RU2593664C1 - Destructive agent case with opening stabiliser - Google Patents

Abstract

FIELD: rocketry.

SUBSTANCE: invention relates to rocketry, in particular, to destructive agent case with opening stabiliser. Case comprises a cylindrical outer shell. Stabiliser is made as shields with crosswise arched stabilising surfaces. Said surfaces are fixed in the case on axes perpendicular to longitudinal axis of the agent case. Case is equipped with additional inner shell which is coaxially installed relative to outer shell. Maximum inner shell diameter is 0.60...0.85 of the outer shell inner diameter. Damaging agents are orderly arranged in the annular cavity formed by two shells. Stabilising surfaces of opening stabiliser are shifted to the front part of the case and fixed on axes. Distance from the front edges of the surfaces to the back part of the agent case is 0.2...0.5 of maximum case diameter. Length of stabilising surfaces is made in the range of 1.0...1.5 of maximum case diameter. Damaging agents can alternatively be made in the form of two separate fractions, differing from each other with geometric parameters. Fraction with larger sizes of damaging agents is located in the front part of destructive agent case.

EFFECT: higher reliability due to reduced aerodynamic loads, higher efficiency, increased destructive effect, improved weight and dimension characteristics.

1 cl, 1 dwg

Description

The invention relates to rocket technology and can be used in the development of military elements with a drop-down stabilizer for missiles and rockets.

The object of the invention is a housing for a combat element (BE) with a drop-down stabilizer of increased combat effectiveness and reliability.

To increase the combat effectiveness of the BE by obtaining the required fragmentation field, it is necessary to parry the initial angular perturbations when ejected from the cassette or to separate from the carrier and a vertical approach to the target with zero angle of attack (see, for example, Gogin V., Fedoseev A. Prospects for the development of reactive multiple launch rocket systems - "Foreign Military Review", No. 1, 1995; Anisimov V. Ammunition with high-precision military elements. - "Foreign Military Review", No. 11, 1994).

The stabilization of BE is possible with the help of a drop-down stabilizer, for example, as in a bomb according to Patent No. 4132169, USA, class. MKI F42B 25/12 (Bulletin "Inventions in the USSR and Abroad", 1979, No. 9, p. 7). In the indicated analogue, the bomb body is made in the form of a cylindrical outer shell, and the drop down stabilizer is in the form of blades.

However, such a stabilizer has a small coefficient of resistance, which does not allow for rapid braking and vertical approach of the bomb to the target, ejecting it from the carrier at a low height, the stabilizer has dimensions up to 20% ... 30% of the length of the hull, which reduces combat effectiveness.

Common features with the claimed technical solution are the presence in the analog of the body in the form of a cylindrical outer shell, a drop down stabilizer.

Known housing combat element for the cluster head of the Patent No. 2439475, RF, IPC F42B 12/58, publ. 01/10/2012, bull. No. 1, containing a cylindrical outer shell, a drop down stabilizer in the form of shields with arcuate in the transverse direction stabilizing surfaces fixed in the housing on axes perpendicular to the longitudinal axis of the housing, and adopted by the authors as a prototype. In the opened state, the stabilizing surfaces form a conical split skirt with a high coefficient of resistance, which allows the BE to provide rapid braking and a vertical approach to the target (ground surface).

However, the combat effectiveness of the BE also depends on the design of the hull, designed to accommodate the damaging elements, the location of the drop-down stabilizer in the form of shields on the hull, on which its geometric parameters, and mass characteristics depend.

Therefore, the development of the design of the BE body with a drop-down stabilizer having minimum dimensions and weight, and therefore, increased combat effectiveness of the BE by increasing the weight of the warhead, ensuring zero attack angles while ensuring the necessary stability and the required angle of approach to the target, is an urgent task.

Common features with the proposed combat element housing with a drop-down stabilizer is the presence in the prototype of a cylindrical outer shell, a drop-down stabilizer in the form of shields with arcuate in the transverse direction stabilizing surfaces fixed in the case on axes perpendicular to the longitudinal axis of the case.

Unlike the prototype, in the proposed combat element case with a drop down stabilizer, the case is equipped with an additional inner shell coaxially mounted relative to the outer shell, and its maximum diameter is 0.60 ... 0.85 of the inner diameter of the outer shell, and in the annular cavity formed by two shells, the striking elements are arranged in order, the stabilizing surfaces of the opening stabilizer are shifted to the front of the body and fixed on the axes so that the distance from their front to the rim to the rear of the element is 0.2 ... 0.5 of the maximum diameter of the case, and the length of the stabilizing surfaces is made within 1.0 ... 1.5 of the maximum diameter of the case.

In one embodiment of the hull, the striking elements are made in the form of two separate fractions that differ in geometric parameters, and a fraction with larger sizes of the striking elements is located in front of the combat element.

This 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 a combat element housing with a drop-down stabilizer of increased combat effectiveness by increasing the damaging effect, providing the specified aeroballistic characteristics in the target area, reducing the overall mass characteristics of the opening stabilizer and increasing the mass of the warhead, increasing the reliability of operation by reducing aerodynamic loads on elements of the stabilizer and their deformations at the time of its disclosure.

The specified technical result is achieved in that in the case of a combat element with a drop-down stabilizer containing a cylindrical outer shell, a drop-down stabilizer in the form of shields with transversely arched stabilizing surfaces fixed in the casing on axes perpendicular to the longitudinal axis of the casing of the element, according to the invention, the casing is provided with an additional the inner shell, coaxially mounted relative to the outer shell, and its maximum diameter is 0.60 ... 0.85 ext the morning diameter of the outer shell, and in the annular cavity formed by the two shells, the striking elements are arranged in order, the stabilizing surfaces of the opening stabilizer are shifted to the front of the case and fixed on the axes so that the distance from their front edges to the rear of the element is 0.2 ... 0.5 of the maximum diameter of the case, and the length of the stabilizing surfaces is made in the range of 1.0 ... 1.5 of the maximum diameter of the case.

In one embodiment of the hull, the striking elements are made in the form of two separate fractions that differ in geometric parameters, and a fraction with larger sizes of the striking elements is located in front of the combat element.

The authors of the invention carried out a large amount of experimental research of mock-ups and full-scale BE on stands, in wind tunnels, flight tests aimed at improving combat efficiency and reliability of operation.

The research results made it possible to identify the influence of the most dominant factors on the dynamics of the perturbed BE movement, to determine the necessary geometric parameters of the drop-down stabilizer in the form of shields to ensure reliable parry of the initial angular perturbations, to ensure zero values of the balancing angles of attack at the target with a decrease in the overall-mass parameters of the stabilizer.

A new set of structural elements, as well as the presence of connections between the parameters of the body of the combat element and the expanding stabilizer, allowed, in particular, due to the following:

- the case, equipped with an additional inner shell, coaxially mounted relative to the outer shell, and the maximum diameter of which is 0.60 ... 0.85 of the inner diameter of the outer shell, and in the annular cavity formed by the two shells, striking elements are arranged in order, - increase the damaging fragmentation effect and thereby increase the combat effectiveness of the element. Fulfillment of the maximum diameter of the inner shell of less than 0.60 of the inner diameter of the outer shell leads to an increase in the mass of damaging elements and a decrease in the speed of their expansion, and a decrease in combat effectiveness. With a maximum diameter of the inner shell of more than 0.85, the inner diameter of the outer shell decreases the effectiveness of the damaging fragmentation effect of BE;

- stabilizing surfaces of the opening stabilizer offset to the front of the housing and fixed on the axes so that the distance from their front edges to the rear of the housing of the element is 0.2 ... 0.5 of the maximum diameter of the housing - to increase the aerodynamic lifting force of the stabilizer due to the use of the positive effect of interference between the body and the stabilizing surfaces, which allowed to reduce the overall mass characteristics of the stabilizer and increase the combat effectiveness of the element. If the distance from the leading edges is less than 0.2 of the maximum diameter of the casing, the positive effect of interference between the casing and the stabilizing surfaces is reduced. Fulfillment of the indicated distance in excess of 0.5 of the maximum diameter of the casing is impractical, since this causes a shift in the coordinate of the center of pressure of the element to the front of the casing and a deterioration in its stability, which in turn increases the time to parry the initial angular perturbations and the appearance of balancing angles of attack. The presence of the angle of attack does not allow for a vertical approach of the element to the ground, the reliability of the response to the target decreases;

- the lengths of the stabilizing surfaces within 1.0 ... 1.5 of the maximum diameter of the body - to provide the necessary stability and the required aerodynamic characteristics throughout the flight range of angles of attack in the process of parrying the initial angular perturbations with minimal overall mass characteristics of the stabilizer. Performing the length of the stabilizing surfaces less than 1.0 of the maximum diameter of the housing leads to a shift in the coordinate of the center of pressure of the element to the front of the housing and the deterioration of its stability. Because of this, the parry time of the initial angular disturbances increases, balancing angles of attack appear, and the combat effectiveness of the element decreases. The increase in the specified length over 1.5 of the maximum diameter of the hull is impractical, since given the dimensions of the combat element, this leads to the need to reduce the warhead, reduce its combat effectiveness;

- as a variant of the hull with striking elements in the form of two separate fractions that differ in geometric parameters, and fractions with larger dimensions of the striking elements located in front of the combat element’s body, increase the element’s damaging effect and thereby increase its combat effectiveness.

The invention is illustrated in the drawing, where in FIG. 1 shows a General view of the proposed element.

The combat element consists of a housing 1 with a maximum diameter of d ₁ , containing a cylindrical outer shell 2 with an inner diameter of d ₂ , an inner shell of 3, striking elements 4, a swinging stabilizer 5 in the form of shields 6 with stabilizing arches in the transverse direction B, axes 7.

The inner shell 3 is coaxially mounted relative to the outer shell 2, and its maximum diameter d ₃ = (0.60 ... 0.85) d ₂ . In the annular cavity formed by the shells 2 and 3, the striking elements 4 are arranged in order. The shields 6 are fixed on the axes 7 perpendicular to its longitudinal axis. The stabilizing surface of the flaps 6 of the drop down stabilizer 5 is shifted to the front of the housing 1, and the distance from their front edges to the rear of the housing 1 is L ₁ = (0.2 ... 0.5) d ₁ . The length of the stabilizing surfaces L ₂ = (1,0 ... 1,5) d ₁ . In one embodiment of the hull, the striking elements 4 are made in the form of two separate fractions that differ in geometric parameters, and a fraction with larger sizes of the striking elements is located in front of the body 1 of the combat element.

The functioning of the proposed BE is as follows.

At a given point in the flight path, the PC is separated from it or discarded from the cartridge BE. After separation and until the final opening of the stabilizer 5 due to the initial perturbations, the casing 1 of the BE makes an unstabilized flight. Then, the flaps 6 of the stabilizer 5 are opened, which rotate relative to the axes 7. The flaps 6 begin to create a drag force and a lifting force that creates a stabilizing moment relative to the center of mass of the element. BE begins to make damped oscillations, stabilize and takes a vertical approach to the target with the required aeroballistic characteristics. Next, the BE is triggered and the striking elements are scattered around the target.

Fulfillment of the ratios of the diameters of the outer and inner shells within the indicated limits makes it possible to increase the combat effectiveness of the BE by increasing the damaging fragmentation effect.

Due to the displacement of the stabilizing surfaces of the stabilizer 5 to the bow of the housing 1 and the use of positive interference between them and the housing, the BE is stabilized with smaller overall and mass characteristics of the stabilizer, aerodynamic loads on the structural elements are reduced at the time of opening, which leads to increased reliability of operation.

Optimization of the parameters of the stabilizer specified in the claims, the reduction of the overall mass characteristics of the stabilizer allows you to increase the weight of the damaging elements 4 located in the cavity between the outer shell 2 and the additional inner shell 3. By increasing the damaging effect increases the combat effectiveness of the BE.

In accordance with the invention, a housing of a combat element with a drop-down stabilizer for a rocket launcher is developed.

Currently, working design documentation has been developed, full-scale tests of prototypes of rockets have been carried out, and production of a pilot batch is planned.

Claims (2)

1. The housing of the combat element with a drop-down stabilizer, comprising a cylindrical outer shell, a drop-down stabilizer in the form of shields with transversely arched stabilizing surfaces fixed in the casing on axes perpendicular to the longitudinal axis of the casing of the element, characterized in that the casing is provided with an additional inner shell, coaxially installed relative to the outer shell, and its maximum diameter is 0.60 ... 0.85 of the inner diameter of the outer shell, and in the annular floor the dam formed by two shells, the damaging elements are arranged in order, the stabilizing surfaces of the drop-down stabilizer are shifted to the front of the case and fixed on the axes so that the distance from their front edges to the rear of the element is 0.2 ... 0.5 of the maximum diameter of the case, and the length of the stabilizing surfaces is made within 1.0 ... 1.5 of the maximum diameter of the housing. 2. The housing of the combat element with a drop-down stabilizer according to claim 1, characterized in that the damaging elements located in the annular cavity between the two shells are made in the form of two separate fractions that differ in geometric parameters, and the fraction with larger dimensions of the damaging elements is located in front of the body of the combat element.

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