RU2254553C1 - Contact fuse - Google Patents

Abstract

FIELD: military equipment, applicable for small-caliber fragmentation shells and fragmentation warheads of cluster ammunition.

SUBSTANCE: the contact fuse includes a body, projecting spring-loaded reaction striker with a firing pin, safety mechanism and a beam-type detonating primer located in the detonator, a pricking-type detonating primer is installed between the firing pin and the beam-type detonating primer, and the projecting part of the reaction striker is made in the form of a spring-loaded pusher, made on the end-face surface of the cylindrical part is a cross-shaped shoulder having the shape of an isosceles trapezoid with definite relations in the mutually perpendicular longitudinal sections.

EFFECT: enhanced efficiency of target hitting and enhanced reliability of fuse action at an impact of the small-caliber artillery fragmentation shell or fragmentation warhead of a cluster ammunition with obstacles of various strength at various angles of impact of the ammunition with the obstacle, ricochet angles of impact inclusive.

2 cl, 1 dwg

Description

The invention relates to the field of military equipment and can be used in fuses for small-caliber artillery fragmentation shells and fragmentation warheads of cluster munitions.

To ensure the operation of ammunition when meeting with a target, fuses are used in fuses. Moreover, the greater the mass of the inertial impactor, the higher the sensitivity and reliability of the fuse.

Therefore, in fuses for small-caliber artillery fragmentation shells and fragmentation warheads of a cluster munition, due to the small size of the fuse, the entire mass of ammunition is used as an inertial projectile, as a rule. (MF Vasiliev, “Theory of Designing Tubes and Fuses,” Military Publishing House of the Ministry of Armed Forces of the USSR, M., 1946). This can be achieved due to the fact that the reaction drummer protrudes beyond the head of the fuse. The mass of the inertial impactor consists of the mass of the fuse and ammunition. It should be noted that such a design is sometimes used in fuses for medium-caliber artillery shells.

Analogs of the claimed invention in structural embodiment are known devices according to US patent No. 3961578, IPC F 42 C 001/04 published on June 8, 76, US patent No. 4004521, IPC F 42 C 001/04, F 42 C 009/16, published 01/25/77, according to US patent No. 4741270, IPC F 42 C 9/14, F 42 C 15/24, published 03.05.88, fuses RG-6, CT-1, CT-2, CT- 3, AD, AD-2, AD-N, AZ 5075 (Tretyakov G. M. “Ammunition of artillery.” Military publishing house of the Ministry of Armed Forces of the USSR, M., 1946), Japanese fuses (ibid., Fig. 279 and 280), as well as fuses EKZ-16, M-50 and M-1 (Molchanov G.G., Turkin P.I., "Course artillery ", book 5, ammunition. Military Publishing House of the Ministry of Armed Forces of the USSR, M., 1949). The listed analogues, as well as the claimed invention, have a spring-loaded reaction hammer, a safety mechanism, a beam-type detonator caps protruding beyond the head of the fuse case.

The Japanese instant fuse (Tretyakov GM “Ammunition of artillery.” Military publishing house of the Ministry of Armed Forces of the Union. USSR, M., 1946, Fig. 279) was chosen by the authors as a prototype, as the closest in technical essence and achievable technical the result of the claimed invention.

The Japanese fuse contains a spring-loaded reaction drummer with a sting protruding beyond the head of the fuse body, a safety system, an igniter capsule and a radiation detonator capsule located in the detonator.

The fuse works as follows. Before firing a fuse, a safety fork is pulled out. When fired under the action of axial inertia, the extensor, overcoming the resistance of the foot fuse, moves to the stop in the bore of the housing, releasing centrifugal fuses. At the same time, the reaction drummer, overcoming the resistance of the spring, moves all the way to the centrifugal fuses, preventing them from moving in the bore of the gun.

Behind a muzzle cut under the action of a spring, the reaction drummer returns to its original position and releases centrifugal fuses. Due to the rotation of the ammunition, centrifugal fuses diverge and do not impede the movement of the reaction drummer with the sting to the igniter capsule. The fuse is cocked.

When encountering an obstacle during the mutual movement of the reaction drummer and the inertial drummer, which consists of ammunition and a fuse, the spring is compressed and the tip pierces the igniter capsule, from the fire of which the detonator capsule and detonator fire.

Common features of the claimed invention with the prototype are a housing, a protruding spring-loaded reaction drummer with a sting, a safety mechanism and a beam-type detonator capsule located in the detonator.

The reasons that impede the achievement of the technical result indicated below when using a well-known fuse adopted for the prototype include its insufficient reliability of operation at ricochet angles between the ammunition and the obstacle, because when the ammunition encounters a solid obstacle, such as rocky soil, there are cases of deformation (bending) of the protruding part of the reaction drummer. When this occurs, it is jammed in the fuse body, which leads to a failure in action.

In addition, when shooting on obstacles with low strength, such as peaty soil, there is insufficient effectiveness in hitting the target, since the ammunition is significantly buried in the obstacle and most of the fragments remain in the ground. This is a consequence of the long response time of the fuse chain, which is mainly determined by the response time of the beam-type detonator capsule. The response time of the beam-type detonator capsule from the fire of the capsule-igniter is about 300 ... 500 μs, which at a meeting speed within (150 ... 300) m / s ensures that the ammunition is buried into the ground to a depth of about (45 ... 150) mm, and this is commensurate with the length of a small caliber projectile or cluster element of a cluster munition.

The objective of the invention is to create a fuse for picking small-caliber artillery fragmentation shells or for fragmentation warheads of a cluster munition, which increases the effectiveness of hitting the target and increases the reliability of the fuse when meeting obstacles of various strengths at different angles of contact between the munition and the obstacle, including ricochet angles meeting.

This is achieved by the fact that in a contact fuse including a housing, a protruding spring-loaded reaction drum with a sting, a safety mechanism and a beam-type detonator capsule located in the detonator, a tip-type detonator capsule is installed between the tip and the beam type detonator capsule, and the protruding part the reaction drummer is made in the form of a spring-loaded pusher, on the end surface of the cylindrical part of which is made a cross-shaped protrusion having in mutually perpendicular axial longitudinal sections of the shape of an isosceles trapezoid with the following relationships:

b = (0.6 ... 0.8) a, h = (0.3 ... 0.5) a, and c = (0.2 ... 0.4) h,

where a is the lower base of the trapezoid;

b - the upper base of the trapezoid;

h is the height of the trapezoid,

C is the thickness of the cross-shaped protrusion,

and the height of the cylindrical part of the pusher is related to its diameter by the ratio: N = (0.06 ... 0.08) D,

where H is the height of the cylindrical part of the pusher,

D is the diameter of the cylindrical part of the pusher.

The ratios of the upper and lower bases of the trapezoid (b and a) and its height (h), as well as the height of the cylindrical part of the pusher (N) with respect to its diameter (D), were established experimentally to ensure fuse operation at meeting angles up to 45 °, and the thickness the cross-shaped protrusion (c) should be minimal and determined from the strength of the material of the pusher and the height of the cross-shaped protrusion.

Structurally, the safety mechanism can be made in various designs, depending on the factors used to remove the fuse protection stage. In artillery fuses, the axial inertia acting in the barrel bore during firing, the centrifugal inertia caused by the rotation of the projectile, or the joint use of these factors, as is done in the prototype, is used to remove the protection level. In fuses for warheads of a cluster shell, as a factor for removing the stage of protection, increased pressure and temperature arising from the combustion of a powder charge that opens a cluster shell and disperses warheads are used.

The invention is illustrated in the drawing, which shows a General view of the proposed design of the fuse.

The contact fuse comprises a housing 1, behind the head part of which is a pusher 2, a spring 3, a reaction drummer with a sting 4, a spring 5, a safety mechanism element 6, a detonator capsule type 7, a beam type detonator 8 located in the detonator 9.

The fuse works as follows. In official circulation, the element of the safety mechanism 6 prevents the movement of the reaction drummer with the sting 4.

When fired under the action of axial inertia, the pusher 2, overcoming the resistance of the spring 3, is moved all the way into the reaction drummer with a sting 4.

Behind the muzzle cut the pusher 2 under the action of the spring 3 returns to its original position. At the same time, the stage of protection in the fuse is removed and the element of the safety mechanism 6 releases the reaction drummer with the sting 4. In this case, the reaction drummer with the sting 4 under the action of the spring 5 moves all the way into the pusher 2, because the resistance of the spring 5 is greater than the resistance of the spring 3. The fuse cocked.

When meeting at various angles with a barrier of low strength, for example peat soil, the reaction force of the barrier, acting on the end part of the cylindrical surface of the pusher 2 and overcoming the resistance of the springs 3 and 5, moves the pusher 2 and the reaction drummer with a sting 4. In this case, the capsule detonator 7, which by the products of the explosion initiates a detonator capsule 8 located in the detonator 9.

When meeting with a solid obstacle, such as rocky soil, at large meeting angles, it acts on the upper base of the trapezoid of the cross-shaped protrusion, and at ricocheting angles on its lateral side. In this case, the reaction force of the obstacle, acting on the cross-shaped protrusion and overcoming the resistance of the springs 3 and 5, moves the pusher 2 and the reaction drummer with the sting 4. In this case, the detonator capsule 7 is pricked, which initiates the detonator capsule 8 located in the detonator 9 by the explosion products .

In the implemented design of the fuse, designed to complete the fragmentation warhead of a cluster shell, the claimed invention is made with the following parameters:

a = 12.5 mm, b = 9.0 mm = 0.72a, h = 5.0 mm = 0.4a, c = 1.5 mm = 0.3h, D = 16.0 mm, H = 1 , 1 mm = 0.07 D. The pusher is made of polyamide 610 injection molding material GOST 10589-73.

As a detonator type detonator capsule, a KD-N-20 brand detonator capsule is used, and a beam type detonator capsule is TAT-1-PT brand.

To remove the protection level in the fuse, are the increased pressure and temperature that occur when the powder charge is triggered? revealing a cluster shell and scattering combat elements.

The use in the claimed invention of a cap-type detonator capsule for initiating a beam-type capsule detonator instead of an igniter capsule, which is used in the prototype, can significantly reduce its response time. In laboratory conditions, it was established that the response time of a beam-type detonator capsule upon initiation of explosion products with a type of detonator capsule-type detonator is within 60 ... 80 μs. When the ammunition speed is in the range of 150 ... 300 m / s, it is buried in the soil in the range of 9 ... 24 mm, which is significantly less than that of the prototype (45 ... 150 mm). Due to this, the number of overhead damaging fragments and the effectiveness of hitting the target increase.

The achieved effect when using the claimed invention is to increase the effectiveness of hitting the target and increasing the reliability of the fuse when a small-caliber artillery fragmentation fragment or fragmentation warhead of a cluster munition with obstacles of various strengths is met at different angles of contact between the munition and the obstacle, including at ricocheting meeting angles.

The technical result of the claimed invention is confirmed by the results of numerous field tests.

Claims (2)

1. Contact fuse, comprising a housing, a protruding spring-loaded reaction drummer with a stinger, a safety mechanism and a beam-type detonator capsule located in the detonator, characterized in that a tip-type detonator capsule is installed between the tip and the beam type detonator, and the protruding part the reaction drummer is made in the form of a spring-loaded pusher, on the end surface of the cylindrical part of which there is a cross-shaped protrusion having a shape in mutually perpendicular sections edrene trapezoid. 2. Contact fuse according to claim 1, characterized in that the cross-shaped protrusion has the shape of an isosceles trapezoid with the following ratios: b = (0.6 ... 0.8) a, h = (0.3 ... 0.5) a, c = (0.2 ... 0.4) h, where a is the lower base of the trapezoid; b - the upper base of the trapezoid; h is the height of the trapezoid, C is the thickness of the protrusion, and the height of the cylindrical part of the pusher is related to its diameter by the ratio H = (0.06 ... 0.08) D, where H is the height of the cylindrical part of the pusher; D is the diameter of the cylindrical part of the pusher.