RU2603993C1 - Signal cartridge - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: invention relates to military equipment, namely, to grenade signal cartridges used for target marking, as well as for supply of signals. Signal cartridge comprising case with propellant charge and destructed during firing grenade attached to it, including a housing formed by the bottom in the form of a glass with a steering band and a fairing with cylindrical extension coupled therewith by destructed during firing grenade, pyrotechnic retarder arranged in the housing bottom and powder charge adjoining on the propellant charge, adjacent to the pyrotechnic retarder, and sound vibration mechanical generator adjacent to the propellant charge. Powder charge is separated from the fairing with cylindrical extension piece by a partition fixed in the housing bottom and containing, at the side of the fairing, axial and peripheral dead seats uniformly located around it, connected with powder charge by axial holes. Peripheral seats are open radially outward and together with axial holes therein are connected in series with each other by annular groove, made in the partition, sources of light signals in the form of blocks of end burning in shells are placed therein, which are made of combustible material. In the axial seat there is a sound vibration mechanical generator made in the form of a pyrotechnic cartridge of end burning inserted into a shell of fireproof material. In the generator shell between its burning end of the pyrotechnic cartridge and the bottom of the corresponding seat in the partition there are cylindrical stop, projecting from the shell and containing a through axial channel, annular groove on outer surface and end slot on the side of the pyrotechnic cartridge, crossing through axial hole and passing in annular groove. Source of light signals and vibration mechanical generator are pressed in direction of partition by a clamp.

EFFECT: invention ensures to simplify design, decrease weight, increase reliability and stability of operation regardless of the time of day and weather conditions.

1 cl, 3 dwg

Description

The invention relates to the field of military equipment, namely to grenade launcher cartridges used for target designation, control of the actions of military units on the battlefield, as well as for signaling warning of the possibility of any aggressive or massive actions by an opposing enemy: massive bombing and artillery shelling, chemical attacks, etc., however, can be used in signal ammunition and other weapons.

The supply of warning signals is the most important task of the above, and therefore, these signals should be clearly distinguishable against the background of the battlefield at the greatest possible distance and at the same time should be perceived by at least one human sensory organ, but at any time and at any time climatic conditions. As applied to signal cartridges for hand grenade launchers, as to portable weapons samples, the operation of their signal generating elements should occur at a sufficiently high altitude and be accompanied by an unusual sound for the battlefield either in timbre, or in height, or in duration and with unusual visual perception: a large number of light sources, or their color, or expansion zone, etc.

Known signal cartridges do not fully satisfy these requirements.

For example, the American signal cartridge M585 for hand grenade launchers described in the "Jane's Ammunition Handbook Edited by Terry J Cander and Charles Q Cutshaw Ninth Edition 2000-2001" (p. 572) and adopted by the authors and applicant of the present invention with its analogue, is used only for signaling, target designation and terrain lighting in the dark.

The analogue consists of a sleeve and a grenade attached to it, destroyed during firing, in the cavity of which, formed by an aluminum case in the form of a glass with a leading belt and a plastic fairing, connected by a connection being destroyed at the required height, there are five channel pyrotechnic checkers installed in series and resting on the bottom corps. A pyrotechnic moderator is placed in the bottom of the case, which ignites the expelling powder charge at an altitude of 167 m. The expulsion detaches the cowling and ejects the pyrotechnic checkers in the form of a single unit burning from the channels, which is then separated by random propagation of the front onto all other surfaces.

From the description of the analogue it can be seen that the signals supplied by it are perceived only visually and mainly in the dark. In clear weather during the day they are poorly distinguishable and can be confused with other similar signals, and in rain, fog and snow they are generally not effective.

The disadvantages of the analogue are largely eliminated in the signal cartridge according to patent RU No. 2512048 C1 of 02/10/2014 (priority of 11/29/2012), selected by the authors and applicant of the present invention with its prototype.

The prototype consists of a sleeve with a propelling charge and a grenade connected to the sleeve by a bond destroyed by firing, for example, glue. The grenade is formed by a case in the form of a glass made of plastic with a molded bottom hole, in which a pyrotechnic moderator is fixed, a recess adjacent to this hole, in which a powder charge is placed, a leading girdle on the outer cylindrical surface and a diametrical diminution at the open end and a plastic fairing molded together with its thin-walled extension cord, with which the fairing is mounted on the diametrical lowering of the body and connected to it with the same adhesive that holds the grenade together with the sleeve.

In the grenade cavity, with emphasis in its bottom, several sequentially installed light signal elements are placed - channel pyrotechnic checkers, pressed by a mechanical sound vibration generator mounted in the fairing and its extension cord and using the energy of an air or gas stream to create sound vibrations. The generator is a Levasser whistle (see the book “Ultrasound”, Little Encyclopedia, ed. “Soviet Encyclopedia”, Moscow, 1979, pp. 314-315): when using a free air jet containing a hole in front of the generator that is closed by a discharge when opening a grenade with a lid, and when using the energy of a gas stream - powder gases of a powder bomb, placed in front of the whistle and ignited by the powder gases of the charge, opening the grenade and igniting the pyrotechnic checkers from the channel side in them.

The description of the prototype shows that it has the following disadvantages:

- high mass and complexity caused by the need to ensure strength, eliminating the destruction of the resonator and the fairing with the extension cord when the front cover is reset or the powder of the generator ignites, and the sound generator is mounted in the extension cord and fairing;

- when using a jet of incoming air - a high dependence on the state of atmospheric air, for example, during rain, snow and fog, the efficiency of the whistle will decrease, as well as with a decrease in the translational speed of the generator with a cowl, until the sound disappears completely;

- when using a generator with a powder checker, the low reliability of its ignition by the powder charge opening the grenade, due to the complex gas-dynamic channel connecting them;

- random expansion of channel pyrotechnic checkers after they leave a grenade for the same reason as in the analogue. The last drawback will not allow you to visually distinguish the desired signal from other similar ones.

The technical task of the present invention is to eliminate the disadvantages of the known signal cartridges, namely, simplifying the design, reducing weight, improving reliability and stability, regardless of the time of day or weather and climate conditions.

The solution of the stated technical problem is achieved by the fact that in the signal cartridge containing a cartridge with a propelling charge and connected to it by a grenade that is destroyed when fired by a shot, including a case formed by a bottom in the form of a glass with a leading belt and fastened to it by a cowling with a cylindrical cowl which is destroyed when the grenade is fired an extension cord, a pyrotechnic moderator located in the bottom of the body and adjacent to the propellant charge, a powder charge adjacent to the pyrotechnic moderator, and a mechanical generator Vukov oscillations adjacent to the powder charge, the powder charge is separated from the fairing with a cylindrical extension baffle mounted in the bottom of the housing and containing from the fairing side axial and evenly spaced peripheral deaf sockets connected by axial holes with the powder charge, while the peripheral nests are open in radially outward and together with the axial holes in them are sequentially connected to each other by an annular groove made in the partition, and in them placed nicks of light signals in the form of end-burning checkers in shells that are made of combustible material, and in the axial socket there is a mechanical generator of sound vibrations made in the form of a pyrotechnic end-burning checker, pressed into a shell of non-combustible material with its burning end from the end of the shell placed a distance equal to 1-3 internal diameters of the shell, and in the shell of the generator between the burning end of its pyrotechnic checker and the bottom of the corresponding socket in the partition are installed an cylindrical stop protruding from the shell and containing a through axial channel, an annular groove on the outer surface and an end groove from the side of the pyrotechnic block crossing the through axial hole and passing into the annular groove, while the light signal source and the mechanical oscillation generator are pressed in the direction of the septum by pressing, compensating technological tolerances for the manufacture of long dimensions of signal sources and fairing with extension cord.

In a particular case, the clamp is formed by a threaded axial hole made in a cowl into which a threaded sleeve is screwed, having an inner diameter corresponding to the outer diameter of the shell of the mechanical generator of sound vibrations, and pressing its end against the ends of the light signal sources with a slot with sockets under them open in the radial outward direction and with a sealing compound, which fill the cavities of the threaded sleeve and the threaded socket under it above the sound signal source to the level of the fairing.

The essence of the invention is illustrated by drawings, where in FIG. 1 shows a patentable cartridge in section and in FIG. 2 and 3 - section AA and BB in FIG. one.

The signal cartridge according to the invention consists of a sleeve 1 with a propelling charge 2 and a grenade 3. The grenade 3 is destroyed when the bond (glue) is destroyed during firing. The grenade 3 is formed by a plastic casing 4 and a plastic fairing 5 with a thin-walled plastic extension 6.

The housing 4 is a glass molded with a bottom hole, in which a pyrotechnic moderator 7 is placed, with a leading belt 8 on the outer cylindrical surface and a diametrical reduction of 9 at the front open end, on which the extension 6 of the fairing 5 is mounted on the adhesive, which connects the grenade 3 with sleeve 1. This ensures a stable separation of the housing 4 and the fairing 5 at a given height of the trajectory after the burning of the pyrotechnic moderator 7.

The housing 4 is separated from the cavity of the fairing 5 with its extension 6 by a partition 10 screwed or glued into it, and a powder charge 11 is placed in the cavity formed by them.

At the end of the partition 10 from the side of the fairing 5, a central socket 12 is made and the peripheral sockets 13 are connected by axial holes 14 with a powder charge 11. The axial holes 14 and the peripheral sockets 13 are connected to each other by an annular groove 15 made on the end of the partition 10.

In the central socket 12 there is a mechanical generator of sound vibrations formed by a pyrotechnic checker 16, pressed into the shell 17 to a depth equal to 1-3 of its diameters. A stop 18 is installed between the bottom of the central socket 12 and the pyrotechnic checker 16, having a length greater than the distance from the end of the pyrotechnic checker 16 to the edge of its shell 17, and containing an axial hole 19, a groove 20 on the outer surface and an end groove 21 from the side of the pyrotechnic checker 16 connecting the axial hole 19 with the cavity of the groove 20.

In the peripheral sockets 13 there are light signal sources made in the form of pyrotechnic checkers 22 for end combustion, pressed into shells 23, made of combustible material, for example, aluminum, combustible plastic, etc.

The light sources and the mechanical generator of sound vibrations are pressed against the partition 10 (to the bottoms of the respective sockets 13 and 12) by a clamp 24 in the form of a disk containing an axial hole 25 under the shell 17 of the mechanical generator of sound vibrations and peripheral sockets 26, as well as peripheral sockets 13 in septum 10, i.e. open radially outward. The clamp is pressed by a threaded sleeve 27 containing an axial hole 28 corresponding to the diameter of the shell 17 and screwed into the threaded hole 29 in the fairing 5. The longitudinal movement of the sound generator and sealing the internal cavity of the grenade is formed by the adhesive 30 filling the free cavities of the threaded sleeve 27 and threaded hole 29 to the level of the fairing 5.

The operation of the described cartridge occurs in the following sequence. In the process of firing a grenade 3 from the sleeve 1 is separated under the influence of the pressure of the powder gases from the combustion of the propellant charge 2, accelerated along the length of the barrel to the required longitudinal and peripheral speeds and leaves the barrel. At the same time, the pyrotechnic retarder 7 of the grenade is ignited. Sockets 12, 13 and 26 allow the grenade gear to be reliably involved in rotation around its axis, and the stop 18 prevents the free part of the shell 17 from being crushed under the action of longitudinal overload during firing. After the pyrotechnic moderator 7 burns out, when the grenade 3 gains the necessary height, the moderator ignites the powder charge 11. Moreover:

- gases flowing through the holes 14 of the peripheral sockets 13 enter the annular groove 15, light sources of light are ignited from the ends of their pyrotechnic checkers 22 facing them and together with the products of their combustion they fill the grenade cavity through the annular groove 15 passing to its fairing;

- gases flowing through the hole 14 of the central socket 12, enter the axial hole 19 of the stop 18, push cold air out of it through the end groove 21 into the annular groove 20 on the outer surface of the stop and reliably ignite the pyrotechnic checker 16 from the end facing them.

Under the influence of internal pressure, the body 4 of the grenade 3 is separated from the extension 6 of the head fairing 5, according to their adhesive connection and they diverge in the longitudinal direction, continuing to rotate. At the same time, the gases that entered the cavity between the clamp 24 and the fairing 5, with their pressure on them, push the clamp 24 and the light sources back, and the fairing 5 with the extension 6 and the sound vibration source 30 bonded to them with adhesive composition 30 - forward. After that, the sources of light signals (checkers 22 in the shells 23) under the action of centrifugal force from their rotation relative to the axis of the grenade 3 diverge in the radial direction, forming a regular diverging circle. Burning shells will increase the intensity of burning of sound sources.

At the same time, the gases from the combustion of the pyrotechnic checkers 16 in the shell 17 push the stop 18 out of it and begin to flow into the atmosphere. As the pyrotechnic checker 16 burns out, a cavity is formed between its burning end and the rear open end of the shell 17, in which the combustion products of the checker will sequentially accumulate and discharge into the atmosphere, creating strong sound vibrations, the frequency, volume and timbre of which will be determined by the diameter and burning speed pyrotechnic checkers 16, the amount of generated slag and gas fraction and the remoteness of the combustion surface from the open end of the shell 17.

From the description of the device and the operation of the signal cartridge of the present proposed invention it is seen that:

- the sources of light signals and the source of the sound signal in it due to the end combustion of pyrotechnic checkers in them have a longer time for signaling than the analogue and prototype;

- the light signal sources, diverging after ejection from the grenade, form a regular circle, and their number in the grenade can be much more than five - how many can fit in the annular cavity between the sound oscillation generator and the cowl extension, i.e. will form a stable distinguishing feature;

- the operation of the generator of sound vibrations will be more reliable due to the convergence of its combustion surface with the source of its ignition and it will not depend on weather and climate conditions, its speed and position relative to the flight path.

Claims (2)

1. A signal cartridge containing a sleeve with a propelling charge and connected to it by a grenade that is destroyed during firing, including a housing formed by a glass-shaped bottom with a leading girdle and fastened with it by a link that is destroyed when the grenade is fired, a cowl with a cylindrical extension, a pyrotechnic moderator, placed in the bottom of the casing and the powder charge adjacent to the propellant charge adjacent to the pyrotechnic moderator, and the mechanical generator of sound vibrations adjacent to the powder charge, distinguishing The fact that the powder charge is separated from the fairing with a cylindrical extension by a partition fixed in the bottom of the housing and containing from the fairing side an axial and evenly spaced peripheral deaf nests connected by axial openings with a powder charge, while the peripheral nests are open radially outward and together with the axial holes in them are connected in series with each other by an annular groove made in the partition, and light sources in the form of checkers torus are placed in them combustion in the shells, which are made of combustible material, and in the axial socket there is a mechanical generator of sound vibrations made in the form of a pyrotechnic checker of end combustion, pressed into the shell of non-combustible material with the placement of its burning end from the end of the shell at a distance of 1-3 the inner diameters of the shell, and in the shell of the generator between the burning end of its pyrotechnic checkers and the bottom of the corresponding socket in the partition there is a cylindrical stop protruding from the shell and and containing a through axial channel, an annular groove on the outer surface and an end groove from the side of the pyrotechnic block, intersecting the through axial hole and passing into the annular groove, while the light signal source and the mechanical oscillation generator are pressed in the direction of the partition by a clamp, compensating for manufacturing technological tolerances for manufacturing long sizes of signal sources and fairing with extension cord. 2. The signal cartridge according to claim 1, characterized in that the clamp is formed by a threaded axial hole made in the cowling into which a threaded sleeve is screwed, having an inner diameter corresponding to the outer diameter of the shell of the mechanical generator of sound vibrations, and pressing its end against the ends of the light sources signal drive with sockets under them, open in the radial direction outward, and a sealing compound, which fill the cavity of the threaded sleeve and the threaded hole under it above the sound signal source Scraps to fairing level.

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