BG62148B1 - Revolving shell stabilizer - Google Patents

Abstract

The stabilizer can be used for correcting the trajectory ofthe flight in firing of military and dummy revolving shells firedby ground gun mounts. It has simplified design and facility forcorrecting the whole trajectory of the fired shell, increasing itspower. The stabilizer is made in the form of a flange-like bodywith an axial hole (1) which is made of a front disk (2) engaged,by its projecting part (21), to a rear disk (3), and a dividingring (4) being fitted between them. There are small cylindricalholes (22) on the front fore disk (2) fitted along a concentriccircumference along its periphery.

Description

Field of application

The invention relates to a stabilizer for a rotary projectile, which finds application to correct the trajectory of the firing of combat training rounds with rotary motion fired from ground artillery systems.

BACKGROUND OF THE INVENTION

A ballistic nozzle is known for a non-rotating armor-piercing sub-caliber projectile, which has a monolithic construction with a flanged cone-shaped body, which has perforated cylindrical openings or grooves arranged circumferentially on its periphery. It is mounted on the front of the projectile and is secured to it by a locking screw or by gluing. The linear and diametrical dimensions of the ballistic nozzle shall be selected in accordance with the desired characteristic for reducing the range of the projectile during its conversion from combat to training type / 1 /.

The disadvantages of the ballistic nozzle are that it only reduces the range of the projectile in flight in the absence of stabilization, has a complicated shape of the structure, and causes the projectile to fall at a small angle, which reduces its striking ability.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a rotary projectile stabilizer that has a simplified construction, to improve the accuracy of projectile hit, and to increase its striking ability.

According to the invention, this problem is solved by means of a stabilizer for a rotating projectile, consisting of a flange body with an axial orifice, cylindrical orifices being concentrically formed at the periphery thereof. The flange body is composed of a front disk. gripped by a convex part to the rear disk. between which is a separating ring. The cylindrical openings are formed only in the front disc.

The advantages of a rotary projectile stabilizer are that it reduces projectile spacing in distance and direction, reduces some of the systematic firing errors, improves combat effectiveness from fragmentation and high-explosive action due to increasing the angle of incidence when landing a projectile, and increases firing distance at projectile angles greater than 45 ° to 70 °.

Description of the figures

The invention is explained in more detail by way of an exemplary embodiment of a rotary projectile stabilizer, not illustrated in the figures, of which:

Figure 1 shows a cross-section of the stabilizer;

Figure 2 is a front view of the stabilizer from the front disk; and Figure 3 is a partial cross-sectional view of the stabilizer mounted on the front of a rotating projectile.

Exemplary embodiment

As shown in Figure 1, the rotary projectile stabilizer is designed as a flange body with an axial orifice 1 composed of front 2 and rear 3 disks, which are secured to each other by means of a separation ring 4.

The implementation and mounting of the stabilizer to an artillery projectile is as follows.

The front disc 2 is sized in accordance with the structural and ballistic characteristics of the artillery projectile 5 for which the stabilizer according to FIG. 3. The walls of the axial opening 1 are profiled on the face 51 of the projectile 5, with the front of the front disk 2 being angled at the axis of the projectile 5. The rear disk 3 is threaded to the front disk 2, and between them a separating ring is fitted 4. The cylindrical openings 22 according to FIG. 2 are concentrically formed along the periphery of the front disk 2.

As shown in FIG. 3, the stabilizer is mounted on the front of the artillery projectile 5, centered on its forehead 51. The attachment is accomplished by attaching the fuse 53 to the body of the artillery projectile 5 with a suitable tool wrench not shown in the figures.

The stabilizer is stored independently from ammunition such as artillery shells, and mounting on them is carried out immediately at the firing position before firing with artillery shells.

The structure of the stabilizer according to the invention results in a faster reduction of the deviation of the axis of the artillery projectile relative to the tangent line to its flight path.

The cylindrical openings 22 on the stabilizer front disc 22 and the distance between the front 2 and rear 3 discs increase the total resistance caused by the air and distributed unevenly over the surface of the front disc 2, resulting in the stabilization of the artillery projectile flight 5. deviation of the axis of the artillery projectile 5 in flight the center of resistance is displaced in the area of direct flow by a powerful air wave. In this situation, the structure of the stabilizer creates conditions for the formation of a pair of forces opposite to the overturning that seeks to return the axis of the artillery projectile 5 to its direction of motion in flight conditions. Thus, the stabilizer reduces the first maximum deviation of an artillery projectile 5 in flight to its minimum oscillation value close to zero.

In addition, the stabilizer influences the effectiveness of firing through the characteristics transmitted to the artillery projectile 5 to its effect in the target, as the flight path changes as the angle of incidence increases and its final velocity is reduced, resulting in a significant increase in its firing rate. striking ability. In this way the unfavorable conditions of firing with rotating artillery shells are successfully overcome.

In another embodiment, the stabilizer can technologically be constructed as a single solid body.

Claims (1)

Rotary projectile stabilizer consisting of a flange body with an axial orifice, at the periphery of which cylindrical openings are concentrically formed, characterized in that the flange body is made up of a front disk / 2 / gripped by a convex part to the rear disk / 3 /, between which is a separation ring / 4 /, and the cylindrical openings / 22 / are formed only in the front disk / 2 /.