RU2239154C1 - Nose fuse - Google Patents

Abstract

FIELD: combination fuses for shells of impact and time action actuated on expiration of the preset time interval from the moment of the shot, determined by the time of operation of the remote cocking mechanism actuated by the flow of fluid material.

SUBSTANCE: the nose fuse for small-caliber artillery cartridges has a body positioned in which in succession are the central rod pressing the end face of the conical fairing by the supporting head, axial striker spring, percussion primer, gate of the remote cocking mechanism changing over the central flame-transfer channel to the beam primer detonator closed by the safety lock, made in the body under the conical fairing is a peripheral circular groove with radial inclined slots. Positioned in which are the balls of the impact reaction mechanism of the axial striker spring resting on a spiral lock of the inertia cocking mechanism positioned inside the movable bushing installed above the circular slot of the mounting support. The novelty is in the fact that the gate of the remote cocking mechanism is made in the form of a loose granular material placed in the central flame-transfer channel having the shape of a reverse truncated cone, whose upper wider part is provided with windows confined from the outside by an inertia ring installed for longitudinal motion in the body, plugs of antifriction material are installed in the windows of the flame-transfer channel, and the generating line of the cone of the flame-transfer channel is inclined to the longitudinal axis by an angle exceeding the angle of natural slope of the granular material of the gate of the remote cocking mechanism, fine-disperse glass balls are used as the loose granular material of the gate.

EFFECT: enhanced functional reliability of the nose fuse and safety in service handling in combat use.

4 cl, 2 dwg

Description

The invention relates to combined fuses for shells of shock and temporary action, triggered after a predetermined period of time from the moment of the shot, determined by the response time of the long-range cocking mechanism, driven by the flow of fluid material.

The prior art in this area is characterized by the MG-25 head fuse for small-caliber unitary loading artillery cartridges, which contains an igniter capsule and a coaxial sting of an impact reaction mechanism, an inertial cocking mechanism, a detonator beam capsule equipped with a self-eliminating fire chain with safety and retarding devices, described in book "23-mm twin unit ZU-23", Military Publishing, M., 1961, p.102-103, Fig. 14.3 and 14.4.

In the axial channel of the end face of the housing, closed by a membrane, a rod is installed by means of a centering head with the ability to move to the stinger of the shock mechanism mounted on a spiral lock spring located in an annular sleeve resting on a transverse partition of the longitudinal groove.

Between the igniter capsule and the detonator capsule there is a labyrinth fire retardant sleeve closed by a protective gasket.

The disadvantages of this fuse are its low functional reliability on the trajectory of the projectiles to the target due to the high sensitivity of the shock mechanism triggered by rain, hail and dust, from mechanical influences on the end membrane in the gun feed paths, as well as the poor protection of the beam detonator capsule from triggering of the self-liquidation mechanism in official circulation in the event of accidental shock and falling or from ignition during overheating in the power supply paths of the automation of artillery systems, especially at stops between bursts of fire.

In addition, the design of the labyrinth retarder determines the technological complexity of manufacturing in serial production on high-precision unique equipment, and also limits the range and range of self-destruction distance.

The noted drawbacks are eliminated in the lead fuse for small-caliber artillery cartridges according to the patent 2205362, F 42 C, 9/14, 2001, selected as the closest analogue, by the number of matching features and technical nature, containing a central housing in which the central rod pressing the end head of the conical fairing with the support head, axial sting, igniter capsule, shutter of the fire transfer channel with powder charge, retardation sleeve and fuse for the beam detonator capsule, connection by means of a pyrotechnic channel with a pruning self-destruction mechanism.

A peripheral annular groove with radial inclined grooves is made in the fuse case under the conical fairing, in which are located the balls of the shock reaction mechanism of the axial tip, resting on the spiral stop of the inertial cocking mechanism, located inside the movable sleeve mounted above the annular groove of the transverse jumper (mounting support).

The well-known inertial-reaction head fuse is characterized by increased safety in the official handling and operation of cartridges.

This fuse is all-weather, that is, a given discontinuous action on the trajectory does not depend on the state of the atmosphere.

A monolithic, rigid head of a rounded central rod protects the fuse’s membrane from dynamic loads and mechanical stresses in the power paths of the gun’s automation, and secondly, it fixes the membrane rigidly on top of the casing.

The conical shape of the membrane, made in the form of a fairing, reduces the sensitivity of the shock mechanism to the effects of precipitation on the flight path and ensures all-weather use of the fuse.

The membrane of the head part of the body that is deformable when meeting for the purpose serves as a shock drive for the movement of the balls along the inclined radial grooves to the axial pruning tip.

Equipped with a powder stopper, the burning time of which determines the firing distance of the fuse, the transverse shutter in the central fire transfer channel mechanically prevents the transmission of the radiation pulse from an unauthorized trigger igniter capsule to the detonator capsule and, consequently, premature projectile rupture.

An additional mechanism for protecting the inertial action from the centrifugal forces of rotation of the projectile prevents the detonator capsule from accidentally cocking the self-destruct mechanism in official circulation or (at a high working temperature inside the gun) unauthorized operation of the long-range cocking mechanism, which increases the technological and operational safety of the use of ammunition.

However, the disadvantage of the known head fuse is the large dispersion of the long-range cocking time (+ 65% of the nominal), taking into account the dispersion of the initial velocity of the shells, determined both by the nature of the burning powder of the long-range cocking mechanism and the instability of high pressure in the limited free volume of the fuse, and by the different burning rates of these powder charges in the temperature range of the cartridge from minus 60 to 80 ° C, which reduces the functional reliability of the fuse or the effectiveness of the damaging effect of ammunition respectively.

So, with a given upper limit of the range of the long-range cocking time at its lower limit, the use of weapons is unsafe, and with a given lower limit of this range, the efficiency of fragmentation of ammunition in close combat is reduced due to the delay in the operation of the long-range cocking mechanism at the upper limit of the range.

The problem to which the present invention is directed, is to increase the functional reliability of the head fuse to increase the effectiveness of the main damaging effects of ammunition.

The required technical result is achieved by the fact that in the known head fuse for small-caliber artillery cartridges, comprising a housing in which a central rod, an adjacent tip of the conical fairing end, an axial stinger, an igniter capsule, a long-range cocking mechanism with a shutter overlapping the central fire-block are coaxially arranged. the channel to the radial detonator capsule, closed with a fuse, while in the case under the conical fairing a peripheral annular groove with radial inclined grooves, where the balls of the reaction mechanism of the axial stinger are located, resting on the spiral stopper of the inertial cocking mechanism located inside the movable sleeve mounted above the annular groove of the mounting support, according to the invention, the shutter of the long-range cocking mechanism is made in the form of granular granular material placed in a central fire-retardant channel having the shape of a reverse truncated cone, and the upper wide part of this channel is equipped with windows, which e outside the limited inertia ring mounted to move longitudinally within the housing.

The first additional difference is the placement of antifriction plugs in the windows of the central fire transfer channel.

The second additional difference is that the generatrix of the return cone of the fire transfer channel is inclined to the longitudinal axis by an angle exceeding the angle of repose of the granular material of the shutter of the long-range cocking mechanism.

The third difference is the preferential choice of fine glass balls as the granular granular material for the shutter.

Distinctive features ensured an increase in the functional reliability of the main fuse due to the accurate, independent of the operating temperature of the ammunition, automatic operation of the long-range cocking mechanism at a given projectile flight distance after the shot.

The action of the proposed long-range cocking mechanism, similar to an hourglass, provided a significant reduction in the response time range (+ 12%), since it depends only on the initial velocity of the projectile, the spread of which is + 1.5%, as well as the geometric dimensions of the fire transfer channel and its output windows made with tight tolerances, which provides a spread in time (distance) response of not more than 20%.

An additional technical affect was obtained: simplification of the fuse design by eliminating the inertial mechanism of incandescent igniter capsule initiating the pyrotechnic mechanism for self-destruction of ammunition, which was no longer necessary for arming aircraft due to its own safety in the field of air combat at sharply changing courses and high speeds maneuvering, when the aircraft can get into the fragmentation field of a rebound or a projectile explosion during self-destruction.

The execution of the shutter mechanism of the long-range cocking in the form of bulk material, which is a quasi-fluid, ensures its flow into the reserve volume of the body under the action of centrifugal forces of rotation of the projectile and inertial forces of the shot, as well as aerodynamic braking in flight, freeing the fire transfer channel in the estimated specified time.

The long cocking time is controlled by the selection of the dispersion of the glass balls, the volume of the fire-transfer channel, the number and diameter of its exit windows.

The installation of plugs in the windows of the conical channel, which are externally limited by an inertial ring, provides immobility of the granular material of the shutter in official use.

Installation of an inertial ring with the possibility of longitudinal movement in the housing allows the plugs made of antifriction material to be released during firing, which, under the action of centrifugal forces of rotation of the projectile, slip out of the windows through which the bulk material of the shutter mechanism is squeezed out.

The use of finely dispersed glass balls as bulk granular shutter material almost completely eliminates the friction resistance when it is displaced from the fire-transfer channel. This is also aimed at choosing the angle of inclination of the generatrix of the cone larger than the angle of repose of the bulk material so that the balls move unhindered. This allows you to calculate the time of long-range cocking according to the laws of hydrodynamics.

The return cone of the fire-transfer channel, tilted towards the exit windows, facilitates the unhindered flow of the glass shutter balls into the reserve volume of the housing, which is released by the inertial ring during firing.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, thus the technical problem posed in the invention is solved.

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

The invention is illustrated in the drawing, where figure 1 shows a head fuse in section; figure 2 is the same cocked position.

The invention is illustrated by the example of a fuse for an artillery 30-mm cartridge for an automatic gun 2A42 mounted on helicopters and fighter and attack aircraft.

In the case 1 of the head fuse in the axial channel 2 are installed sequentially from the bottom up: a beam detonator capsule 3 of the A-30T brand, a safety device 4, a shutter 5, a primer-igniter 6 and a stinger 7 fixed in a massive hammer 8, and on the front end of the case 1 fixed the central rod 9 with a supporting spherical (anti-ricochet) head 10.

The head 10 of the central rod 9 rigidly presses a conical fairing 11 to the end of the housing 1, under which a peripheral annular groove 12 is located in the housing 1, provided with three radial grooves 13 of the communication with the hammer 8 of the axial blade 7, inclined to the longitudinal axis at an angle of 45 degrees. In the grooves 13, the pressure balls 14 are freely arranged, which together with the fairing 11 perform the functions of a shock reaction mechanism when the ammunition meets the target.

The tip 7 in the axial channel 2 of the housing 1 in the upper initial position by means of the hammer 8 is held on a coaxial safety stopper 15 made of a spirally twisted elastic copper tape, which is placed inside the annular sleeve 16, resting on the transverse gasket 17, overlapping the longitudinal groove 18 in the mounting support 19. In the groove 18 when fired under the action of inertial forces, a settling sleeve 16 is mounted in the channel 2 with the possibility of longitudinal movement relative to the housing 1.

The axial channel 2 between the igniter capsule 6 and the fuse 4 is made in the form of a reverse truncated cone 20 filled with glass balls of the ШСО-250, TU-5951-015-00204949 brand, which act as a shutter 5, since they are a fluid incompressible quasi-fluid.

The angle of inclination of the generatrix of the inverse cone 20 to the axis of the channel 2 for glass balls of the shutter 5 with a fineness of 150-250 μm is selected within 10-15 degrees, which is higher than the angle of their natural slope.

Windows 21 are made in the upper wide part of the inverse cone 20, where fluoroplastic plugs 22 are installed, which have a low coefficient of friction paired with the material of the housing 1, which eliminates seizure (jamming), that is, a possible obstacle to the movement of plugs 22 along the windows 21 under the pressure of the shutter balls 5.

The windows 21 are externally covered by an inertial ring 23 installed in the annular groove 24 of the housing 1 on the support plate 25. The free volume of the groove 24 exceeds the volume of the truncated cone 20 for guaranteed placement of glass shutter balls 5 therein.

The safety device 4 includes an expansion chamber 26, the inlet 27 of which is blocked by a gasket 28, and the gasket 30, which covers the outlet 29 to the detonator capsule 3, between which the slide 31 is mounted, spring-loaded with a profile bracket 32 that acts as a leaf spring. In the initial position, the engine 31 overlaps the axial channel 2, that is, access to the detonator capsule 3.

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 channel of the barrel of the gun, the bushings 16 and 23 move downward, bending the gasket 17 and the plate 25, respectively. The sleeve 16 is installed in the groove 18 of the support 19, releasing a spirally twisted tape of the stopper 15, and the inertial ring 23 with the plate 25 are installed at the bottom of the groove 24 of the housing 1 (figure 2).

Under the influence of centrifugal forces of rotation of the projectile, the stopper tape 15 is untwisted, releasing the drummer 8, which carries the axial sting 7 — the initiation mechanism is cocked, the plugs 22 release the windows 21, and the engine 31, pressing the bracket 32, moves to the periphery of the chamber 26 and releases the inlet 27 and the outlet hole 29 of the safety device 4.

During aerodynamic braking of the housing 1 on the flight path, the shutter balls 5 are forced out by the running forces but through the cone 20 through the windows 21 into the free volume of the annular groove 24.

The stopper tape 15 is completely untwisted at a distance of 1.5-3.0 m flight distance, freeing the axial sting 7, inertially pressed to the grooves 13 of the housing 1, which is guaranteed to hold the sting 7 in its highest position. Balls 14 under the action of centrifugal forces of rotation of the projectile adjacent to the fairing 11.

Further, at a distance of at least 20 m flight and guaranteed up to 100 m (according to the tactical and technical requirements), the shutter balls 5 at the estimated time by the centrifugal forces of rotation of the projectile are completely released, flowing through the windows 21, the far cone 20 of the central channel 2 is distant - the fuse is ready to work.

When meeting with a target, the head 10 of the rod 9 and the fuse case 1 penetrate through a thin-walled barrier, where the conical fairing 11 is spatially deformed and crumpled along the profile of the housing 1. In this case, the conical fairing 11 dynamically radially overcomes the void of the annular groove 12 and transmits the shock pulse to the adjacent balls 14, which dynamically move along the inclined grooves 13 to the center, pushing the drummer 8 with the sting 7 along the axial channel 2 until the latter meets the igniter 6 and pricking it.

The additional mass, together with the stinger 7 of the moving striker 8, increases the reliability of the operation of the igniter 6, including the limiting angles of meeting at the maximum flight range at minimum speed, up to rebound.

In this case, the tip 7 dynamically receives the impulse of working movement through the hammer 8, which has a developed contact surface with the pressure balls 14, which ensures their inevitable interaction for the forced supply of the tip 7 to the igniter capsule 6. This increases the functional reliability of the fuse and ammunition as a whole.

The fire pulse from the igniter capsule 6 is transmitted through channel 2, burning the gasket 28, then through the opening of the safety device 4, burning the gasket 30, to the beam detonator capsule 3, which is triggered, initiating a bursting charge of the projectile.

When shooting in conditions of atmospheric precipitation and dustiness of the air, raindrops, hail and solid aerosol particles ricochet from the conical surface of the fairing 11, which significantly reduces the momentum on the pressed balls 14, which are loaded by centrifugal forces of rotation of the projectile, which prevents their movement to the center, excluding interaction with the hammer 8 axial sting 7.

The fuse of the proposed design is intended for use in the assembly of unitary cartridges with high-explosive shells designed to combat air and ground targets, and provides a five-fold reduction in the dispersion of the response time of the long-range cocking mechanism, which increases its functional reliability and the effectiveness of the main damaging effect of the munition as a whole.

Claims (4)

1. A head fuse for small-caliber artillery cartridges, comprising a housing in which a conical fairing is coaxially arranged sequentially, a central shaft pressing an end face of the conical fairing, an axial sting, an igniter capsule, a long cocking mechanism with a shutter that overlaps the central fire transfer channel to the beam a detonator, closed with a fuse, while in the case under the conical fairing is made of a peripheral annular groove with radial inclined grooves, the balls of the shock reaction mechanism of the axial stinger are located, resting on a spiral stopper of the inertial cocking mechanism located inside the movable sleeve mounted above the annular groove of the mounting support, characterized in that the shutter of the long-cocking mechanism is made in the form of granular granular material placed in a central flame-retardant channel, having the shape of a reverse truncated cone, the upper wide part of which is equipped with windows bounded externally by an inertial ring, mounted m to move longitudinally in the housing. 2. The head fuse according to claim 1, characterized in that the generatrix of the cone of the fire transfer channel is inclined to the longitudinal axis by an angle exceeding the angle of repose of the granular material of the shutter of the long-range cocking mechanism. 3. The head fuse according to any one of claims 1 or 2, characterized in that in the windows of the central fire transfer channel are plugs of antifriction material. 4. The head fuse according to any one of claims 1 or 2, characterized in that finely dispersed glass balls are used as granular shutter granular material.

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