RU2319105C1 - Common ammunition - Google Patents

Abstract

FIELD: applicable in salvo-fire jet systems.

SUBSTANCE: the ammunition has explosive charges, units of ready-made effective elements located along the lateral surface of the explosive charge, body elements of the outer carrier envelope and a blasting device. The explosive charge is located in several isolated blasting section. The blasting section have units of ready-made effective elements and are interconnected by a flexible coupling in the form of a chain. The non-contact blasting device is located in the lower blasting section, it to connected in succession to the detonating slabs located in the bottom part of each blasting section. A braking device is located on the bottom part of the body of the upper blasting section.

EFFECT: enhanced efficiency of fragmentation action without reduction of the high-explosive action due to a more uniform distribution of ready-made effective elements and body fragments on the terrain.

3 cl, 2 dwg

Description

The invention relates to military equipment, namely to high-explosive fragmentation ammunition, and is a high-explosive fragmentation ammunition with ready-to-use striking elements and increased performance indicators of fragmentation effects while maintaining a high level of high-explosive action. It can be used in munitions for various purposes, including in multiple launch rocket systems.

The effectiveness of fragmentation of ammunition is estimated by the magnitude of the reduced lesion area S _pr , which is defined as the product of the area of the area affected by the fragments, S _then the average probability of destruction of elementary targets located on the affected area, R _por. . The magnitude of the affected area S _then is determined by the initial energy and ballistics of the fragments, as well as the configuration of the field of their expansion on the ground. The average probability of hitting targets P _por. significantly depends on the fragment fragment density. When explosive fragmentation and high-explosive fragmentation ordnance is detonated at short distances, the fragment density is high and, accordingly, the probability of destruction is close to 1, with increasing distance to the target, the fragmentation field density decreases in inverse proportion to the square of the distance, therefore, the probability of target destruction decreases and is at a fraction of a percent . Thus, an excess is observed near the ammunition, and at the periphery there is a lack of fragmentation field density. A significant increase in the fragmentation effect efficiency can be achieved due to a more uniform distribution of the fragmentation field density in the target zone (distribution of the damaging factor on the ground) by choosing the optimal structural-layout scheme, which allows for uniform distribution of the finished striking elements (GGE) and shell fragments on the affected area .

Known design of ammunition with ready-to-use striking elements according to the patent of the Russian Federation No. 2185593 F42B 12/32, publ. 07/20/2002, adopted for the analogue, containing a block of finished striking elements, a charge of explosives (EXPLOSIVES), a metal shell with bottoms and an explosive device mounted on the front bottom of the shell.

This design allows to increase the fragmentation effect through the use of ready-made damaging elements.

However, this design does not allow you to adjust the uniform distribution of the damaging factor in the target area.

Thus, the objective of this technical solution was to increase the effectiveness of fragmentation due to the use of ready-made damaging elements.

Common signs of a well-known technical solution with the ammunition proposed by the authors is the presence of an explosive charge, ready-to-use striking elements, a metal shell with dons, and an explosive device mounted on the front bottom.

The closest in technical essence and the achieved technical result is the ammunition according to the patent of the Russian Federation No. 2235279 F42В 12/52, publ. 08/27/2004, adopted by the authors for a prototype containing explosive sections interconnected by a flexible connection and located in a firing position in the form of a garland, explosive mixture charges, detonator bombs, initiating pulse conductors connecting the detonator bombs of explosive sections in series, non-contact explosive device actions located in front of the lower explosive section, and a parachute-type brake device located on the bottom of the upper explosive section.

This design of the ammunition allows you to get a high explosive effect, but has a low fragmentation efficiency due to the insufficient number of fragments, in addition, the distribution of the damaging factors in the target area is not uniform.

The reasons that impede the high efficiency of the fragmentation effect and the uniform distribution of the damaging factor in the target zone when using ammunition adopted as a prototype include the fact that the possibilities for increasing the fragmentation effect due to the regulation of the fragmentation field within the expansion angle are very limited; the density of fragments and the uniform distribution of the damaging factors in the target area.

Thus, the objective of this technical solution (prototype) was to provide high explosive action without ensuring the effectiveness of fragmentation and uniform distribution of damaging factors in the target area.

Explosive sections connected by a flexible connection and located in a fighting position in the form of a garland, explosive mixture charges, detonator bombs, initiating impulse conductors sequentially connecting detonator bombs of explosive sections, non-contact explosive device are common features with the authors proposed high-explosive ordnance located in front of the lower explosive section, a parachute-type brake device located on the bottom of the upper yvnoy section.

где R - расстояние между взрывными секциями, м; Q - тротиловый эквивалент заряда взрывчатой смеси взрывной секции, кг.Unlike the prototype, the authors proposed design of a high-explosive fragmentation ordnance, according to the invention, in the bodies of the explosive sections, along the lateral surface of the charges of the explosive mixture, blocks of finished striking elements are placed, the detonator blocks are located in the bottom of each explosive section, and the distance between the explosive sections is set the ratio

where R is the distance between the explosive sections, m; Q - TNT charge equivalent of the explosive mixture of the explosive section, kg

In special cases, that is, in specific forms of execution, the invention is characterized by the following features:

- a block of finished striking elements located in the lower part of the explosive section and its length is 0.6-0.8 of the length of the charge of the explosive mixture,

- the primary impulse for the operation of the garland from the explosive device is supplied to the upper explosive section.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result.

These signs, distinguishing from the prototype, and to which the requested amount of legal protection applies, in all cases are sufficient.

The objective of the invention is the creation of high-explosive ordnance with increased fragmentation efficiency and a more even distribution of the damaging factor on the ground without reducing the level of high-explosive action.

где R - расстояние между взрывными секциями, м; Q - тротиловый эквивалент заряда взрывчатой смеси взрывной секции, кг.The specified technical result in the implementation of the invention is achieved by the fact that in a known high-explosive ordnance containing explosive sections interconnected by a flexible link and located in a combat position in the form of a garland, explosive mixture charges, detonator bombs, initiating pulse conductors connecting detonator conductors in series checkers of explosive sections, a non-contact explosive device located in front of the lower explosive section, a parachute braking device type located on the bottom of the upper explosive section, the feature is that in the bodies of the explosive sections, along the lateral surface of the charges of the explosive mixture, blocks of finished striking elements are placed, detonator blocks are located in the bottom of each explosive section, and the distance between the explosive sections set by the relation

where R is the distance between the explosive sections, m; Q - TNT charge equivalent of the explosive mixture of the explosive section, kg

A new set of structural elements, as well as the presence of connections between them, allows, in particular, due to:

где R - расстояние между взрывными секциями, м; Q - тротиловый эквивалент заряда взрывчатой смеси взрывной секции, кг, равномерно распределить поражающие факторы на местности, обеспечить повышение эффективности осколочного действия без снижения эффективности фугасного действия.- placing blocks of finished striking elements in the bodies of the explosive sections along the lateral surface of the charges of the explosive mixture, the location of the detonator bombs in the bottom of each explosive section, as well as the explosive sections at a distance established by the ratio

where R is the distance between the explosive sections, m; Q - TNT equivalent explosive charge of the explosive section, kg, evenly distribute the damaging factors on the ground, to increase the efficiency of fragmentation without reducing the effectiveness of the high-explosive action.

Signs characterizing the invention in specific forms of execution allow, in particular, due to:

- the location of the block of ready-to-use striking elements in the lower part of the explosive section and its length, which is 0.6-0.8 of the length of the explosive mixture charge, to ensure the most favorable angle of fragmentation of the fragments;

- supply to the upper explosive section of the primary impulse for the operation of the garland from the explosive device to ensure optimal interaction of the fronts of shock waves from the explosive sections.

Studying the level of technology during the patent search for all types of information available in the countries of the former USSR and foreign countries, it was found that the proposed technical solution clearly does not follow from the prior art, therefore, we can conclude that the criterion of "inventive step" is met.

где R - расстояние между взрывными секциями, м; Q - тротиловый эквивалент заряда взрывчатой смеси взрывной секции, кг.The essence of the invention lies in the fact that in an ammunition containing explosive sections interconnected by a flexible connection and located in a firing position in the form of a garland, explosive mixture charges, detonator bombs, initiating pulse conductors, sequentially connecting detonator bombs of explosive sections, a non-contact explosive device located in front of the lower explosive section, a parachute-type brake device located on the bottom of the upper explosive section, unlike prototype according to the invention in the housings explosive sections along the side surface of the explosive charge mixture has finished blocks submunitions, checkers detonator disposed at the bottom of each explosive section, and the distance between the sections is established by the relation explosive

where R is the distance between the explosive sections, m; Q - TNT charge equivalent of the explosive mixture of the explosive section, kg

The essence of the invention is illustrated by drawings, where Fig. 1 shows a general view of a high-explosive fragmentation ammunition, and Fig. 2 is a general view of an explosive section.

The proposed ammunition consists of several explosive sections (1, 2, 3), connected in series by a flexible connection 4, each explosive section contains a charge of the explosive mixture 5, enclosed in a cylindrical body 6 with a front 7 and a rear 8 bottoms. Blocks of finished striking elements 9 are placed between the cylindrical part of the casing 6 and the lateral surface of the explosive mixture charge 5. Detonator blocks 10 are placed at the bottom of the explosive mixture charges 5. At the front bottom 7 of the lower explosive section 1 there is a non-contact explosive device 11 connected in series with the detonator checkers 10 conductor of the initiating pulse 12. On the bottom of the upper explosive section 3 mounted braking device parachute type 13.

In special cases, that is, in specific forms of execution, in a high-explosive fragmentation ammunition, the blocks of finished striking elements 9 are located in the lower parts of each explosive section and their length is 0.6-0.8 of the explosive mixture’s charge length, and the primary pulse for operation garlands from an explosive device 11 are supplied to the upper explosive section 3.

The above device operates as follows.

осколочные поля покрывают поражаемое пространство и обеспечивают более равномерное распределения поражающего фактора в зоне цели без снижения уровня фугасного действия.When the high-explosive fragmentation ammunition approaches the target at a predetermined height, a non-contact action fuse 11 is triggered and the initiating pulse is sequentially transmitted to the detonator blocks 10 of the explosive sections 3, 2, 1. Due to the fact that the detonator blocks 10 are located in the bottom parts of 8 charges of the explosive mixture 5, then when they are detonated, the fragmentation fields of 14 sections 3, 2, 1 are formed inclined towards the surface of the earth, with a higher density of the fragmentation field and a higher effect fragmentation activity is also ensured by placing explosive mixture 5 charges along the side surface of the blocks of ready-made striking elements 9. Due to the location of the explosive sections 1, 2, 3 at a given distance from each other, determined by the ratio

fragmentation fields cover the affected area and provide a more uniform distribution of the damaging factor in the target area without reducing the level of high-explosive action.

The implementation of the high-explosive fragmentation munition in accordance with the invention provides for the creation of an ammunition with a more even distribution of the finished striking elements and shell fragments on the ground, which can significantly increase the effectiveness of the fragmentation effect without reducing the effectiveness of the high-explosive action.

The invention can be used in the development of ammunition of high-explosive explosive actions for various purposes, including in multiple launch rocket systems.

The indicated positive effect is confirmed by bench and flight design tests of prototype ammunition made in accordance with the invention.

Claims (3)

1. Ammunition of high-explosive fragmentation, containing explosive sections interconnected by a flexible connection and located in a firing position in the form of a garland, explosive mixture charges, detonator bombs, initiating pulse conductors, sequentially connecting detonator bombs of explosive sections, a non-contact explosive device located in the front of the lower explosive section, a parachute-type brake device located on the bottom of the upper explosive section, characterized in that in blocks of explosive sections along the lateral surface of explosive mixture charges, blocks of ready-made striking elements are placed, detonator blocks are located in the bottom of each explosive section, and the distance between the explosive sections is set by the ratio

where R is the distance between the explosive sections, m, Q is the TNT equivalent of the explosive mixture charge of the explosive section, kg 2. The ammunition according to claim 1, characterized in that the block of finished striking elements is located in the lower part of the explosive section, and its length is 0.6-0.8 of the length of the explosive mixture charge. 3. The ammunition according to claim 1, characterized in that the explosive device is configured to provide a primary impulse for the operation of the garland to the upper explosive section.

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