RU39945U1 - HEAD BLASTER - Google Patents

Abstract

The utility model relates to remote combined fuses of double action, shock and time, which are triggered by inertial movement of mechanisms when they meet an obstacle and after a specified period of time from the moment of the shot, determined by the combustion of the powder element of the self-destruction mechanism. The head fuse for small-caliber artillery cartridges contains a detonator capsule mounted in the longitudinal groove of the body, a retardation means, and an igniter capsule connected by means of a pyrotechnic channel with a self-liquidation self-elimination mechanism, the axial tip of which is equipped with an inertial cocking mechanism including a spiral stopper located inside the movable stopper above the annular groove of the transverse jumper, and is associated with a shock reaction mechanism made in the form of balls, placed in the radial channels of the housing, inclined toward the center from its peripheral annular groove, closed with a conical fairing. What is new is that the conical fairing is interfaced with the monolithic head highlander of the housing, and the retardation device is made in the form of a membrane shutter of a longitudinal groove closed from below by a receiver with peripheral throttling holes, which is located directly above the detonator capsule. The proposed technical solution provides an increase in the damaging high-explosive fragmentation of a small-caliber artillery shell with a simpler head fuse, which ensures its rupture behind the obstacle, inside the target.

Description

The invention relates to remote combined fuses of double action, shock and temporary, triggered by inertial movement of mechanisms when meeting with an obstacle and after a specified period of time from the moment of the shot, determined by the combustion of the powder element of the self-destruction mechanism.

The prior art characterizes the head fuse according to patent RU 2205362 C2, F 42 C 9/14, 2001, remote combined action, shock and time, selected by technical nature and the number of matching features as the closest analogue.

A well-known head fuse contains a housing in which an igniter capsule, an axial stinger, a retarding sleeve closed by a gasket, a fuse, a radiation detonator capsule and a self-liquidation mechanism are installed.

The axial sting has an inertial cocking mechanism, including a spiral stopper, a central rod with a support head and a shock reaction mechanism.

A longitudinal groove is made in the housing, in which an annular sleeve with a spiral stopper placed inside it is mounted on the transverse jumper.

The shock reaction mechanism has a safety membrane mounted at the end of the housing.

The self-liquidation mechanism includes a pyrotechnic channel connecting it with a radiation detonator capsule.

The support head of the central rod is made of rounded shape with the possibility of hard fixation on top of a conical fairing, under which a peripheral annular ring is made in the housing

groove and radial inclined grooves of the message placed in them balls with an axial sting.

This head fuse is characterized by all-weather use, that is, the independence of a given explosive action on the flight path from the state of the atmosphere: the shock mechanism is insensitive to the dynamic effects of hail, rain, dust, as well as the increased safety of combat use provided by the long-range cocking mechanism.

The latter is important for a ground-based artillery complex, where the trajectory of the projectile can go through its own positions, in the presence of such starting interference for the fuse as tree branches, bushes, etc.

The presence of these safety devices increases the dimensions of the fuse and reduces the combat effectiveness of the projectile, which is especially sensitive in small-caliber ammunition, where the relative volume of the fuse is 30-50% of the volume of the projectile.

However, when firing from artillery systems of sea and air based, there is no need for a long-range cocking mechanism, but at the same time a simple reduction in the dimensions of the fuse from its exclusion from the design will lead to a decrease in the length and volume of the fire chain transmission channel of the ignition force, that is, to increase fuse performance which undermines the projectile on an obstacle when meeting with a target.

The retarding sleeve installed in the longitudinal groove of the body between the igniter and the executive detonator capsule, together with the safety mechanism, do not provide a sufficient delay time for the fuse to act behind the obstacle when the projectile penetrates the target and its highly explosive high-explosive action is most effective.

An additional means of attaching the conical fairing to

the case complicates the design of the fuse, as well as the technology of its manufacture and assembly, which increases the consumer value of the product as a whole.

The problem to which the present invention is directed, is to simplify the design of the head fuse and reduce its size while increasing the efficiency of the combat projectile.

The required technical result is achieved by the fact that in the known head fuse for small-caliber artillery cartridges containing a beam detonator capsule mounted in a longitudinal groove of the body, a retardation means and an igniter capsule connected by means of a pyrotechnic channel with a self-liquidation mechanism, the axial sting of which is equipped with an inertial including a spiral stopper located inside the movable sleeve mounted above the annular groove of the transverse jumper, and associated with a shock reaction mechanism made in the form of balls placed in the radial channels of the housing, inclined to the center from its peripheral annular groove closed by a conical fairing, at the suggestion of the authors, the conical fairing is paired with a monolithic head highlander of the housing, and the deceleration means is made in the form of a membrane a longitudinal groove shutter, closed at the bottom by a receiver with peripheral throttling holes, which is located directly above the detonator capsule.

Distinctive features ensured an increase in the striking high-explosive fragmentation effect of a small-caliber artillery shell with a simpler head fuse, which ensured its rupture behind the obstacle, inside the target.

Membrane shutter of the axial channel of the fuse case, in conjunction with a labyrinth fire channel, equipped with a receiver having

the throttling openings of the communication with the executive beam detonator capsule displaced to the periphery provide a predetermined temporary deceleration in the transmission of the initiating pulse from the incendiary capsule igniter, which reacts when it encounters an obstacle.

At the same time, in the receiver there is an accumulation of gaseous products of combustion generated by the igniter capsule of its pyrotechnic composition, then slowly consumed through peripheral throttle openings, which are local hydrodynamic resistance. The distributed force of the flame of the gaseous products of combustion, then behind the receiver, returns to the center, to the detonator capsule, initiating its operation and the shell burst after a delay time determined by the spatial labyrinth channel of the fuse's fire chain.

The proposed constructive deceleration scheme allowed, due to the exclusion of a special sleeve and a structurally complex fuse with fine-tuning of the precision mechanism, to reduce the fuse dimensions by compactly placing the receiver with a throttle, blocking the exit of the longitudinal groove of the case, above the detonator capsule.

Rigid direct connection of the conical fairing with the mating monolithic head end of the fuse body ensures its reliable operation without intermediate elements, which simplifies the design and assembly technology, reduces the cost of products.

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 problem posed in the invention is solved not by the sum of the effects, but by the sum effect.

The invention is illustrated by the drawing, where, in section,

proposed head fuse.

The invention is illustrated by an example of a lead fuse for cartridges for naval artillery mounts AK-230M and A630M.

In the central longitudinal groove 1 of the housing 2 from the bottom up (according to the drawing), the following are sequentially mounted: a beam detonator capsule 3, a receiver 4, a membrane shutter 5, an igniter 6 and an axial stinger 7.

A rounded conical fairing 8 is mounted on the rounded front end of the housing 2, under which a peripheral annular groove 9 is made in the housing 2. Radial channels 10 of the housing 2 are inclined from the groove 9 to the longitudinal groove 1, in which the balls 11 are placed, forming a reaction reaction mechanism of interaction with butt end of axial sting 7.

The axial sting 7 in the longitudinal groove 1 in its initial upper position is held on a coaxial safety stopper 12 made of a spirally twisted elastic band that is installed inside the movable sleeve 13, which is supported by a gasket 14 that overlaps the annular groove 15 under the sleeve 13 in the transverse jumper 16.

The longitudinal groove 1 of the housing 2, blocked under the igniter capsule 6 by a membrane shutter 5, is closed from below by a thick-walled receiver 4 equipped with throttling holes 17 displaced to its periphery.

The igniter capsule 6 is connected by a pyrotechnic channel 18 to the spring loaded 19 by the capsule 20 mounted above the stationary tip 21 (self-liquidation self-liquidation mechanism).

The fuse operates as follows. At the time of the shot under the influence of inertia from the linear acceleration of the projectile in the barrel bore the guns move down the sleeve 13 and the capsule 20. When

This sleeve 13, bending the gasket 14, is installed at the bottom of the annular groove 15 of the transverse jumper 16, and the capsule 20, compressing the spring 19, is punctured by a tip 2-1, igniting the pyrotechnic composition of the self-liquidation channel 18 with a heat pulse.

The spiral tape 12 free from the sleeve 13 with elastic forces is completely untwisted at a distance of 1.5-3 m flight and releases the sting 7, pressed against the radial channels 10 of the housing 2, balls 11 in which are adjacent to the conical fairing 8 under the action of centrifugal forces of rotation of the projectile.

Paired with a massive end of the rounded body 2, a thin-walled conical fairing 8, rigidly fixed on it, is not deformed from dynamic loads in the power paths of the gun automation and does not have any effects on the balls 11 protruding into the annular peripheral groove 9.

When the projectile encounters a target, the fuse case 2 penetrates through a thin-walled barrier. The deformable fairing 8 into the void of the annular groove 9 functions as a shock drive of the movement of the balls 11 along the radial grooves 10 inclined to the center.

Balls 11 transmit the shock pulse of the collapse of the fairing 8 to the axial sting 7, pushing it along the longitudinal groove 1 until it meets the igniter 6.

The fire pulse when piercing the primer 6 enters the longitudinal groove 1, where after a delay time the membrane shutter 5 burns.

Further, the gaseous products of combustion of the pyrotechnic composition of the igniter capsule 6 accumulate during the estimated time necessary for the projectile to penetrate the obstacle in the receiver 4, from which the throttling openings 17 distributed along the periphery flow towards the detonator capsule

3. From the action of jets of hot gases from the throttling holes 17, the beam detonator capsule 3 is triggered, initiating an explosive charge of the projectile. In this case, the field of expansion of the fragments is aimed directly at the defeat of manpower, which took refuge behind the obstacle, and the high-explosive action of the detonating charge inside the target is significantly increased, which increases the effectiveness of the ammunition.

In the case when the meeting of the projectile with the target does not occur at a distance of hitting the target, the pyrotechnic charge in channel 18 burns out. Gaseous products of its combustion ignite the igniter capsule 6 and the self-destruction of the projectile occurs according to the above-described scheme of interaction of the actuating elements.

The proposed head fuse of a simple design of the inertial cocking mechanism reliably reacts from axial dynamic loading when it encounters an obstacle after a delay time, which ensures penetration of the projectile into the target.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for an ammunition specialist, showed that it is not known, and given the possibility of industrial serial production of head fuses, we can conclude that the criteria for patentability are met.

Claims (1)

A head detonator for small-caliber artillery cartridges, comprising a beam detonator capsule mounted in a longitudinal groove of the housing, a retardation device and connected through a pyrotechnic channel with a self-liquidation self-elimination mechanism, the igniter capsule, the axial tip of which is equipped with an inertial cocking mechanism including a spiral stopper placed inside mounted above the annular groove of the transverse jumper and connected with a shock reaction mechanism made in the form of a ball in, placed in the radial channels of the housing, inclined toward the center from its peripheral annular groove closed by a conical fairing, characterized in that the conical fairing is paired with a monolithic head mountaineer of the housing, and the retardation means is made in the form of a membrane shutter of a longitudinal groove closed from below by a receiver with peripheral throttling holes, which is located directly above the detonator capsule.