RU2135941C1 - Artillery round - Google Patents

Abstract

FIELD: rounds for subcaliber projectile launcher. SUBSTANCE: artillery round has a propelling charge, nose percussion fuze communicating with the bursting charge mounted on a transverse cross-piece in the projectile body with a driving band and blasting charge, where in the center positioned are a pyrotechnic retarder and a detonator; the bursting charge is distributed on the top of the flexible transverse cross-piece placed directly on the end face of the blasting charge and connected to the nose fuze without any intermediate components; the nose fuze with the projectile body is geometrically closed around the edges for axial detachment, mainly by beading. EFFECT: enhanced efficiency of fragmentation effect due to redistribution of masses, simplified design, reduced load on members in rational scheme of interaction at blasting. 1 dwg, 1 ex

Description

 The invention relates to fragmentation munitions, in particular, to shots for a grenade launcher.

 The prior art characterizes the closest analogue - an artillery shot, in which the sequence of actions of the functional units after meeting with the obstacle is structurally provided, providing a grenade jump followed by its air blasting, which increases the fragmentation effect of the warhead over the chain described in French patent N 2109408, class . F 42 B 13/00, publ. 05/26/72.

 A well-known shot contains a shock type head fuse carrying a housing with a leading belt, a transitional mounting sleeve in the center of which a knockout powder charge, a moderator with a detonator, a fragmentation shell with a bursting charge and a propellant charge including a shell with a powder mount and an ignition device. The head fuse communicates with a knockout charge mounted on the transverse jumper of the mounting sleeve.

 A disadvantage of the known shot is the low fragmentation efficiency due to the ballast metal of the bearing body and the irrational placement of elements, the complexity of the design and assembly technology of the products. So, to transfer the impulse from the knockout charge when reversing the throwing of the fragmentation shell of the grenade, which provides the necessary rebound speed for the elements, a massive adapter sleeve is used, which does not participate in the creation of the fragmentation field during air blasting, increasing the energy consumption, the generated knockout pressure, and the strength of the body structure for rebounding fragmentation grenade from the hedge.

 In a well-known shot with a separable case, when exposed to a knockout charge, the low efficiency of the fragmentation action is explained by the fact that up to 40% of the body metal mass is not involved in the formation of a fragmentation field, because the mounting adapter sleeve with a persistent transverse jumper remains in the ground together with the head part , where the outburst charge and the fragmentation grenade carrying the moderator and detonator are strengthened, and are not crushed into the striking elements of the main action of the ammunition.

 The problem to which the present invention is directed, is to increase the efficiency of fragmentation effects with a simple design, in which the metal of the body is used to the maximum to form the specified mass and shape of the fragments.

 The required technical result is achieved by the fact that in a well-known artillery shot containing a propelling charge, a percussion head fuse communicating with a knockout charge mounted on the transverse jumper in the grenade body with a leading belt and explosive charge, where a pyrotechnic moderator and detonator are placed in the center to the proposal of the authors, the knockout charge is distributed on top of an elastic transverse jumper laid directly at the end of the bursting charge, and is connected without intermediate elements from the heads fuse, which with the grenade body is hermetically sealed around the periphery with the possibility of an axial connector, mainly by rolling.

Distinctive features allowed:
- to qualitatively distribute the masses of the constituent elements of the shot with their new relationship and form of execution, excluding some of the known aggregate to obtain a quantitative result — an increase in the mass of useful fragments;
- to reduce the specific pressure of the knockout charge of an equal impulse distributed over the entire cross-sectional area of the housing chamber, more massive, compared with the prototype, and damped by a transverse elastic bridge freely laid on the end of the bursting charge.

 The body of the shot is crushed into predetermined fragments in a larger quantity and combines the additional function of the supporting structure.

 The connection of the fragmentation case to the head fuse by means of seaming ensures the structural unity of the shot, which retains the possibility of a power axial connector for the fragmentation of the fragmentation grenade from the obstacle under the influence of the expelling charge placed directly between the fuse and the case.

 The new quality of the elastic transverse jumper placed at the end of the explosive charge provides a pulse of expelling explosive charge to the fragmentation grenade, damping it, prevents the explosive charge from technical destruction before initiation with deceleration.

 The combination of new features with the necessary part of the known ones ensured that the novelty of quality not inherent in the prototype is obtained, which is expressed in increasing the fragmentation efficiency, simplifying the design and reducing manufacturing and assembly costs.

 The proposed design is made with a fragmentation grenade body that detaches when meeting with an obstacle from the head part, which is predeterminedly crushed with a delay time in the air above the target, since the expelling charge acts directly on the head part and, through the jumper and explosive charge, on the body, disconnecting them and reporting propelling momentum to a grenade.

 The invention is illustrated by the drawing, which serves only as an illustration of a technical solution and does not limit the scope of rights of the totality of the features of the formula, where the proposed artillery shot is schematically depicted.

 An example embodiment of the invention is illustrated by the design of a 40 mm artillery round for the GP-25 grenade launcher.

 The head fuse 1 of the shock action with the distributor capsule 2 is installed in the shell 3 of the fragmentation grenade, at the rear end of which a metal charge 4 is mounted.

 The fuse 1 on the periphery is fixed by rolling the metal of the body 3 along the profile of the bottom with the force necessary for the structural unity of the shot assembly, and sufficient to separate them by the pressure developed by the powder gases of the expelling charge 5.

 The knockout charge 5 is installed directly below the fuse 1 and communicates with the igniter 2, and through the jumper 6 is pressed against the end of the bursting charge 7, filling the fragmentation case 3, equipped with a leading belt 8.

 The jumper 6 is made of elastic, elastic material (vulcanized rubber, cardboard, etc.) and is freely laid on the end face over the entire surface of the explosive charge 7. The jumper is tightly pressed through the shell of the expelling charge 5 by the force of the fuse 1 rolling into the head point of the housing 3. The jumper 6 performs only the functions of a damper that passively absorbs the energy of the impulse load that occurs when the kick charge 5 is triggered, and reduces the amplitude of the shock wave to a limit safe for the burst charge 7.

 Under the bursting charge 5 there is a choke 9, a moderator 10 and a detonator 11, which are axially sequentially mounted inside the bursting charge 7.

 The effectiveness of the fragmentation ammunition, all other things being equal, directly depends on the mass of the fragmentation shell used to form useful damaging elements, and the higher it is, the higher the effectiveness of the ammunition, including with air blasting.

 The mass of the fragmentation case 3 according to the invention for the constant mass of the shot is increased due to the exclusion from its structure of elements not involved in the formation of useful fragments, that is, the redistribution of masses. Such elements in the prototype include a transitional mounting sleeve of the head part, in which a knockout charge and a case with a leading belt are placed, a fuse and a fragmentation case with a bursting charge are installed.

 In the proposed design, the support area of the knockout charge 5 was increased 1.5 times by the discarded fragmentation case 3, which allowed a 50% decrease in the specific pressure of the charge 5, while maintaining the magnitude of the reverse throwing force while reducing the load on the structural members and the requirements for their strength.

 When meeting with an obstacle, the head fuse 1 fires and the firing pulse of the igniter 2 ignites the powder of the expelling charge 5, which in turn ignites the moderator 10 through the inductor 9.

 Under the influence of the pressure of the powder gases generated during the combustion of the knockout charge 5, the housing 3 with the bursting charge 7 pressed therein reversibly moves relative to the movable fuse 1, which is supported by the barrier, while the rolling metal of the housing 3 bends or breaks, being released from the fuse 1.

 The energy of the powder gases from the charge 5 fragmentation grenade is thrown to a predetermined height of 0.5 - 1.5 m from the obstacle, where when the moderator 10 burns out, the pulse from which is transmitted to the detonator 11, the explosive charge 7 is blown, which crushes the housing 3 into fragments of a given mass and form, which ensures the optimal effectiveness of the destruction of the fragmentation field.

 The proposed shot is intended for use in underbarrel grenade launchers, it is unknown according to the identified sources of information of the prior art, which clearly does not follow for a specialist ammunition, the invention is suitable for industrial production in serial production, that is, meets the criteria of patentability.

Claims (1)

 An artillery shot containing a propelling charge, a percussion head fuse communicating with a knockout charge mounted on the transverse jumper in the grenade body with a leading belt and explosive charge, where a pyrotechnic moderator and detonator are placed in the center, characterized in that the knockout charge is distributed on top of the elastic transverse a jumper laid directly at the end of the explosive charge, and is connected without intermediate elements to a head fuse, which is geometrically closed to the grenade body peripherals with the possibility of an axial connector predominantly by rolling.