RU167921U1 - GAS SUSPENSION APPARATUS - Google Patents

Abstract

The projectile with a gas suspension contains a smooth cylindrical surface made in the form of a gas suspension with a device for creating pressure in the carrier gas layer, and this device is made in the form of a supply cavity in the body of the projectile, connected to the outer cylindrical surface through the orifice holes, the cavity of the throttle holes are installed inertial detonators are self-blasting capsule type, the supply cavity is filled with a substance having a high burning rate. Inertial detonators are self-blasting capsule type made of non-heat-resistant quick-burning material.

Description

The utility model relates to the field of smooth-bore firearms and can be used to create high-precision weapons systems, which are subject to stringent requirements on the wear resistance of the barrel’s inner surface, which ensures accuracy and power of the shot.

A known projectile with a gas suspension containing a smooth cylindrical part made in the form of a gas suspension with a device for creating pressure in the carrier gas layer (see US patent No. 3001609, CL 184-18, 1962).

Also known is a missile projectile with a gas suspension, comprising a smooth cylindrical part in which a feed cavity is made to create pressure in the carrier gas layer, connected to the outer cylindrical surface through feed devices, and the feed cavity is filled with a substance having a high burning rate and connected to the back the projectile through the hole in which the termite wick is placed, and on the cylindrical part of the projectile there are O-rings made of filled polymer (Patent for and acquisition No. 2285226).

A disadvantage of the known structures is the lack of gas suspension in the initial period of the projectile movement due to the insufficient rate of blasting and combustion of quick-burning substances in the feed cavity from the termite wick installed in the central part of the feed cavity, and throttle openings are located on the periphery. Also, part of the powder gases to provide a gas suspension is discharged through the hole under the termite wick in counteraction to the pore gases of the propellant charge.

The objective of the utility model is to increase the rate of detonation and combustion of quick-burning substances in the feed cavity, as well as to ensure, in the initial period of the movement of the projectile, gas suspension, with minimal loss of powder gases, increase the efficiency of the shot.

This problem is solved in that the cavity for feeding the gas suspension is filled with a substance having a high burning rate, and inertial detonators installed in throttle openings are self-propelled capsule type.

A projectile with a gas suspension consists of a striking part of a projectile 1 and a cylindrical guide part of a projectile 2, in which a feed cavity 3 of a gas suspension is formed, formed by a cylindrical guide part of a projectile 2 and a gap 4 between this part, the barrel 5, and the sealing rings 8 and 9. The feed cavity 3 is filled with a quick-burning substance and connected to the gap 4 of the gas suspension through throttle holes 6, arranged in two rows and evenly spaced around the circumference of the cylindrical guiding part of the projectile 2. Into the throttle Cylinder holes 6 installed inertial detonators self-blasting capsule type 10.

On the back of the projectile in the barrel 5 there is a propellant charge 7. The sealing ring 8 and the sealing ring 9 are installed in the rear and front of the cylindrical guide of the projectile 2, respectively, they act as a guiding and sealing device, outside the action of the throttle holes 6 and are made of filled polymer , for example, from a composite material based on fluoroplast-40 and graphite.

An inertial detonator of a self-blasting capsule type consists of a housing 11, which is screwed into the throttle hole 6, the capsule 12, the elastic element 13, the impact element 14 and the plug 15.

The use of a projectile with gas suspension is as follows. In the initial state, the projectile is placed in the barrel 5, the propellant charge 7 is located on its back side, the projectile is stationary and rigidly centered due to the sealing rings 8 and 9 located in the rear and front cylindrical guiding parts of the projectile 2, their presence leads to an almost absolute coincidence of the longitudinal the axis of the projectile and the bore.

When the propellant charge 7 is burned, high pressure of the powder gases with a high temperature is formed, under the influence of which the projectile begins to move along the barrel 5. The inertia force of the projectile moving along the barrel 5 drives the self-propelled capsule type inertial detonators 10, under the action of inertia forces the shock element 14 overcomes the resistance the elastic element 13 and undermines the capsule 12 located in the throttle holes 6, which in turn ignite the quick-burning substance located in the feed cavity 3, and burn cork plug 15.

In connection with the beginning of burning of a rapidly burning substance in the feed cavity 3, an increase in the pressure of the powder gases occurs. At the same time, with the flow of gases from the cavity 3 into the gap 4 through the chokes 6 having a certain pneumatic resistance, the pressure of the gas suspension appears in the gap 4. In this case, such properties of a gas suspension are formed, such as bearing capacity and stiffness.

The presence of the sealing ring 8 and 9 in addition to centering the projectile in the bore, creates a positive effect for a more intense increase in the pressure of the gas suspension in the cavity 4 during the combustion of a rapidly burning substance in the cavity 3, acting as sealing elements to prevent the gases formed in the cavity 3 from breaking , both in the direction of the charge 7, and in the direction of the direction of movement of the projectile, especially at the initial stage of the shot. In the future, ring 8 and ring 9, which have good antifriction properties, but, being not heat-resistant, burn out under the influence of high temperatures.

The proposed design of a projectile with a gas suspension, in comparison with the known one, allows to increase the rate of blasting and combustion of a quick-burning substance in the feed cavity, as well as to ensure the initial loss of motion of a projectile with a gas suspension, minimal loss of powder gases, and increase the efficiency of the shot.

Claims (2)

1. A projectile with a gas suspension, containing a smooth cylindrical part, in which a feed cavity is made, filled with a substance having a high burning rate to create pressure in the carrier gas layer, connected to the outer cylindrical surface through throttle openings, characterized in that in the cavity of the throttle openings self-blowing capsule-type inertial detonators are installed. 2. The projectile according to claim 1, characterized in that the inertial detonators are made of non-heat-resistant quick-burning material.

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