sleeve and the body, the depth of the corrugation and thread on the sleeve, the thickness of the wall of the sleeve, the height of the branch pipe, the tightness between the body and the sleeve, the degree of tightness of the branch pipe with the washer. Parameters such as the modulus of elasticity and shear of the material, the thickness of the liner wall, the depth of the corrugation or thread on the liner, the interference between the body and the liner due to their deviations from the nominal, as well as the difficulty of their control and ensuring optimal values, create an uncertainty in the amount of friction between the liner and the body, and fluctuations in the height of the nozzle and the low tightness of the nozzle with a washer make the gas pressure in the nozzle unstable when the igniter primer is triggered. The combination of the uncertainty of friction between the sleeve and the body with the instability of the gas pressure in the nozzle makes the process of separating the safety-pricking mechanism from the grenade unreliable. The mechanism may accidentally separate from the grenade in service, such as when dropped to the ground. At the same time, it can work late, along with the main charge of the grenade, which is unsafe for others.

The technical problem to be solved by the present invention is to increase the stability and reliability of the separation of the safety-spike (shock-starter) mechanism from a non-lethal grenade and ensure its safe use.

The specified technical result in the implementation of the invention is achieved by the fact that in the well-known fuse to a non-lethal hand grenade, including a shock-starting mechanism mounted on the body of the retarding-initiating unit, containing an igniter cap, a pyrotechnic retarder and a detonator cap or igniter, the body of the retarding the initiating assembly is made of two parts connected by a tubular thin-walled sleeve located between the igniter capsule and the pyrotechnic retarder, and made of plastic, which is destroyed by gas pressure when the igniter capsule and the pyrotechnic retarder are triggered. This leads to the separation of the upper part of the body with the shock-starter mechanism and the primer-igniter attached to it.

To ensure the destruction of the thin-walled sleeve by gases generated in the volume enclosed between the igniter capsule and the pyrotechnic moderator, the distance between them is chosen to be no more than 2.5 diameters of the working end of the pyrotechnic moderator, the wall thickness of the tubular sleeve is in the range of 0.8 - 1 mm., and the outer surface of the coupling is made with stress concentrators, for example, in the form of V-shaped grooves made in the form of notches applied to the outer surface of the coupling along its axis. The number of stress concentrator grooves is from 4 to 12, and their depth is in the range from 0.3 to 0.5 mm.

The separation of parts from the grenade occurs before the operation of the main functional charge of the grenade from the igniter or detonator cap, ensuring the safety of the use of the grenade.

The distinctive features of the proposed technical solution made it possible to get away from the dependence of the process of separating traumatic parts of the shock-starting mechanism from many factors (physical and geometric) inherent in the prototype and to increase the stability of this process and the reliability of the fuse to a non-lethal grenade.

New in the fuse is the implementation of the case in two parts, connected by a tubular thin-walled coupling made of plastic, for example, polyamide, destroyed by gas pressure when the primer-igniter and pyrotechnic retarder are triggered, which leads to the separation of the upper part of the case with the trigger mechanism fixed to it and primer-igniter. The separation of parts from the grenade occurs before the operation of the main functional charge of the grenade from the igniter or detonator cap, ensuring the safety of the use of the grenade.

In accordance with the technical solution proposed by the authors, the distance between the igniter capsule and the pyrotechnic retarder should be no more than 2.5 diameters of the working end of the pyrotechnic retarder. This is due to the fact that to ensure guaranteed destruction of the clutch when the fuse is triggered, there must be sufficient gas pressure between the igniter capsule and the pyrotechnic retarder. This pressure depends not only on the amount of gases generated by them, but also on the volume of the cavity between them. It has been established that this volume can guarantee the required pressure if the distance between the primer-igniter and the moderator does not exceed 2.5 diameters of the working end of the pyrotechnic moderator. An increase in this distance leads to an increase in the volume of the cavity and a decrease in the pressure of gases in it and, as a result, to non-destruction of the coupling.

The wall thickness of the tubular coupling should be in the range of 0.8 - 1.0 mm, which guarantees its destruction when the fuse is triggered and ensures sufficient strength in official use. The thickness of the coupling above the upper limit (1.0 mm.) increases its strength and prevents destruction, and the thickness of the coupling below the lower limit (0.8 mm.) can cause its destruction during manufacture, accidental fall and other situations.

The application of stress concentrators in the form of V-shaped grooves on the outer surface of the coupling, made in the form of cuts, makes the process of destruction of the coupling when the fuse is triggered more stable. At a high pressure of gases generated by the primer-igniter and retarder, the sleeve, stretching, is easily destroyed in the zone of cuts applied to its surface, which are stress concentrators. For technological reasons, as well as for reasons of maintaining strength in office use, the V-shaped grooves are made longitudinal. It has been experimentally established that the number of grooves should be from 4 to 12, and their depth should be in the range from 0.3 to 0.5 mm.

The proposed technical solution makes it possible to increase the stability and reliability of the separation of the firing mechanism from the grenade when the fuse is fired not only with axial (along the axis) action, but also with a rotary one, which ensures its greater applicability.

The essence of the proposed technical solution is illustrated by the drawing (see Fig. 1), which shows a general view of the fuse with a rotary impact trigger mechanism.

The fuse consists of a trigger mechanism, which includes a handle 1, a pin (pin 2 and a ring 3), a drummer 4, a spring 5 and a frame 6. The trigger mechanism is fixed in the upper part of the body 7 of the retarding-initiating unit, in which igniter cap 8. In the lower part of the body 7 there is a pyrotechnic retarder 9 and an igniter or a detonator cap 10. The upper and lower parts of the body 7 of the retarding-initiating unit are connected by a tubular coupling 11 with V-shaped grooves in the form of notches applied to its surface.

In the service position, the handle keeps the drummer from turning and is fixed with a pin on the frame 6.

The proposed fuse operates as follows.

Before using a grenade with a fuse screwed into it, the cotter pin 2 is pulled out by the ring 3, and the handle 1 is held by hand. When throwing a grenade, the handle 1 is released and allows the striker 4 under the action of the torsion spring 5 to turn and hit the primer-igniter 8. When triggered, the primer-igniter 8 ignites the pyrotechnic retarder 9 with its force. The resulting gases cause pressure in the cavity between the primer-igniter 8 and the retarder 9, which causes the destruction of the tubular coupling 11 connecting the upper and lower parts of the body 7 screwed into the grenade. There is a separation from the grenade of the upper part of the body along with the shock-starting mechanism. After the separation of the firing mechanism from the grenade, the firing force of the moderator 9 ignites the igniter or detonator cap 10, which, when triggered, actuate the main charge of the grenade, devoid of traumatic firing mechanism and igniter cap 8.

Tests of prototypes of the fuse confirmed the correctness of the choice of technical solutions incorporated in its design and made it possible to use it for completing non-lethal hand grenades as a safe close combat weapon for paramilitary games, simulating the explosion of regular ammunition, and suitable for training personnel in close combat skills, as well as law enforcement agencies as a means of countering violators of law and order.

The comparative analysis of the proposed technical solution with the identified analogues did not reveal the coincidence of the set of essential features, which confirms the novelty of the technical solution.

The proposed distinguishing features in conjunction with the known features do not explicitly follow for a specialist in pyrotechnics, that is, the technical solution is not obvious and does not directly follow from the prior art.

The proposed design of the fuse is technologically suitable for mass production at the current production.

Therefore, it can be concluded that the proposed fuse for a non-lethal hand grenade meets the conditions of patentability.

Claims (3)

1. A fuse for a non-lethal hand grenade, including a firing mechanism fixed in the upper part of the body of the retarding-initiating assembly, in which an igniter cap, a pyrotechnic retarder and an igniter or a blasting cap are located, characterized in that the body of the retarding-initiating assembly made of two parts connected by a tubular thin-walled sleeve located between the primer-igniter and the pyrotechnic retarder and made of plastic, destroyed by gas pressure when the primer-igniter and the pyrotechnic retarder are activated, while the distance between the primer-igniter and the pyrotechnic retarder is chosen no more than 2, 5 diameters of the working end of the pyrotechnic moderator, the wall thickness of the tubular coupling is in the range of 0.8-1 mm, and the outer surface is made with stress concentrators. 2. The fuse according to claim 1, characterized in that the stress concentrators are in the form of V-shaped grooves made in the form of cuts applied to the outer surface of the coupling along its axis. 3. The fuse according to claim 2, characterized in that the number of grooves is from 4 to 12, and their depth is in the range from 0.3 to 0.5 mm.

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