DE248419C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention relates to rocket projectiles with stabilization gyroscopes of the known type which one of the masses forming the top before the projectile was fired Rotation is granted. To prevent the projectile from being ejected before the stabilization gyro Has been set in rotation, the projectile according to the invention with a ring made of soft material

ίο provided, in which provided on the guide groove oblique ribs, the instructions contained m can be appropriate, widens to the front, able to cut only if the blowing effect of the combustion gases has reached a certain size. As a result, there is a delay in the exit of the projectile, which is sufficient to bring the masses forming the tops to the number of revolutions required for stabilization.

In the drawing is a projectile according to the invention together with the associated firing device illustrates, namely Fig. ι shows a section according to 1-1 of Fig. 2, Fig. 2 an end view, FIG. 3 a section according to 3-3 of FIG. 2 without the projectile and FIGS. 4 and 5 Changes on a larger scale.

The firing device is essentially formed by rings a, a ¹ , a ² , one of which, for example the middle one, can be provided with pins b, b , around which the device can be pivotably mounted in a mount in order to adjust it. A certain number of guide rails protruding equally far from one another, for example three, c, c ¹ , c ^{2, are} riveted to the rings a, a ¹ , a ^2. The generatrices of the inner surfaces of these rails c, c ¹ , c ² are such that they are parallel from point to point B (Fig. 1, 3) and can accommodate a cylindrical body of a given diameter while they are between points B, C are inclined and form an inclined surface d , whereupon they have a uniform diameter from here to point D.

The floor of the projectile is provided with a stabilizing gyro that can be set in rotation by the propellant charge. It is also shod with a ring e 'made of relatively soft metal. The outer diameter of this ring is so large that the ring enters the inside of the part of the guide rails c, c ¹ , c ² which lies between points A, B , but only then in the narrowed ones, without significant friction , part formed by the inclined surfaces d occurs between the points B, C when such a strong thrust is exerted that the ring β cuts into the rails c, c ¹ , c ^2.

The propellant charge of the projectile consists of a plurality of cylinders f, g, h from pressed powders, etc., namely, the force which is capable of serving for generating the vortical motion powder cylinder f to develop is smaller than the driving force of the remaining powder cylinder. It can only do the

To bring the masses forming bilization gyroscopes to the correct number of revolutions, but not to propel the captured projectile forward. This happens only through the driving force of the remaining powder cylinders g, h, which are ignited later and which cause the projectile to work its way through the rails completely and fly off. For this purpose, the first cylinder f has preferably been given a full shape, while the second and third cylinders g, h can remain hollow. Instead of changing the combustion of the cylinder f compared to that of the cylinders g, h by the type of shaping, a powder of suitable composition could also be embedded in it.

The mode of operation is as follows: the projectile is first introduced into the firing device (Fig. 1); then it is pushed forward until its ring e rests against the beginning of the inclined surfaces d . Then, either manually or mechanically, pressure is exerted on the projectile from bottom to top until the ring e cuts a little into the rails at the location of its three points of contact with the surfaces ä. If the first cylinder f is then ignited, its gases drive the turbine and set the mass of the top in motion.

During this time the projectile remains anchored in the device. If, however, the second cylinder g burns, the propulsive force of the gases is increased in such a way that the projectile works its way completely through the rails c, c ¹ , c ² and flies off. '

The inclined surface d illustrated in FIGS. 4 and 5 differs from that illustrated in FIGS. 1 to 3 in that it does not have a uniform width; it is pointed so that entry into the ring e of the projectile is facilitated.

Claims (2)

Godfather t-an saying: ■ i. 'Rocket projectile through the propellant gases The stabilization gyro to be set in rotation, which is set before the ejection of the Projectile is set in rotation, characterized in that the projectile is provided with a ring made of soft metal is in which inclined ribs provided on the guide trough, which can be widened to the front, only then able to cut into when the propellant effect of the combustion gases has reached a certain level. 2. Projectile according to claim 1, characterized in that its propellant charge consists of several cylinders of pressed powder, the first of which is only for Generating the gyroscopic movement, but not for propelling what is being held Bullet is sufficient, while the combustion of the remaining powder cylinders one generated so great a force that the projectile tore itself free from the firing device and can take off. 1 sheet of drawings.