RU2486449C1 - Preset fragmentation shell body - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: shell body comprises three interconnected shells. Inner and outer shells are composed of axially coupled turns of spiral of metallic bar furnished with transverse rifles. Medium shell is a solid element.

EFFECT: higher reliability and fragmentation efficiency.

6 cl, 2 dwg

Description

The invention relates to fragmentation munitions with a given crushing body and can be used for the manufacture of fragmentation warheads of various calibers, shells, warheads, hand and rifle grenades, mines, etc.

Ammunition with a predetermined crushing body is known from the patent literature, on the surface of which a grid of corrugations is made, creating many semi-finished fragments, the size and shape of which is determined by the thickness of the shell and the geometry of the corrugations of the localizers (see, for example, US-5157225, FP-2685077, EP-60985 , applications of the Russian Federation for the invention N 95108089).

The disadvantage of these designs is the complexity of the technology and the uniqueness of the equipment for forming the honeycomb inner surface of the fragmentation shell with a given geometry of the shell recesses, which is exacerbated in the production of small-caliber ammunition.

The noted drawback is eliminated in designs, the fragmentation cylindrical shell of which is formed from an extended rod, strip profile, spiral-wound wire with dense axial laying of turns with oriented formation of transverse flutes of nominal fault surfaces under the action of explosive detonation product pressure (shell) (see US-5095821, DE-UI-84279621 and DE-UI-84277815). Due to the separation of the shell along the longitudinal turns of the spiral and the fault along the transverse flutes, fragments of a given shape and weight are obtained.

To prevent unproductive energy loss, explosive detonation products breaking through adjacent mating turns of a spiral cylinder from a square bar are soldered together (EP-DI-0030809, U.S. Patent No. 4,398,467, CL 109/491) or welded (US-H328). This defines additional operations and increases the cost of products.

The formed shells of the shells of the ammunition are then crimped according to the required profile and mechanically using standard technology: the thread for the fuse, the sunset grooves for fastening in the sleeve, the groove for the lead belt are cut, the centering thickening is machined, etc.

More advanced is the design of the multilayer shell of the munition with a continuous aerodynamic shell, inside of which there is a fragmentation part, which is a cylinder formed by tightly laid turns of bar material equipped with transverse corrugations (DE application No. 3722023, CL F42B 13/18, 1989).

The fragmentation field density in them is regulated by metal bridges arranged orderly between the shells to locally change the speed of the detonation wave at the boundaries of the media breaking the fragmentation shell, or the mutually opposite direction of spiral winding in the mating layers of fragmentation shells, respectively.

Known fragmentation shell of the munition presented in the invention DE-OS-3722-23, the fragmentation shell of which is placed inside the thin cylinders of the grenade housing or fixed in the housing of the 155 mm artillery shell by means of a nut. The transverse corrugations on the bar stock are applied through an equal gap that is a multiple of the diameter of the spiral cylinder being formed, which provides technology for their combination into longitudinal grooves on the body, evenly distributed over its surface / surfaces (counter or offset).

The ratio of the thickness of the rod / step of the corrugations provides the estimated weight and geometry of the fragments formed during the explosion of the explosive ordnance with the specified parameters of the combat action.

The design drawback is the formation of "dead zones" in the field of expansion of the fragments opposite the longitudinal grooves of the fracture formed by the transverse corrugations of the spiral bar, which reduces the effectiveness of the fragmentation effect of the munition. These radially expanding zones during the expansion of fragments reach appreciable values within the slaughter interval, which are commensurate with the target, which negatively affects the probability of its destruction. In addition, the continuous shell of the munition shell, inflating under the influence of the pressure of the detonation products of the explosive, acts as a bandage to hold back the fault, which increases the kinetics of the expansion of the fragments, but at the same time has a screening effect on the useful fragments, distorting the directional pattern of the expansion, reducing their initial velocity and slaughter interval.

Known shell fragmentation ammunition predetermined crushing, containing at least two interconnected shells, the inner of which is made in the form of axial mating coils of a spiral of a metal bar equipped with transverse flutes, while the thickness of the outer continuous shell is (0.45 ... 0.60) the thickness of the spiral rod, and the pitch of the corrugations on it is not equal to the diameter of the fragmentation shell. (RF patent No. 2098743, IPC: F42В 12/22, 05/27/1996 - prototype).

The specified case is used as follows.

Destruction of the fragment shell by the pressure of detonation products of the explosive occurs along the sections of the metal bar weakened by the corrugations by acting on the face according to the scheme of brittle detachment along shear planes, excluding the formation of blocks of 2-3 fragments. The hull is split into predetermined fragments with optimal weight and geometrical parameters having a maximum expansion speed with a uniform fragmentation field density throughout the slaughter interval, which increases the probability of hitting the target, i.e. ammunition efficiency.

The main disadvantages of this case is that at the moment of munition detonation, the outer continuous shell is crushed into non-calculated fragments of different mass and size, which significantly reduces the effectiveness of the use of ammunition, because approximately 25-30% of the fragments have an unaccounted mass and direction of flight.

The task to which the invention is directed is to increase the functional reliability and efficiency of fragmentation of ammunition with a given crushing body.

The solution to this problem is achieved by the fact that the proposed shell fragmentation ammunition predetermined crushing, according to the invention, contains at least three interconnected shell, and the inner and outer shell are made in the form of axial conjugate turns of a spiral from a metal rod equipped with transverse flutes, while the middle shell made continuous.

In an embodiment, the thickness of the middle continuous shell is (0.15 ... 0.45) the thickness of the spiral bar.

The optimized range of geometric parameters of the shell shells created a new aggregate effect that is not inherent in the signs of their disunity.

When the ratio of the thickness of the average continuous shell and the thickness of the spiral rod is less than 0.15, the bearing strength of the inner shell of the ammunition shell is lost and it is not structurally possible to force the inner fragmentation of the spiral shell inside by tightening with a nut and maintaining stability during dynamic loading during firing. It is also possible that the shell can be destroyed without sufficient bloat with a decrease in potential throwing energy, which will entail a decrease in the initial velocity of the fragments below a predetermined level of combat damage.

When the ratio of the thickness of the inner shell and the thickness of the spiral rod is more than 0.45, the initial predetermined shape of the fragment and the field of expansion of the fragments are distorted due to the screening action of the powerful inner shell, while the slaughter interval is noticeably reduced, the number of useful fragments from the limited mass of the metal of the shell decreases at a given coefficient filling.

In an embodiment, the step of the corrugations on a metal bar is not a multiple of the diameter of the solid middle shell.

The step between the flutes of the spiral coils, which is not a multiple of the diameter of the fragmentation cylindrical shell, forms longitudinal grooves of a stepped shape, which provides an additional break point, which improves the destruction of the shell into individual fragments of a given shape, and allows you to evenly distribute fragments in the expansion sphere.

The fragmentation shell is destroyed by the pressure of explosive detonation products by cross sections weakened by riffles by acting on the face according to the scheme of brittle detachment along shear planes, excluding the formation of blocks of 2-3 fragments. The ammunition body is guaranteed to be crushed into predetermined fragments with optimal calculated weight and geometrical parameters having a maximum expansion speed with a uniform fragmentation field density throughout the entire slaughter interval, which increases the probability of hitting the target, i.e. ammunition efficiency.

In an embodiment, the inner and outer shells are made with the mutually opposite direction of winding, which improves the conditions for the expansion of fragments.

In an embodiment, the transverse riffles are made on the inside of the metal rod forming the inner and outer shells, which improves the conditions for the formation of fragments at lower pressure.

In an embodiment, the spiral coils of the outer shell are arranged in increments of 1.1 ... 1.25 of the coil thickness.

The optimized range of geometric parameters of the spiral of the outer shell of the shell created a new effect of the aggregate that is not inherent in the signs of their disunity.

When the pitch is less than 1.1 of the turn thickness, the effect of the non-reinforcement of the turns of the outer shell and a decrease in the strength characteristics of the middle shell to obtain optimal parameters for its destruction practically do not affect, which will entail a decrease in the initial velocity of the fragments below a predetermined level of combat damage.

With a step greater than 1.25 thickness of the coil, the strengthening properties of the spiral coils as bandages of the inner shell decrease due to the formation of non-reinforced gaps between them, which leads to loss of stability of the outer shell and loss of strength of the middle shell, which reduces the strength characteristics and effectiveness of the munition as a whole.

The execution of the shell fragmentation munition given crushing of three interconnected shells, and the inner and outer shell are made in the form of axial mating spiral coils of a metal rod equipped with transverse flutes, and the middle shell is solid, allowed to combine the opposite qualities: to ensure maximum strength of the shell shell with its minimal shielding effect on the forming damaging elements of the inner fragmentation shell for the following reasons.

At the moment of detonation of the explosive charge, detonation products act on a rather thin middle shell and inflate it. In this case, at some given point in time, a thin continuous middle shell and an outer shell made in the form of axial conjugate turns of a spiral of a metal bar, swelling together, work simultaneously as a single shell with stiffeners, while the middle continuous shell ensures tightness housing, and the outer - strength characteristics of the housing. At the same time, due to the fact that the outer shell is made in the form of a spiral of a metal bar equipped with transverse flutes, its coils act as power bands and, until a certain point in time, prevent the destruction of the inner and middle shells, which increases the kinetics of the expansion of fragments, but at the same time unlike the known technical solutions, it does not have a further shielding effect on useful fragments.

The set of essential features of the invention allowed guaranteed to obtain a given fragmentation of the fragmentation shell of the munition shell with semi-finished striking elements having the necessary technical characteristics of their main action.

The invention is illustrated by drawings, where figure 1 shows a General view of the housing, figure 2 is a cross section on an enlarged scale.

An example of the invention can serve as the design of the following ammunition, with reference to the 30 mm fragmentation grenade VOG-17M.

A sleeve 2, a head fuse 3 and a copper lead belt 4 are mounted on the main body 1. The sleeve 2, equipped with an igniter capsule 5 and a powder charge 6, is mounted on the body 1. The head fuse 3 is screwed into the body 1 on the thread. The wall of the housing 1 is made up of three shells: inner 7, middle 8 and outer 9. The inner 7 and outer 9 shells are made in the form of a spiral of steel wire with a diameter of 3 mm and pressed on a mandrel to a square section of 2.7 × 2.7 mm with the formation of prismatic corrugations 10 during winding with a depth of 0.9 mm and an angle at the top of the corrugation of 80 °, deposited on the inner side of each shell. The middle shell 8 is solid. Inside the shell 7 in the cavity of the housing 1 mounted block 11 of the explosive.

The proposed device operates as follows.

When the igniter capsule 5 is activated, for example, by mechanical action, the igniter capsule fires and ignites the powder charge 6. The head fuse 3 is triggered from the powder charge 6 and then the explosive block 11, thereby forming detonation products. The detonation products act on the turns of the inner shell 7, while most of them pass through the turns of the inner shell 7 and begin to act from the inside on the middle continuous shell 8 and tends to inflate it.

In this case, at a given point in time, a thin continuous middle shell 8 and an outer shell 9 made in the form of axial conjugate turns of a spiral of a metal bar, swelling together, work simultaneously as a single shell with stiffeners, while the middle continuous shell 8 provides tightness case, and the outer 9 - strength characteristics of the case. At the same time, due to the fact that the outer shell 9 is made in the form of a spiral from a metal bar equipped with transverse corrugations 10, its coils act as power bands and, until a certain point in time, prevent the destruction of the inner 7 and middle 8 shells, which increases the expansion kinetics fragments. Upon reaching the specified pressure of the detonation products inside the housing 1, the wall of the housing 1 is destroyed with a guaranteed fragmentation of the fragmentation shell of the ammunition shell into a predetermined number of semi-finished striking elements having the necessary technical characteristics of their main action.

Using the proposed technical solution will improve the functional reliability and efficiency of fragmentation of ammunition with a given crushing body.

Claims (6)

1. The shell fragmentation munition of a given crushing, characterized in that it contains at least three interconnected shells, and the inner and outer shells are made in the form of axial conjugate coils of a spiral from a metal rod equipped with transverse flutes, while the middle shell is solid . 2. The housing according to claim 1, characterized in that the thickness of the middle continuous shell is (0.15 ... 0.45) of the thickness of the spiral rod. 3. The housing according to claim 1, characterized in that the step of the corrugations on the metal bar is not a multiple of the diameter of the solid middle shell. 4. The housing according to claim 1, characterized in that the inner and outer shells are made with the mutually opposite direction of winding. 5. The housing according to claim 1, characterized in that the transverse grooves are made on the inside of the metal bar forming the inner and outer shells. 6. The housing according to claim 1, characterized in that the turns of the spiral of the outer shell are arranged with a step equal to 1.1 ... 1.25 of the thickness of the turn.

Images