DE677849C - Bulletproof pressurized gas container - Google Patents

Description

Bullet-proof pressurized gas container The invention relates to a bullet-proof pressurized gas container, which is divided into chambers by partition walls, which are connected to one another through openings. In a known container of this type, the aim is to prevent the entire contents from suddenly flowing out at one point if the container bursts. The container is therefore divided divisions over its entire length by using üffnungen provided septa or by constriction-Iirungen with very small passages in the absence. When filled pressurized gas containers are fired at, it often happens that they burst explosively. This phenomenon is probably due to the fact that. vibrations are generated by the mechanical energy of the projectile in the compressed gas and in the container wall, which lead to extensive destruction of the container when there is resonance between the energy of the projectile, the vibrations of the gas and those of the container material.

According to the invention, this disadvantage is avoided in that the gas space of the container is divided into chambers of different sizes. For this purpose you can the partitions through perforated pipes inserted in the container or through random arranged small pieces of pipe are formed. This ensures that the Natural vibrations of the contents of the different chambers are different. Consequently the bottle does not burst when bombarded. The pressure waves that occur during bombardment are created by dividing the interior of the container into chambers of different sizes destroyed so that. there are no standing waves that could cause the container to burst being able to lead.

When attempting to shoot at bottles that were filled with i5o at, burst pressures of about 48o at were measured. Since it is theoretically impossible that this increase in pressure is caused, for example, by heating the contents of the container it must have been generated by standing vibrations.

Furthermore. has the new pressurized gas container compared to the known container nor the advantage that it can be made easily, because it is easier to create transverse walls in a container e.g. B. to be arranged by spacer rings or spot welds, as constrictions, one-sided constrictions on the smooth To attach wall. In addition, the wall thickness must be used for the production of constrictions be chosen from the outset so strong that one is sufficient for the constriction Material quantity is available. That is why the known container has to have thicker walls than they would be necessary for the pressure in question. The new In contrast, the wall thickness of the container can be adapted to this pressure, so it is also cheaper to build.

On the drawing are some embodiments of the new pressurized gas container shown.

Fig. I shows partitions i to 4 that are firmly seated in the container. They divide the gas mass of the container into unequal sized, interconnected chambers 5 to g.

According to Fig. - the partition walls are formed by perforated tubes a, b , which are loosely stored in the container. Fig. 4- shows a container with clamped pipes. Instead of the pipes, you can also fill so-called Raschig rings into the container, as Fig. 3 shows.

Claims (2)

PATRNTANS PR UCHE - i. Bulletproof pressurized gas container which is divided by partition walls into chambers which are connected to one another through openings, characterized in that the chambers are of different sizes. 2. Pressurized gas container according to claim i, characterized in that the partitions are formed by perforated tubes introduced into the container. 3. Compressed gas container according to claim i, characterized in that the partitions are formed by randomly arranged small pieces of pipe.