EP1484574A1 - Safety bomb container - Google Patents

Abstract

The protective container (1) has an inner closing flap (3) in front of its aperture. A preliminary chamber (9) with a flange is fitted to the container aperture from the outside. This has an outward-opening closing flap with a sealing surface. An annular seal is fitted between the flange of the preliminary chamber and the sealing surface of the flap, which contains a gas lock valve.

Description

The invention relates to a bomb protection container for receiving, Storage, transportation and detonation from bombs and other explosive Explosive devices with high reusability. Bombing threatens our modern world and often public buildings, banks, airports, Military facilities, embassies affected by such threats and make the immediate use of bomb protection containers is required, as a Defusing on site is becoming increasingly difficult ..

Known bomb protection containers are spherical and exist made of a special alloy that is tough-elastic and with low weight guarantee high strength at the same time. In the case of a large, unpredictable Overload in the event of a detonation there is no splintering effect from the container or Fragments that are hurled through the air as so-called secondary bombs. If the container cannot withstand an oversized pressure wave, it disintegrates in two parts at most. Pressure relief valves also act on a shock wave opposite. When closing, the cover is against a flange from the inside pressed. The cover can be used even with a large overload or pressure wave never open up. The cover is operated with an electric motor winch that pulls the lid from the inside in front of the opening. In the event of a malfunction, a hand crank is also provided. The lid points like this also no hinges that could be deformed in the event of a detonation. The use of hydraulics on the bomb protection container is also prohibited. Of the lid is fixed on the outside with a central stem and towards the flange arrested

To ensure. that the opening of the container is always unobstructed is possible, there is no in the inner container for the central bomb storage metallic material used, which deform or after a Explosion inside the container creates a dangerous additional fragmentation could trigger, which then damaged the container from the inside and the wall thickness limits. For this reason, the loading basket in the known Bomb protection containers to hold the bomb made of wood and / or textile In the event of an explosion burns without creating a hazard. This is one unrestricted opening possible after a detonation, which is the case with a Metal construction is not achieved.

However, the known bomb protection container has the disadvantage that it does not is gastight and not radiation-proof. After the blast of an explosion that presses the cover against the opening, a counter-direction follows Pressure wave that slightly lifts the lid off the container opening. While the explosive force is effectively eliminated, gases and radiation can to escape a detonation. As also expected with contaminated explosives these explosive devices must be safely removed and destroyed.

The invention is therefore based on the object Bomb protection container to develop so that even contaminated explosive devices can be safely removed and destroyed and that the container is gastight and radiation-proof can be closed, another task is that can be checked before opening the container, whether after a Explosion contaminated material with chemical, biological or nuclear Components located in the container.

The object of the invention is achieved in that the Bomb protection container in addition to the inner cover with a additional pre-chamber is equipped, which is from the outside at the container opening is attached and can be closed with an outer flap. A ring seal is inserted between the flap and the prechamber flange, which therefore makes the antechamber hermetic, i.e. gas-tight and radiation-resistant, seal off. The closure flap can be pivoted on the container via a hinge attached, for this purpose by means of several evenly distributed screws on the outside Edge of the prechamber fastened and secured with a torque wrench. The Wall thickness of the antechamber and the outer flap corresponds to Wall thickness of the bomb container and ensures high radiation resistance for radiation-emitting USBV (unconventional explosives).

On the flap or on the antechamber of the bomb protection container a valve-gas lock is also arranged, the content of which after Detonation in the bomb container is checked away from the site. About the For this purpose, valve-gas locks can be dispensed in the smallest quantities. is If the control is positive, the entire contents of the mobile bomb container will be in one stationary large containers implemented, emptied and destroyed there. The Bomb protection container can be detoxified there and represents another Use available.

There is a special tandem trailer for transporting the bomb protection container has been developed that has a low weight, so that The total weight with the attached bomb protection container remains limited. The The trailer is biaxial and distributes it very evenly Soil pollution. and thus meets the requirements to enter the building To be able to drive in a source of danger. The drawbar is adjustable in height and the clutch can be replaced. This allows the trailer to be used in a wide variety of ways Towing vehicles are adjusted and it is ensured that the permissible vertical load on the Clutch is not exceeded.

Fig. 1

eine Vorderansicht des Bombenschutzbehälters mit geöffneten Verschlussdeckel und Verschlussklappe,

Fig. 2

eine Vorderansicht des Bombenschutzbehälters mit geschlossener Behälteröffnung und geöffneter Verschlussklappe,

Fig. 3

eine Vorderansicht des geschlossenen Bombenschutzbehälters mit Ventil-Gas-Schleuse;

Fig. 4

eine Seitenansicht des Bombenschutzbehälters im Schnitt.

The idea on which the invention is based is explained in the following description using an exemplary embodiment which is illustrated in more detail in the drawing.
It shows:

Fig. 1

a front view of the bomb protection container with the lid and flap open,

Fig. 2

a front view of the bomb protection container with the container opening closed and the opening flap open,

Fig. 3

a front view of the closed bomb protection container with valve-gas lock;

Fig. 4

a side view of the bomb protection container in section.

The illustration in Fig. 1 shows the bomb protection container 1 from with an open protective container housing 2. Both the protective container housing 2 internal cover 3, as well as the one arranged from the outside The flap 10 are open. The inner cover 3 is brought into the closed position by means of a winch 5 by a pull rope 5.1 on the outer side of the cover 3 is hung and from the inside in front of the Opening 6 of the bomb protection container 1 is pulled. In this position the Sealing lid 3 with a central star 7 - FIG. 2 - firmly with the container 1 in screwed in a known manner. Then the pull rope 5.1 is unhooked again.

The outer closure flap 10 is pivotable on via a hinge 12 a flanged antechamber 9 of the container 1 is arranged and has a Sealing surface. The end face of the prechamber 9 is also a sealing face 15 executed, in which a groove 11.1 for an annular seal 11 is additionally formed. The ring seal 11 can be a lead tape, for example.

In Fig. 3 is the bomb protection container 1 with the closure flap closed 10 shown. The closure takes place over the evenly distributed on the edge arranged bolts 14, the torque wrench evenly are attracted. On the flap 10 or on the flange of the Pre-chamber 9, a valve-gas lock 13 is used, with which doses of samples can be removed from the container 1 or from the prechamber 9 before the Container 1 is opened. For this purpose, the valve-gas lock 13 has two or more Valves and a connection for sampling.

4 is a side view of the bomb protection container 1 in Longitudinal section shown. The inner cover 3, as well as the outer The closure flap 10 on the prechamber 9 are in the closed position.

Reference numerals:

1

Bomb protective container

2

Protective container housing

3

Sealing lid, inside

4.1

pressure valve

4.2

pressure valve

5

Motor winch

5.1

rope

6

opening

7

central star

8th

charging basket

9

antechamber

10

flap

11

ring seal

11.1

groove

12

hinge

13

Valve gas lock

14

bolts

15

sealing surface

Claims (4)

Bomb protection container for receiving, storing, transporting and detonating bombs and other explosive devices with contaminated explosives with chemical, biological or nuclear components with an inner cover in front of the container opening, characterized in that a prechamber (9 ) is arranged with a flange, which has an outwardly opening closure flap (10) with a sealing surface, that an exchangeable ring seal (11) is inserted between the flange of the prechamber (9) and the sealing surface of the closure flap (10), and on the closure flap (10) or one or more valve-gas locks (13) are arranged on the protective container housing (2). Bomb protection container according to claim 1, characterized in that the closure flap (10) is fastened to the prechamber (9) by means of a hinge (12) and is closed by means of screw bolts (14) which are evenly distributed on the outer edge. Bomb protection container according to claims 1 and 2, characterized in that a groove (11.1) for receiving an annular seal (11) is formed in the sealing surface (15) on the flange of the prechamber (9). Bomb protection container according to claim 1 to 3, characterized in that connections for sampling are arranged on the valve-gas lock (13).

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