RU2369828C1 - Naval signalling ammunition - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention is related to the field of signaling ammunition intended for shooting from naval grenade-launching systems. Naval signaling ammunition comprises body in the form of cylindrical-conical shell and bottom with internal cavity, detonating fuse, cup with explosive-expelling charge and signaling device with cylindrical-conical body. Shell and bottom are connected in a movable manner, and cup, diametre of which is less than diametre of cylindrical surface of bottom in the point of connection to shell, is arranged with annular bore on external cylindrical surface. Between signaling device and end of bottom cavity there is a conical spring installed, and on internal surface of shell in point of its connection to bottom there is an undercut provided.

EFFECT: higher reliability of ammunition action due to provision of failure-free expelling of signaling device from ammunition body.

5 cl, 2 dwg

Description

The invention relates to the field of military equipment, in particular to signal ammunition intended for firing (launching), preferably from marine grenade launcher systems.

Signal ammunition for marine grenade launcher systems operate according to a complex ballistic scheme:

- a shot of ammunition from a grenade launcher;

- flight of ammunition along an air trajectory for a given range;

- splashdown of ammunition with simultaneous operation of the means of initiation;

- separation of ammunition at a depth with the simultaneous ignition of the pyrotechnic composition of the torch and the ejection of a signal device from the shell of the ammunition;

- ascent of the signal device to the water surface and the supply of a light signal;

- the vertical orientation of the signal device for the entire period of the signal.

When developing signal ammunition for marine grenade launcher systems, the main technical difficulties in ensuring a given reliability of action arise when designing a separation scheme for ammunition, igniting the pyrotechnic composition of the torch, ejecting the signal device from the ammunition body, and floating the signal device without attenuation of the pyrotechnic composition of the torch.

Known signal munition according to the patent of England No. 1314811 from 05/01/1970, containing a housing and a signaling device comprising a shell of material with positive buoyancy, a pyrotechnic torch and a moderator. The shell of the ammunition is separated under water, the signal device floats to the surface of the water, the moderator is activated, which initiates the pyrotechnic composition of the torch.

The use of a moderator in the design of signal ammunition to initiate the pyrotechnic composition of the torch, especially with small dimensions of the ammunition, has a number of significant disadvantages:

- significantly complicates the design of the signal device and the ammunition as a whole;

- decreases the reliability of the signal device of ammunition due to the presence in the ignition circuit of an additional transmission link;

- delays in signal delivery are possible, since pyrotechnic moderators have a significant time spread;

- it is impossible to change the depth of ejection of the signal device, which is unacceptable for signal munitions fired from grenade launcher systems at different elevation angles (the depth of separation of the munition substantially depends on the angle of its splashdown).

Signal ammunition is known (US Pat. No. 3,331,656 dated 12/07/1965, Pat. France No. 2075988 dated 01/06/1971), in which an ignition charge is used to separate the munition shell in the form of a sample of smoke powder, and the separation of the body is carried out using a cylinder, axially cut into several parts.

However, such a design without the use of delaying devices has low reliability indicators, since when the ammunition is separated in water at the time of the ejection of the signal device, a vacuum is created inside the body and water is sucked in, which comes at a high speed and prevents the ignition of the pyrotechnic composition of the torch.

Known signal ammunition, which contains a sealed enclosure in the form of a shell and a bottom, explosive explosive in a cup, a lid with an initiator (fuse), a floating type alarm device installed in a housing on a sliding landing and pushed in by the lid in the axial direction (French patent No. 2185196 dated 01.02. 1974 - prototype).

The disadvantages of this technical solution include:

- there is the possibility of damage to the signal device at the time of separation of the shell of the ammunition;

- it is possible for material of the body of the signal device to adhere to the body of the munition and to the cup during long-term storage, especially under the influence of vibration and shock loads;

- the possibility of attenuation of the pyrotechnic composition of the torch at the time of the ejection of the signal device from the munition housing is not ruled out;

- the lack of technical solutions for the design of the docking assembly of the shell and the bottom of the body, which can have a significant impact on the dispersion of the forces of separation of the body, and therefore the reliability of the signal device.

The task of the invention is to increase the reliability of the marine signal ammunition.

The technical result consists in increasing the reliability: separation of the shell of the ammunition and the ejection of a signal device from it without violating the integrity of its body, igniting the pyrotechnic composition of the torch and its extinction when the signal device emerges on the water surface.

The technical result is achieved in that the marine signal munition contains a body in the form of a cylindrical-conical shell and a bottom with an internal cavity, a fuse, a cup with an ignition-charge charge and a signal device with a cylindrical-conical body, while the shell and the bottom are movably connected, and the cup the diameter of which is less than the diameter of the cylindrical bottom surface at the junction with the shell, is made with an annular groove on the outer cylindrical surface, and between the signaling device and the end of the bottom cavity Conical spring is arranged, and on the inner surface of the shell at the place of its junction with the bottom of the undercut formed.

The movable connection of the shell and the bottom allows you to provide almost "clean" shift of the shell relative to the bottom, thereby significantly reducing the dispersion of the separation forces, which ultimately increases the reliability of separation of the munition shell.

Placing a conical spring between the signaling device and the end of the bottom cavity improves the reliability of ejection of the signaling device from the bottom cavity by eliminating the possibility of jamming it, especially when the ammunition body is separated in a position close to vertical, when the bottom has the ability to cover the signaling device and carry it along in depth. At the same time, the implementation of a conical shape spring allows to minimize the volume occupied by it.

The implementation of the annular grooves on the outer cylindrical surface of the cup, the diameter of which is smaller than the diameter of the cylindrical bottom surface at the junction with the shell, allows after separation of the munition housing to ensure the delay of the cup in the conical part of the shell, thereby preventing the cup from hitting the signal device, and therefore, eliminate the possibility of attenuation pyrotechnic composition of the torch, which increases the reliability of the signal ammunition. The meaning of the delay of the cup is as follows: when the cup moves in the conical part of the shell, the small diameter of the cone of which is smaller than the outer diameter of the cup, the latter loses its kinetic energy, expanding the conical part of the shell. When the end face of the shell will be above the groove in the cup, then, due to residual deformation, the shell will tend to its original state, which will allow it to hold (clamp) the cup in the conical part of the shell and at the same time provide “bleed” of gases from the shell shell through the formed gap. At the same time, the annular groove on the outer cylindrical surface of the cup performs the function of an obturating groove, reducing the breakthrough of gases to the body of the signal device and preventing its destruction, thereby increasing the reliability of the munition.

Performing an undercut on the inner surface of the shell at the junction with the bottom makes it possible to increase the reliability of ignition of the pyrotechnic composition of the torch and not to damp it when the signal device emerges onto the water surface due to the exception:

- the formation of microcracks in the shell when it is movably connected to the bottom (the connection does not require preliminary loading of the shell in the axial direction);

- impact on the signaling device with both the cup and the shell after holding the cup (when the cup moves along the inner surface of the shell and reaches undercut, a significant part of the explosive gases is “etched”, the cup loses part of the kinetic energy, which contributes to the delay of the cup in the conical part of the shell )

In the marine signal munition, the ratio of the diameter of the cup to the inner diameter of the conical part of the shell can be 1.04-1.06.

With a decrease in this ratio due to an increase in the inner small diameter of the conical part of the shell, cases of rotation of the cup in its conical part are possible, which can lead to blows to the signal device and attenuation of the pyrotechnic composition of the torch. A decrease in this ratio by reducing the outer diameter of the cup can lead to an increase in the passage of gases to the signal device and its destruction.

An increase in this ratio can lead to the creation of rarefaction inside the shell at the time of pushing the signal device out of it and the suction of water at a high speed, which prevents the ignition of the pyrotechnic composition of the torch.

In a marine signal munition, the ratio of the difference between the depth of the bottom cavity and the height of the conical spring before being pushed to the height of the conical part of the body of the signal device can be 0.25-0.55.

A decrease in this ratio can lead either to jamming of the signal device in the bottom cavity, or to a decrease in its buoyancy.

An increase in this ratio can reduce the reliability of the ejection of the signal device from the cavity of the bottom of the munition shell.

In a marine signal munition, the ratio of the length of the undercut of the shell to the height of the cup can be 1.27-1.36.

A decrease in this ratio can lead to the impact of the cup on the body of the signal device, leading to the attenuation of the pyrotechnic composition of the torch.

An increase in this ratio can lead to the absence of an ejection of a signal device from the ammunition body due to the possibility of premature jamming of the cup in the conical part of the shell.

In a marine signal munition, the ratio of the depth of undercut to the thickness of the shell may be 0.04-0.25.

A decrease in this ratio while maintaining the overall mass characteristics of the munition can lead to a decrease in the reliability of separation of the munition shell by increasing the dispersion of forces during separation of the shell.

An increase in this ratio can lead to jamming of the signal device by the conical part of the shell.

Figure 1 shows a General view of the marine signal ammunition.

Figure 2 shows the shell with undercut.

Marine signal ammunition consists of a fuse 1, a housing including a shell 2 and a bottom 3, an ignition-releasing charge 4 placed in a cup 5, a signal device 6, including a torch 7, a conical spring 8, dividing inserts 9. The shell 2 is made with an undercut 10 .

The work of the marine signal ammunition is as follows.

When the ammunition is brought down from the detonating charge of the fuse, the ignition-blast charge 4 is ignited, and the pyrotechnic composition of the torch 7 of the signal device 6 is ignited by the combustion products of the explosive explosives. After increasing the pressure inside the cup 5 to a certain value, the ammunition body is divided. The cup 5, when moving along the inner surface of the shell 2, pushes the signal device 6 with the bottom 3, when the cup passes over the undercut of the shell, the gas is “pitted” to a certain size, and then the cup, thanks to the annular groove on the outer cylindrical surface, is delayed without a sharp impact by the conical part shell. The conical spring 8 pushes the signal device 6 from the cavity of the bottom 3, which floats to the surface of the water and gives a light-smoke signal.

The implementation of the proposed technical solutions in the design of the marine signal ammunition, confirmed by the results of tests in the water area, allows to increase the reliability of its action by ensuring the reliable ejection of the signal device from the ammunition body and the flame retardant pyrotechnic composition not extinguishing both at the moment of separation of the case and at the time the signal device emerges to the water surface.

Claims (5)

1. Marine signal ammunition containing a housing in the form of a cylindrical conical shell and a bottom with an internal cavity, a fuse, a cup with an ignition-releasing charge and a signal device with a cylindrical conical body, characterized in that the shell and the bottom are movably connected, and the cup is made with a diameter smaller than the diameter a cylindrical bottom surface at the junction with the shell and provided with an annular groove on the outer cylindrical surface, while between the signal device and the end of the bottom cavity there is a conical spring, and on the inner surface of the shell at the place of its junction with the bottom of the undercut formed. 2. Ammunition according to claim 1, characterized in that the ratio of the diameter of the cup to the inner diameter of the conical part of the shell is 1.04 ... 1.06. 3. The ammunition according to claim 1 or 2, characterized in that the ratio of the difference between the depth of the bottom cavity and the height of the spring to preload to the height of the conical part of the body of the signal device is 0.25 ... 0.55. 4. Ammunition according to claim 1 or 2, characterized in that the ratio of the length of the undercut of the shell to the height of the cup is 1.27 ... 1.36, and the ratio of the depth of the undercut to the thickness of the shell at the junction with the bottom is 0.04 ... 0.25 . 5. The ammunition according to claim 3, characterized in that the ratio of the length of the undercut of the shell to the height of the cup is 1.27 ... 1.36, and the ratio of the depth of the undercut to the thickness of the shell at the junction with the bottom is 0.04 ... 0.25.

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