RU2670464C1 - Artillery shell - Google Patents

Abstract

FIELD: ammunition.SUBSTANCE: invention relates to the ammunition and, in particular, to the artillery shell. Device includes body with the main stabilizers unit and the aft compartment. Inside the body a partition is made. It divides the body cavity into two isolated from each other parts. In one part the explosive substance is placed. In the second part the fuel composition with lack of oxidizing agent for the bottom gas generator is placed. Bottom gas generator consists of the projectile shell hollow part and the nozzles unit. Said gas generator provides the gaseous products with a lack of oxidant output. Aft compartment body is made of telescopically located outer and inner shells. Outer shell is made with possibility of axial movement in relation to the internal one, and at that formation of the rocket-ramjet engine chamber. At that, the projectile shell is made with possibility of its parts undocking among themselves. Connector assembly is located in the body second part. In this part the additional stabilizers unit is located. In the folded state this unit is fixed on the partition between the body parts. It is made with the possibility of automatic opening after the body parts separation from each other.EFFECT: technical result is increase in the artillery projectile flight range.1 cl, 4 dwg

Description

The invention relates to ammunition, namely: to methods of increasing the flight range of artillery shells and can be used in the development of methods for increasing the flight range and projectiles with increased flight range.

There are two ways to increase the range of artillery shells.

The first of these is to place onboard an accelerating engine artillery projectile [R.Oosthuizen, J.J.duBuission, G.F.Botha.Solidfuelramjet (SFRJ) propulsionforartilleryprojectileapplications - conceptdevelopmentoverview // 19th International SymposiumofBallistics, Interlaken, 2001, 2001, 2001, 2001.

This method allows you to increase the range of artillery projectile by increasing the speed of its flight due to the energy stored in the fuel. Placing onboard a ramjet engine allows air to be used as an oxidizer, however, in this case, a post-combustion chamber of a certain size is required on board the projectile, thereby limiting the amount of payload with a constant projectile dimensions.

Known aerodynamically stabilized projectile, which implemented a telescopic transformation of the airframe during the flight. (Application No. WO 2001 SE0133220010613 “Fin stabilized shell”).

This device allows you to increase the volume of the projectile during the flight and due to the shift back block stabilizers to increase the degree of static stability while maintaining the dimensions of the regular projectile during storage. However, the additional free volume obtained during the telescopic transformation remains passive and is not used at all.

Known artillery shell, which implements a method of reducing the bottom resistance. This projectile has a body of tail section of excessive strength for flight regimes with a stabilizer unit and a bottom gas generator producing gaseous products with an oxidizer deficiency. The method of reducing the bottom resistance is realized by supplying additional oxygen due to ejection of the incident flow through the flow regulator, which provides the amount of air ejected into the central zone, proportional to the velocity of the artillery projectile, which allows increasing the interaction area of the gas flows and increasing the efficiency of afterburning of the condensed phase in non-stationary flight conditions . The gas generator in this case is designed to increase the pressure in the area of the bottom cut and thereby reduce the bottom resistance, which ultimately leads to an increase in the range of the projectile. At the same time, a large area of interaction of gas flows contributes to a more complete afterburning of the products formed in the gas generator. Generated jet thrust in this case is negligible (Patent RF 2225976 of 02.12.2002, IPC: F42B 15/00).

The disadvantages are that afterburning of a part of the pyrotechnic composition occurs behind the bottom section of the projectile, which leads to an incomplete use of the energy stored in the pyrotechnic composition, as well as the chemical energy of the air involved in the afterburning process. Also, the projectile on the trajectory has an excessive margin of safety of the body, due to the high level of starting overloads in the bore.

Thus, the energy of the fuel charge of the gas generator is far from being fully utilized, and the capabilities of the shell of the projectile from the standpoint of the strength of the structure is incommensurately higher than is necessary in flight.

Known artillery projectile with increased flight range and a method of increasing the flight range of an artillery projectile, which consists in the fact that after the departure of the projectile containing the body of the aft compartment with a stabilizer unit and a bottom gas generator producing gaseous products with an oxidizer lack, atmospheric air is taken from the bore, the oxygen of which is burned by the combustible gaseous mixture obtained in the gas generator, while the body of the aft compartment is made of a composite telescopically layer external and internal shells and in flight it is transformed twice: the first time the transformation is carried out immediately after the projectile leaves the barrel by extending the outer shell with a block of stabilizers, ensuring the formation of a rocket-ramjet engine with an afterburning chamber, a gas generator fuel charge, an air intake device and a nozzle, the second time, the transformation is carried out after the fuel charge of the gas generator burns out due to the return of the outer shell of the housing and feed compartment to the initial position and closing At the same time, an air intake device (RF patent No. 2522699, Application: 2012152897/11, 10.12.2012, IPC: F42B 15/00 is a prototype).

The specified projectile is used as follows.

The artillery projectile includes a body of the aft compartment (KKO) with a block of stabilizers and a bottom gas generator, an air intake device. The hull of the aft compartment is composed of telescopically folded outer and inner shells. After the departure of the projectile, atmospheric air is taken for the afterburning of the gaseous mixture, it is transformed by the ECC immediately after the projectile departs from the bore by extending the outer shell to form a rocket-ramjet engine, then transform the OCC by returning the outer shell to its original position and closing the intake device.

The main disadvantage of this projectile is the complexity of its design, due to the need for a mechanism to return the outer shell to its original position, which leads to a deterioration of its mass-dimensional characteristics. In addition, to stabilize the flight of the projectile as in the initial section, with the charge of the gas generator, and at the final, when the charge has already been used, and with different positions of the center of mass, the same stabilizer unit is used, which worsens the flight characteristics of the projectile.

Technical problem on which the invention is directed, is to increase the range of the artillery projectile by optimizing the design of the projectile, reducing its mass during the flight and selecting the optimal characteristics of the stabilizer block for each flight segment with a working and non-working rocket-ramjet engine.

The solution of this task is achieved by the fact that, in the proposed artillery projectile containing a hollow body with a block of main stabilizers and aft compartment, a partition is made inside the said body, dividing its cavity into two parts isolated from each other, and an explosive the substance, and in the second part there is a fuel composition with a lack of an oxidizer for the bottom gas generator, consisting of a part of the hollow shell of the projectile and the nozzle block, and producing gaseous products with sufficient oxidizer, while the body of the aft compartment is made of telescopically located outer and inner shells, and the outer shell is made with the possibility of axial movement relative to the inner and education when this camera rocket-ramjet engine, according to the invention, the body of the projectile made with the possibility of undocking parts among themselves, and the connector assembly is located in the second part of the body, while in the second part a block of additional stabilizers is placed, which is fixed folded on a partition between the parts and is capable of automatic opening after a separation between the parts.

The invention is illustrated by the drawings, where in FIG. 1 shows a schematic diagram of an artillery shell before exiting the barrel; in fig. 2 shows a view of the air intake; in fig. 3 shows a diagram of an artillery shell after the first transformation of the corps; in fig. 4 is a diagram of the artillery shell after the outer shell is dropped.

The case of the proposed projectile is made of inner 1 and outer 2 coaxially mounted shells. Shell 2 is configured to axially move relative to shell 1. A block of main stabilizers 3 and air intake devices 4 are installed on the outer shell 2. Intake devices 4 together with the outer shell 2 and a nozzle 5 located in the output part of the outer shell 1 form the second circuit rocket-ramjet engine, the principle of which is as follows. The gas formed during the combustion in the bottom gas generator 6 of a special solid fuel, containing a significant amount of unburned particles, enters the engine chamber and, burning out, mixes with the air flow, which enters the chamber through the air intake devices 4.

The bottom gas generator 6 with a nozzle block 7, which is the first circuit of the rocket-ramjet engine, is installed inside the inner shell 1. The case is divided into two parts: the first 7 with an explosive charge and the second with the bottom gas generator 6 by means of a partition 8. Inside the cavity of the second part a connector assembly of the housing parts 9 is installed. A block of additional stabilizers 10 is installed on the partition 8.

The proposed projectile is used as follows.

At the time of the shot, the projectile is dispersed in the barrel of the artillery gun, while the inner and outer shells 1 and 2, respectively, jointly perceive the resulting axial overload. After the projectile leaves the bore, the outer shell 2 is shifted back relative to the direction of the projectile, while the main aerodynamic stabilizers 3 and air intake devices 4 are opened, which together with the outer shell 2 and nozzle 5 form the second circuit of the rocket-ramjet engine.

In the bottom gas generator 6, which represents the first circuit of the rocket-ramjet engine, ignites the fuel composition with the lack of an oxidizer, after which the products of incomplete combustion of fuel begin to flow into the second circuit. Using intake devices 4 produce atmospheric air intake and use it to afterburn in the second circuit the gaseous products coming from the primary circuit, which then expire through the nozzle 5 of the second circuit, creating a jet thrust.

After the end of the bottom gas generator 6, the need for an outer shell 2 and the second part of the body disappears. In this case, a command is given to trigger the mechanism of the connector assembly 9, after which a part of the second part’s body / second part’s body is separated from the body of the projectile along with the outer shell 1 and the main stabilizer unit 3. Simultaneously, additional stabilizers 10 are revealed.

Resetting these parts will increase the speed of the projectile, by reducing its mass, and simplify its design by eliminating the mechanism for returning the outer shell 2 to its original position.

The use of the proposed technical solution will allow increasing the range of the artillery projectile by optimizing the projectile design, reducing its mass during the flight and selecting the optimal characteristics of the stabilizer block for each flight segment — with a working and non-working rocket-ramjet engine.

Claims (1)

An artillery projectile containing a hollow body with a block of main stabilizers and a stern compartment, while inside the said body a partition is made dividing its cavity into two parts isolated from each other, with an explosive substance placed in one part, and the lack of an oxidizer for the bottom gas generator, consisting of a part of the hollow shell of the projectile and the nozzle block and producing gaseous products with a lack of oxidizer, while the body of the aft compartment is n composite telescopically located outer and inner shells, and the outer shell is made with the possibility of axial movement relative to the inner and education with the camera rocket-ramjet engine, characterized in that the body of the projectile made with the possibility of undocking its parts between them, and the connector node located in the second part of the body, while in the second part is placed a block of additional stabilizers, which is fixed in the folded state on the partition between the parts of the body and the release Complete with the possibility of automatic disclosure after the separation of these parts among themselves.

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