RU2761295C2 - Head fuse - Google Patents

Abstract

FIELD: armament.

SUBSTANCE: invention relates to impact-type fuses triggered when encountering an obstacle; it is intended for ammunition dropped from aircrafts that have been in contact with the atmosphere for a long time. A head fuse contains an executive detonator mounted coaxially to a fire transfer channel, a firing pin interacting with shock levers equipped with an inertial drive, including a pressure cap connected to a lid, a long-range cocking mechanism, a locking rod of which is based on a layered charge of pyrotechnic compositions, which communicates with an ignition node, and which is geometrically closed with a slide valve carrying a detonator capsule, all placed in a case closed vertically by a movable lid. The pressure cap of the firing pin is equipped with an annular seal of contact abutment to the case from the inside, fixed on a convex lid, which is pressed against the end of the case by means of a coaxial threaded cap, when being in official use. An amplifier of detonating composition is installed in the fire transfer channel to the executive detonator, under the slide gate.

EFFECT: technical solution ensures the conditional tightness of the fuse volume and its complete safety in official use, providing increased sensitivity when meeting at angles with various obstacles.

2 cl, 3 dwg

Description

The invention relates to a percussion fuse that is triggered when it encounters an obstacle, and is intended for ammunition dropped from aircraft that are in contact with the atmosphere for a long time.

The state of the art characterizes a percussion fuse described in patent RU 2242704, F42C 1/04, 2007, which contains an ignition unit, an axial firing pin interacting with a reaction striker equipped with an inertial drive, a long-range cocking mechanism, including a pyrotechnic charge, on which contains a spring-loaded locking rod of a transverse slide gate, which carries a piercing cap-detonator, a self-destruct device and a beam actuator detonator for detonating the ammunition charge.

A feature of this fuse is an additional transfer charge in the fire chain, which is made stepwise with a conical transition between the steps, and the smaller step in diameter is directed towards the blast cap detonator, and the larger one - towards the executive detonator, and has a variable density increasing from the end with a smaller surface to the opposite end with a larger surface.

There are jumpers between the knock-off detonator capsule and the transfer charge, made with the possibility of preventing detonation of the transfer charge in case of abnormal operation of the knock-off detonator capsule and / or beam detonator capsule, while the detonation pulse is transmitted in the normal mode.

The described impact fuse is installed on a grenade launcher or mortar round, providing not only high sensitivity and reliable transmission of a detonation pulse when meeting a light obstacle at low speeds, but also operational safety.

The percussion mechanism includes an elastically connected vertically movable cap and a cover, in the two-position groove of which a spring ring is placed, as well as two adjacent levers in the center, clamped along the periphery in the body by an annular pusher adjacent to the pressure cap. The free ends of the levers are supported by a spring-loaded axial firing pin.

When it encounters an obstacle, the reaction force of the percussion mechanism is transmitted to the knock-on detonator cap, which triggers the fuse's fire chain.

The rod of the long-range cocking mechanism rests on a pyrotechnic charge through a washer mounted in the housing with a minimum clearance in order to counteract the elastic forces of the drive spring, regardless of the rigidity and bearing properties of the burning pyrotechnic charge, as well as to isolate the press fitting from the atmosphere as much as possible when the reaction mechanism is cocked.

The striking mechanism is cocked automatically in two stages:

- when fired, the pressure cap settles inertially, compressing the return spring of the striker, which is lowered under the action of turning the levers, while the spring ring is lowered along the inclined bridge to a second stable position, where it is unclenched, placing itself in a spacer between the cap and the cap;

- on the flight path, when the axial overloads of the shot disappear, by elastic forces the return spring through the firing pin rotates the levers to their original position, while the cover rises above the end of the body by means of the positive locking of the pusher with a spring ring.

When it encounters an obstacle, the cover moves downward in a reactionary manner, pushing the firing pin through the spring ring and the levers, which impales the detonator cap.

The disadvantage of this design is the large range of the fuse actuation distance due to unsteady combustion of the pyrotechnic charge of the long-range cocking mechanism, which depends on the pressure in the closed volume of the fuse and when the cover is opened. The unstable burning time of the charge gives a wide scatter in the operation of the ammunition at a distance of 10-100 m, which, on the one hand, is dangerous for the shooter and personnel, and in the other case, an ineffective detonation occurs behind the target engagement zone.

The noted drawback is eliminated in a more advanced fuse according to the patent RU 2307310 C1, F42C 1/04, 2007, which, in terms of the technical essence and the number of coinciding features, is chosen as the closest analogue to the proposed head fuse.

The known head fuse contains an ignition unit, an axial firing pin interacting with a reaction striker equipped with an inertial drive, a long-range cocking mechanism, including a pyrotechnic charge, on which a spring-loaded locking rod of a transverse gate valve is located, carrying a piercing cap-detonator, a self-destruct device and an executive detonator.

The striker is triggered by the reactionary movement of the cover on the obstacle, which is cocked by means of a pressure cap equipped with a spacer lock made in the form of an expanding annular spring.

A feature of the prototype fuse is that the locking rod of the long-range cocking mechanism rests directly on the pyrotechnic charge, the support area of which is half to one-third of the cross-section of the charge, which is made of layered compositions with different pressing densities, and to the lower layer having a lower pressing density, adjoining are pyrotechnic communication channels distributed along the periphery with the ignition unit, filled with an identical pyrotechnic composition.

The design is characterized by the intensification of the ignition of the pyrotechnic charge of the long-range cocking mechanism and the stability of the combustion process, which ensured the optimization of the firing distance of the fuse in a narrow range of 30-40 m from the firing position with small-caliber rounds at a flight speed of 30-50 m / s.

The implementation of the pyrotechnic charge in a puff made it possible to differentiate the speeds and modes of combustion of the charge in time when the pressure inside the fuse changes to stabilize the given cocking distance in a narrower, safe and efficient range.

The calculated area of the stop rod support is limited by the range of the ratio with the cross-sectional area of the charge from opposite conditions: the bearing strength of the press fit and the possibility of the rod penetration into the volume of the slag residue during the sequential combustion of the compositions.

The pyrotechnic composition of the lower layer of the charge, which has a relatively low volumetric pressing density, provides an intensification of its stable ignition with uniform and all-round ignition of the upper layer of the charge, which burns in the design mode, while ensuring the minimum spread of the time of insertion of the stopper rod, which holds the gate valve in the passive position, in the amount of coke when the detonator cap is fed into the line of fire.

A continuation of the noted advantages are inherent disadvantages arising from the possible functioning of the known head fuse only under the action of longitudinal overloads when firing artillery ammunition, which by definition limits its use, in particular, in ammunition dropped from aircraft that are in contact with the atmosphere for a long time at low temperatures.

At the same time, ice from atmospheric moisture can form inside the cocked fuse when the cover is open, which will rigidly bind its moving elements, excluding operation in principle.

In addition, the well-known fuse functions reliably only in almost normal encounter with an obstacle, which narrows the combat effectiveness of ammunition where it is built-in.

The technical problem to be solved by the present invention is to expand the functionality of the head fuse, isolated from the atmosphere in service, while increasing the sensitivity at different angles of encounter with various obstacles.

The required technical effect is achieved by the fact that in the known head fuse, containing located in a housing closed with a vertically movable cover, an actuator detonator installed coaxially with the fire transfer channel, a firing pin interacting with shock levers equipped with an inertial drive, including a pressure cap associated with the cover, a mechanism long-range cocking, the stopper rod of which rests on a layered charge of pyrotechnic compositions, which communicates with the ignition unit and is geometrically closed with a slide gate carrying a piercing cap-detonator, according to the invention, a push cap of the striker equipped with an annular seal of contact with the body from the inside, is fixed to a convex cover, which in service is pressed against the end of the body by means of a safety threaded cap, while an amplifier made of a detonating composition is installed in the fire transfer channel to the executive detonator, under the slide gate.

Distinctive features of the proposed technical solution ensured the reliability of operation, the conditional tightness of the volume of the fuse and its complete safety in service handling, providing increased sensitivity when meeting at angles with various obstacles, while the functionality of using the fuse according to the invention is expanded, since there is no longitudinal firing overloads are required.

Rigid fastening of the pressure cap of the striker with the housing cover made it possible by external action on the cover to ensure the positive locking of the striker with the slide gate in the neutral position, with the knock-off detonator capsule retracted from the line of fire, which completely excludes unauthorized cocking and detonation of the fuse in the service position and during storage.

Equipping the pressure cap with an O-ring on the surface of its contact adjacent to the body from the inside ensures isolation of the fuse volume from the atmosphere, excluding the formation of ice on the surfaces of relative movements of structural elements, which could hinder or eliminate their mobility when operating in a given mode.

Convex housing cover creates an aerodynamic shape for the fuse and increases the reliability of action when the fuse meets at an angle to various obstacles, including loose snow.

At the same time, the reaction sensitivity of combat use is increased, compared with the prototype and analogues, due to the reduction in the mass of the percussion mechanism from the exclusion of two moving parts (the return spring of the pressure cap and the spring stopper for positioning the cover).

Placement of the cover inside the safety screw cap, which is connected to the body by means of a threaded connection and is screwed to the stop when the cover is adjacent to the end of the body, and the impact levers are rigidly rotated through the pusher to the extreme lower position, as a result of which the central spring-loaded striker is located inside the technological groove in the gate the damper, structurally mechanically blocks all movements inside the percussion mechanism, fundamentally excluding the possibility of interaction of the striker with the knock-on detonator cap and the latter with the executive detonator, that is, the fuse will not spontaneously work in service and during storage under no circumstances. 100% security.

The percussion mechanism is cocked automatically under the action of the return spring of the striker, when the safety screw cap is screwed off the body after the fuse is installed in the ammunition for combat use.

Consequently, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of a quality that is not inherent in features in disunity, that is, the technical problem posed in the invention is solved not by the sum of effects, but by a new supereffect from the sum of features.

The essence of the invention is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims.

The drawing shows:

in fig. 1 - the proposed head fuse, longitudinal section;

in fig. 2 - the same, in the cocked position;

in fig. 3 - the same, combat position.

In the body 1 of the head fuse of percussion action, closed through a ring gasket 2 by a convex cover 3 of an aerodynamic shape, to which a pressurized profiled cap 5 is rigidly attached with a rivet 4, placed in a diametrical gap between the body 1 and the tool holder 6.

In the center of the holder 6, a firing pin 7 is mounted, loaded with a spring 8, on which impact levers 9 are laid, clamped along the periphery by a cylindrical pusher 10, a flange mated with a pressure cap 5 from the bottom of its bend.

The pressure cap 5, under the action of the spring 8, through the shock levers 9 and the pusher 10, adjoins by means of an O-ring 11 from the bottom to the contact surface of the housing 1 (see Fig. 2), isolating the volume of the fuse when the cover 3 is raised to the cocked position.

Under the striker 7 in the mounting sleeve 12, overlapping the axial fire-transfer channel 13 to the actuator detonator 14, a slide gate 15 is installed with the possibility of transverse movement, carrying the piercing cap-detonator 16.

The gate valve 15 in service operation is located in the extreme right according to the drawing of FIG. 1 position and is loaded with a torsion drive spring 17, which is held by a locking rod 18 of the long-range cocking mechanism 19.

In this case, the firing pin 7 is located in the technological pocket 20 of the gate valve 15.

The rod 18 of the long-range cocking mechanism 19 is loaded with a spring 21 and rests on a pyrotechnic element 22 of a layered charge, the lower pyrotechnic element 23 of which communicates with a pyrotechnic track 24 of an identical composition that fills the communication channel 25 with an initiating primer-igniter (conventionally not shown).

A feature of the layered charge of the long-range cocking mechanism is that the pressing density of the pyrotechnic element 22 exceeds the pressing density of the pyrotechnic element 23, which is characterized by stable flammability and the burning rate, respectively, higher than that of the upper element 22.

To increase the reliability of the guaranteed operation of the executive detonator 14, which undermines the main charge of the ammunition, in the fire transfer channel 13, under the slide gate 15, an amplifier 26 is installed, made of a composition based on heating elements.

In service use and during arsenal storage of the fuse according to the invention, the cover 3 by means of a safety screw cap 27, which is screwed onto the housing 1 at an emphasis, is pressed through the O-ring 2 to the end of the housing 1, blocking free access to the connector.

In this case, under the action of the pressure cap 5, through the annular pusher 10, the impact levers 9 are turned down, as a result of which the firing pin 7, compressing the return spring 8, is lowered into the pocket 20 of the gate valve 15 (Fig. 1).

Thus, during assembly, an additional stage of protection is formed, when the functioning of the percussion mechanism is mechanically prevented and the interaction of the striker 7 with the knock-on cap-detonator 16 is impossible, while the fire-conducting channel 13 of communication with the executive detonator 14, through the amplifier 26, is blocked by the gate valve 15.

The proposed fuse functions as follows.

After installing the ammunition in the suspension of the aircraft, the safety screw cap 26 is removed from the above-described head fuse, releasing the cover 3.

In this case, by the elastic forces of the return spring 8, the firing pin 7 rises to the extreme upper position, pushing the shock levers 9, which rotate and are installed horizontally at the end of the holder 6, vertically moving the annular pusher 10 resting on them.

The pusher 10, respectively, acts on the cap 5, which, through the O-ring 11, adjoins the bottom of the contact surface of the body 1, conditionally sealing its volume when the cap 5 of the cap 3 is forcibly lifted into the cocked position of the impact mechanism (Fig. 2), which is ready for reaction action from contact with an obstacle.

When the ammunition is dropped, the electrical signal from the suspension release is fed to the igniter cap initiating the pyrotechnic path 24, the combustion front of which, after a set time, ignites the pyrotechnic element 23, which burns intensely linearly, then igniting the pyrotechnic element 22.

After the combustion time of elements 23 and 22 has elapsed, the stopper rod 18, under the action of the spring 21, penetrates into the slag residue, releasing the gate valve 15, which receives lateral movement from the drive spring 17, and is set in the extreme left position when the knock-on detonator cap 16 is located under the striker 7 in combat position (Fig. 3).

When it encounters an obstacle, the cover 3 reactively moves and is installed on the end of the housing 1, and the pressure cap 5 rigidly connected to it moves the annular pusher 10, which sharply turns the shock levers 9.

From the impulse action of the shock levers 9, the firing pin 7 dynamically moves down, where it impales the knock-on detonator cap 16.

The detonation wave from the triggered blast cap-detonator 16 through the influence is initiated by the amplifier 26, the detonation wave from which, when detonated, instantly goes to the detonator 14, from which the main charge of the ammunition is triggered.

Tests of prototypes of the fuse according to the present invention have shown the functionality of the design of the head fuse for aviation ammunition, which has an increased contact sensitivity when meeting at an angle with various obstacles, which makes it possible to recommend it for serial production for supply to customers.

Comparison of the proposed technical solution with the closest analogues of the prior art did not reveal an identical coincidence of the set of essential features of the invention.

The proposed differences in the main percussion fuse, which do not directly follow from the formulation of the technical problem, are not obvious to an ammunition specialist.

The manufacture of the fuse according to the present invention can be carried out at an existing production facility.

From the above, it can be concluded that the invention meets the conditions of patentability.

Claims (2)

1. The head fuse, containing located in a housing closed with a vertically movable cover, an executive detonator installed coaxially with the fire transfer channel, a firing pin interacting with shock levers equipped with an inertial drive, including a pressure cap connected to the cover, a long-range cocking mechanism, the stopper rod of which rests on a layered charge of pyrotechnic compositions, which communicates with the ignition unit and is geometrically closed with a slide gate carrying a knock-on detonator cap, characterized in that the pressure cap of the striker, equipped with an annular seal of the contact abutment to the body from the inside, is fixed on a convex cover, which in service, it is pressed against the end of the body by means of a safety screw cap. 2. The fuse according to claim 1, characterized in that an amplifier made of a detonating composition is installed in the fire-transfer channel to the executive detonator, under the slide gate.

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