RU2657528C1 - Grenade for the full bore grenade launcher - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to the reactive principle of operation full bore grenade launchers. On its surface maximum cross-section the grenade has several projections. Due to these projections, between the barrel inner surface and the grenade body at its maximum diameter the air gap is created, through which the compressed air in front of the grenade flows into the reduced pressure area between the grenade body and the jet nozzle.

EFFECT: disclosed is a grenade for the full bore grenade launcher.

1 cl, 1 dwg

Description

The invention relates to caliber grenade launchers reactive principle of action.

Known caliber and nadkaliberny grenade launchers, for example, RPG-28 "Cranberry" and RPG-7, respectively, see the Internet, Wikipedia. Known grenades for them, for example US Pat. No. RU 2367889.

A disadvantage of the known caliber grenade launcher systems (i.e., a grenade launcher + grenade) is the creation of a strong vacuum on the back of the caliber grenade, which arises due to the suction ejector action of the rocket engine jet. This force is directed opposite to the thrust and significantly reduces the useful value of the thrust of the engine. For example, for the RPG-28 Cranberry grenade launcher with a caliber of 125 mm and a rarefaction of 0.9 atmosphere, the suction force will be approximately 105 kg (1200 N).

In addition, with a sharp movement of the grenade forward, the air in front of it is compressed, especially if the barrel of the disposable grenade launcher is covered with a rubber membrane. The force of this compressed air is also directed against the engine thrust and is approximately the same value.

Total, 210 kg is subtracted from the engine thrust, which significantly reduces the initial speed of the grenade.

The objective and technical result of the invention is to reduce the suction action of the jet, to reduce the air resistance to compression in front of the grenade, and as a result to increase the initial speed of the grenade.

For this, the grenade has at its maximum midship on its surface several protrusions. Thanks to these protrusions, an air gap is created between the barrel’s inner surface and the grenade’s body at its maximum diameter, through which compressed air in front of the grenade flows into the low-pressure region between the grenade’s body and the jet nozzle.

Moreover, this gap exists both in the smooth-bore and in the rifled. In the latter case, of course, the depth of the grooves in the barrel is much less than the height of the protrusions on the grenade.

To reduce aerodynamic drag in flight, the protrusions in the longitudinal direction are streamlined.

The attached sketch shows the cross section of such a grenade. In the barrel 1 there is a grenade 2, on the surface of which there are six protrusions 3. A gap 4 is formed between the grenade and the barrel.

The grenade works like this: when the grenade is fired (launched), the air that the grenade 2 compresses in front of itself, through the gaps 4 flows over the grenade into the ejection zone of the rocket jet. The pressure difference before and after the grenade is significantly reduced, which means that the braking effect of the two forces mentioned is reduced. The initial speed of the grenade increases.

Claims (2)

1. Grenade for a caliber grenade launcher, comprising a rocket engine, characterized in that it has several protrusions on the maximum midship, and there is an air gap between the grenade body and the barrel walls through which compressed air flows before the grenade into the low-pressure region between the body grenades and a jet nozzle. 2. Grenade according to claim 1, characterized in that the protrusions in the longitudinal direction are streamlined.

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