RU2642569C1 - Illumination ammunition - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: device contains a warhead-placed impact fuse that communicates through a throttling sleeve with a firing layer of a gas generating expulsion charge, on which a set of longitudinal stars installed in a cylindrical body, rests. The set is associated with a detachable shank equipped with aerodynamic blades. The body is made of coaxial shells rigidly connected by end bridges, bulk ballast, mainly sand is placed in the gap therebetween. The expulsion charge is a pyrotechnic flash-light, and the stars are installed in a cylindrical sleeve equipped with a central locking pin. The shank has a weakened cross-section along the generatrix, while a power plate bearing a mounting ring is fixed on the outer shell of the body.

EFFECT: expanded technological possibilities of using the ammunition which is used as an aviation light to indicate the impact point and illuminate the territory, at a smoke alarm clearly visible and distinguishable at a distance.

2 cl, 2 dwg

Description

The invention relates to lighting aviation ammunition, creating a flash at the point of impact for fixing its coordinates, light torches which provide illumination of areal spaces in the dark and can be used as auxiliary and training when training personnel with targeted bombing.

The level of this technical field is characterized by a parachute lighting projectile described in the book by A.A. Shidlovsky "Fundamentals of pyrotechnics." M .: Engineering, 1973, p. 130-132, fig. 11.1, which contains a flare that is thrown out through the bottom with a parachute in the direction opposite to the projectile flight.

The torch and parachute are placed in separate half-cylinders that protect them from damage at the time of the shot when ejected from the shell of the shell. When flying out of the hull, the half-cylinders are pushed apart to the side with an aerodynamically free air flow and release the torch and parachute for autonomous flight.

During forward movement, the torch pulls the slings, the parachute opens as a result of filling the dome with air and the burning torch descends to the earth's surface at a speed of 10-15 m / s.

The expulsion charge is throttled by means of a throttling sleeve to the initiating head means, a remote tube, the fuse of which fires on autonomous flight after a set delay time after firing.

The disadvantage of the described lighting ammunition is the low accuracy of getting into a given operating area due to the parachute system of longitudinal stabilization, complex and expensive, which forces the use of volley fire for guaranteed coverage of the required territory, as a result of which the financial and material cost of the operation increases.

The lighting munition according to patent RU 143705 U1, F42B 12/42, 2014, which is selected by the number of matching features and technical effect as the closest analogue to the proposed munition, is more perfect.

Known lighting ammunition includes a functional torch adjacent to the knockout charge, which interacts via a throttle bushing with an instant contact head fuse, and a longitudinal stabilization device mounted on the shank, made in the form of distributed aerodynamic blades.

The light torch is made of a set of checkers molded from a pyrotechnic lighting composition, which are longitudinally mounted in conjunction with a cylindrical body and adjoin the end face to a knockout charge equipped with a heat-sensitive layer supported by a throttling sleeve that is installed under the head fairing carrying a contact fuse.

The main disadvantage of the known lighting ammunition is the restriction on the use as an aircraft, having a pronounced longitudinal direction by the fairing forward with an autonomous vertical fall on the target, which would have a means of indicating the place of impact.

In addition, due to the forced separation of the shank from the body, as a result of reaction interaction with the barrier, it is difficult to freely and timely reverse throwing light torches to a given height for lighting for a given time of the adjacent territory.

The technical problem to which the present invention is directed is the expansion of technological capabilities and the field of use of lighting ammunition.

The required technical result is achieved by the fact that in a known lighting munition containing a head contact fuse interacting through a throttle sleeve with an ignition interlayer of a gas-generating outburst charge, into which, through a damping ring, a set of longitudinal light flares is mounted, mounted in a cylindrical housing connected to a detachable shank, equipped with with aerodynamic blades, according to the invention, the housing is made of coak rigidly connected by end bridges sial shells, in the gap between which bulk ballast is placed, mainly sand, the outburst charge is a pyrotechnic flash, light flares are installed in a cylindrical sleeve equipped with a central locking pin, and the shank has a weakened section along the generatrix.

Another feature of the ammunition is that on the outer shell of the casing is fixed power pad that carries the mounting ring.

Distinctive features of the proposed technical solution have expanded the technological capabilities of the use of ammunition, which is used as an aircraft for light designation of the place of impact and lighting of the territory with smoke alarms, clearly visible and distinguishable at a distance.

The implementation of the shell of the munition with bulk ballast in the gap between the coaxial shells is necessary to shift its center of mass from the center of aerodynamic pressure to the head for longitudinal orientation on autonomous flight when the munition is used as an aircraft. In this case, the meeting of the ammunition with the earth's surface or an obstacle on it occurs normally and the head fuse is normally triggered, and light torches throw themselves oriented at a given height for functioning as intended.

Sand as bulk ballast is a practically non-alternative option in terms of structural and technological simplicity and low cost of solving the problem of longitudinal stabilization of aircraft ammunition after separation from the carrier aircraft.

Performing a gas-generating knock-out charge in the form of a flash provides, in addition to separating the shank with excess pressure and throwing torches, the function of generating a light flash at the place of ammunition fall for photofixing in relation to the terrain and electronic archiving.

Placing a set of longitudinal torches in a cylindrical sleeve adjacent to the shell of the casing, which is equipped with a central locking pin that fixes their location, prevents the occurrence of imbalance, eliminating interference in sighting bombing.

The weakened cross section along the generatrix of the aerodynamic shank ensures its opening and separation from the body until it encounters an obstacle at a lower cost of the developed pressure energy generated by the combustion of the outburst charge of gaseous products, which are used to a greater extent for the reverse throwing of functional flares when climbing to a given height.

Rigid fastening on the outer shell of the body of the power plate with the mounting ring is designed to install ammunition in the grip of the aircraft, which opens automatically upon a signal to the compartment from the cockpit.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of a quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The invention is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the totality of the features of the formula, which shows:

in FIG. 1 - general view of the ammunition;

in FIG. 2 is a section along AA in FIG. one.

Lighting aviation ammunition includes (Fig. 1) connected in a monolithic unity of the head fairing 1 with a contact fuse 2 instant action, a cylindrical body 3 and a conical shape shank 4 with aerodynamic blades 5.

Case 3 is made in the form of two coaxial shells 6 and 7, respectively, external and internal, in the gap 8 between which sand 9 is placed, which serves as a ballast to provide the required weight and size parameters and the displacement of the center of mass to the head to ensure longitudinal stability of the munition on autonomous flight vertically to the earth’s surface.

The shells 6 and 7 are rigidly fastened to each other by means of end bridges 10, 11.

In adjunction with the inner shell 7, sequentially, from the fairing 1 to the shank 4, are installed: a throttling sleeve 12, an ignition layer 13 of smoky gunpowder, adjacent to the expelling gas-generating charge 14 of the flash, which is supported through a damping ring 15 on the light sleeve 16, which carries torches 17.

On the outer shell 6 of the housing 3, a power plate 18 is welded that carries the mounting ring 19.

Functional light torches 17 are inscribed in a cylindrical sleeve 16 and are locked from turning by the central locking pin 20.

The conical shape of the shank 4 has a section weakened by stamping 21 along the generatrix.

Aerodynamic blades 5, distributed on the shank 4, are interconnected by an annular bandage 22.

The munition according to the invention operates as follows.

On command from the cockpit of the aircraft, the mounting ring 19 is released from the spring grip of the suspension and the ammunition falls under the influence of gravity into the atmosphere, where it autonomously continues its autonomous flight to the target, while it is longitudinally oriented due to the displaced center of mass to the head from the center of pressure formed by aerodynamic plumage 5 of the shank 4.

When descending to the earth's surface, the ammunition is oriented vertically and when it encounters an obstacle, interacts by means of a contact fuse 2 instant action.

The inertial forces of equipment upsetting that arise in this case are compensated in the damping ring 15 and the sleeve 12, preventing the destruction of the functional charges 17.

The fire force from the fuse 2 fired, compressed in the throttling sleeve 12, initiates the powder of the interlayer 13, the thermal energy released during the combustion of which ignites the expelling charge 14.

When burning the pyrotechnic composition of charge 14, a large volume of gaseous products is generated, resulting in a sharp increase in pressure.

Gas-aerosol combustion products of charge 14, the dispersed phase of which includes solid hot particles emitting in the visible part of the spectrum, which communicates an additional function - light.

With the passage of hot gas-aerosol combustion products of the charge 14 through the longitudinal channels of the sleeve 16 between the functional flares 17, the latter ignite from an open surface.

By growing pressure inside the liner 4 is destroyed along its weakened section 21 and discharged from the casing 3, freeing the passage for the reverse movement of the burning light flares 17 into the open space, and the generated gas-aerosol formation forms a flash in the atmosphere, along which the place of the munition fall is electronically fixed and archived on board an aircraft.

In this case, burning torches 17 are kicked out of the sleeve 16, and are reversibly raised to a predetermined height, where the products of their combustion are scattered, illuminating the surrounding area during the estimated time (2-3 minutes).

The red-hot excess of metal fuel distributed in the volume of the torches 17 is burned up with atmospheric oxygen, increasing the luminosity.

A comparison of the proposed technical solution with the identified analogues of the prior art did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences of the extinguishing aerosol generator, which directly follow from the statement of the technical problem, are not obvious to the specialist in lighting ammunition.

The manufacture of the combination of structural elements of ammunition in their interconnection can be carried out at the existing production facility, where analogue ammunition is produced in series using the existing technology.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

Full-scale tests of prototypes of the proposed light aviation ammunition confirmed the achievement of positive results in the reliability of operation in the given schedule with increased efficiency of the intended action, which allows us to recommend a technological design for industrial production and delivery to customers.

Claims (2)

1. A lighting munition containing a head contact fuse interacting through a throttle bushing with an igniter interlayer of a gas-generating knockout charge, into which, through a damping ring, a set of longitudinal light flares is mounted, mounted in a cylindrical body connected to a detachable shank equipped with aerodynamic blades, characterized in that the body is made of coaxial shells rigidly connected by end bridges, in the gap between which a bulk point is placed Article, preferably sand, lifting charge is a pyrotechnic flash, light torches mounted in a cylindrical sleeve provided with a central locking pin, the shank has a weakened section along the generatrix. 2. Lighting ammunition according to claim 1, characterized in that on the outer shell of the casing a power plate is fixed that carries the mounting ring.

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