RU2262064C2 - Smoke charge - Google Patents

Abstract

FIELD: unitary charging ammunition, in particular, charges for smoke ammunition (grenades, mines, shots), applicable for setting of aerosol screen with the aim of blinding and smoking up of enemy emplacements.

SUBSTANCE: the smoke charge has a body with a cylindrical section placed in it made of aerosoleforming compound and having a cylindrical channel filled with an igniting-bursting charge. The relation of the diameters of the cylindrical section and channel makes up from 3 to 5, phegmatized hexogen is used as the igniting-bursting charge, and the aerosoleforming compound contains (percent by mass): red commercial phosphorous -87-91, fluorine-containing elastomer - 8-10, graphite -1-3.

EFFECT: the offered charge in the facilities of sighting use provides for production of an aerosol screen, blinding the enemy emplacements, with a high masking effect, enhanced time of existence.

1 dwg

Description

The present invention relates to ammunition of unitary loading, in particular to charges for smoke munitions (grenades, shots), and can be used to set an aerosol curtain to blind, smoke firing points of the enemy.

Currently, a significant emphasis in the development of smoke means is made on the creation of smoke ammunition for standard means of close combat such as underbarrel grenade launchers, hand grenade launchers, light infantry and small-sized rocket flame throwers, providing a range for setting curtains of 400-1500 m. These means allow you to smoke with one aimed shot ( blind) firing point, launcher, fire adjustment point. Small volumes allocated for the placement of a smoke charge in an ammunition require the use of charges providing a high masking effect per unit volume of charge.

Known designs of smoke charges, consisting of a cylindrical section made of individual checkers (disks), channel or placed with a gap, the combustion of which occurs simultaneously (Germany patent No. 2606966, class C 06 D 3/00; France patent No. 2309831; class; F 42 B 13/44; UK patent No. 1529263, class F 3 A; US patent No. 4391197, class 102-334; France patent No. 2407454, class F 42 B 13/44). A channel runs along all the checkers. The second compartment contains igniter and propellant charges. These charges are in separate chambers, have separate ignition devices and operate in series. The disadvantage of such charges is the low charge density, i.e. low content of the active substance (red phosphorus) per unit volume of the charge, as well as the irrational distribution of smoke-forming substances in space and time when the charge is triggered. This leads to the creation of a smoke cloud with low masking characteristics and the inefficiency of the use of such charges in close combat weapons.

The closest technical solution (prototype) is the smoke charge of an ROF L8AI RP grenade (England, see Jene's Infantry Weapons, 1985-86) with electric ignition and a rubber case, exploding in the air. The charge is designed to create a curtain in the form of a large cloud of smoke and smoking particles of red phosphorus, which fall to the ground and continue to burn, supporting the instantly formed smoke curtain.

A cylindrical charge in a rubber shell with a cylindrical section located in it is made of a set of loosely packed ring tablets containing granules of an aerosol-forming composition. The composition is a mixture of red phosphorus and synthetic butyl rubber in a ratio of 95: 5. L8AI grenade charge has low-density equipment (ρ = 1.2 g / cm ³ ), the content of the active substance - red phosphorus - 95%, i.e. the content of the active substance in 1 cm ^{3 of} charge is 1.2 × 0.95 = 1.1 g. In the central channel of the charge is placed an ignition-bursting charge (SCD) of black powder. The ratio of the mass of the composition of red phosphorus and the charge of the SEC is 24: 1. When firing, a grenade is thrown by a propelling charge, which simultaneously ignites the moderator. After 0.75 s, the retarder undermines the central explosive charge spreading the tablets, creating a smokescreen for ~ 2 s.

The disadvantage of this charge is the absence of a high-temperature spatially extended zone from the triggering of the explosive propellant explosive, which leads to incomplete ignition of the dispersed phosphorus equipment, which, in turn, leads to a low masking effect of the aerosol cloud. As a result of this, in order to ensure the appropriate level of effectiveness of the camouflaging action, the volley launch of L8AI RP grenades is used, which in principle is unacceptable for single means of close combat.

In addition, the charge defense device has a low power, which is compensated by the mandatory use of a low-strength (rubber) grenade body, which does not allow the use of a grenade for firing from standard means of close combat (underbarrel grenade launchers, assault flamethrowers).

Thus, the disadvantages of this technical solution are the low masking effect of the aerosol cloud, the low power of the SEC, the short lifetime of the masking cloud.

The objective of the present invention is to provide a smoke charge of increased masking power and providing a high masking effect of an aerosol cloud, a large power of VZH, increased lifetime of the masking cloud.

This task is achieved in that the smoke charge to create a masking cloud, comprising a housing with a cylindrical section located therein, made of an aerosol-forming composition and having a cylindrical channel filled with VRZ, is characterized in that the ratio of the diameters of the cylindrical section and the channel is from 3 to 5, phlegmatized RDX is used as a VHF, and the aerosol-forming composition contains (in% by mass):

red phosphorus technical 87-91 fluororubber 8-10 graphite 1-3

The proposed charge has a density ρ = 1.83 g / cm ³ , the content of red technical phosphorus is at least 87%, which ensures the content of the active substance in 1 cm ³ charge 1.83 × 0.85 = 1.56 g, which is approximately 40% [(1.56-1.1): 1.1] more than in the charge of the prototype, providing the creation of an aerosol cloud with a high masking effect.

The use of phlegmatized RDX as a flammable explosive substance makes it possible to aerosolize high-density aerosol-forming equipment based on red phosphorus with a high utilization factor, thereby increasing the size of the curtain, creating a high-density aerosol cloud with a high masking effect and increased lifetime ..

The use of fluorine-containing rubber in the charge instead of the well-known butyl rubber (prototype) also contributes, due to the high oxidizing properties of fluorine, to an additional increase in the completeness of the use of red phosphorus as an aerosol forming agent in high-density charges due to the combustion of a large fraction when exposed to wet soil, grass, snow.

The ratio of the diameters of the charge of aerosol-forming equipment and phlegmatized RDX from 3 to 5 is optimal in terms of providing the maximum masking cloud, and high-density charge equipment allows its use in targeted applications (with high overloads) at a distance of over 400 m.

Thus, the totality of these distinguishing features allows you to create a smoke charge for smoke-mounted ammunition for targeted use with the aim of setting an aerosol cloud with a high masking effect and an increased lifetime of the masking cloud.

The drawing shows a General view of the smoke charge, consisting of a housing 1, which can be made of aluminum, cartridge paper, a combination of aluminum with cartridge paper, a cylindrical section 2 of a pressed pyrotechnic smoke-forming composition and high-density VRZ 3 located in channel 4.

The cylindrical section is made of pressed monolithic high-density pyrotechnic phosphorus-containing composition with a content of red phosphorus of at least 87% and a chemically active fluororubber additive. High-density creep chamber made of phlegmatized RDX. The ratio of the diameters of the cylindrical section to the SEC is from 3 to 5.

The charge works as follows: after a detonation pulse is supplied to the SEC from the detonator capsule of the charge delivery vehicle (grenades, mines), it fires with the formation of a shock wave. The front front of the detonation wave breaks up the cylindrical section with a pyrotechnic phosphorus-containing composition, forms a cloud of an air mixture of finely dispersed phosphorus (⌀ less than 1 μm), ignites it, and the rear front of the shock wave accelerates the large and medium fractions of the crushed charge and distributes them in space. Moreover, these fractions reliably ignite in the high-temperature zone of a fine cloud. The dispersion of the medium and large fractions of phosphorus-containing equipment in space, which determines the size of the aerosol cloud, and its degree of ignition, which determines its optical density, depend on the power of the leading and trailing edges of the shock wave and, therefore, on the ratio of the diameters of the secondary windshield and the cylindrical section of the aerosol-forming equipment.

Thus, the proposed smoke charge allows you to create an aerosol cloud with a high masking effect, increased lifetime, sizes from 15-20 m to 50-70 m (depending on the mass and size parameters of the charge).

Claims (1)

Smoke charge for creating a masking cloud, comprising a housing with a cylindrical section located in it, made of an aerosol-forming composition and having a cylindrical channel filled with a burst-ignition charge, characterized in that the ratio of the diameters of the cylindrical section and the channel is from 3 to 5, as igniter the explosive charge uses phlegmatized RDX, and the aerosol-forming composition contains, wt.%: technical red phosphorus 87-91, fluororubber 8-10, graphite 1-3.