RU2206865C2 - Method for ensuring of group explosion proofness - Google Patents

Abstract

FIELD: storage and transportation of high explosives, applicable in places of constrained accumulation of a great amount of explosives. SUBSTANCE: the method consists in placement of high explosives in vessels separated from one another. The whole mass of high explosives designed for storage is separated into independent parts, each part is placed into a separate vessel localizing the explosion products installed on individual vehicle, the vessels are transferred to the place of joint storage and placed at a distance from one another, at least two values of supposed deformation of the vessel wall at an inner explosion. EFFECT: enhanced group explosion proofness at transportation and storage of great masses of high explosives.

Description

 The invention relates to security issues during the storage and transportation of explosives (EXPLOSIVES) and can be used in places of compulsory accumulation of a large number of explosives, for example, in the detection of terrorist acts, unauthorized transportation, at airports, on highways, on highways.

 Known ammunition storage for the application RU 94025216, 94, F 42 B 39/00, publ. 12/10/96, It is a capacity in the form of a grid with racks and floats, in which the ammunition to be stored is placed. This container with a tap is placed in a pool of water. The disadvantage of this storage is the need for preliminary preparation of the storage location, the danger of a group explosion in the event of the operation of one of the ammunition.

 There is also a method of preventing explosion according to US Pat. GB 2292997, 95 g., Publ. 03/13/96, F 42 D 5/045. The method involves the formation in the air of a curtain of liquid when undermining products containing explosives. This curtain surrounds the product and reduces environmental damage. The method can be used in the disposal of ammunition.

A known system for storage and transportation of detonators according to US Pat. US 5494152, 93 g., Publ. 02/27/96, F 42 B 39/00, adopted as a prototype. The system consists of external and internal containers. Each inner container is divided by partitions into cells in which the detonators are placed, and the body is made of corrugated material. Partitions in the inner container prevent the propagation of the detonation wave when one of the detonators is triggered. The inner container is made of a material that has a burst resistance of 13.5 kg / cm ³ . The system prevents the propagation of a detonation wave when an explosive charge is weighed up to 25 g. The disadvantage of the described system is its unsuitability for storing large explosive masses of the order of 10 kg or more and the inability to disperse products with explosives due to the integral structure.

 The technical problem to be solved is to ensure group explosion safety during storage of large masses of explosives, the ability to quickly create storage locations that do not require preliminary preparation, and are quick to replenish and reduce the mass of explosives.

 The specified technical problem can be solved by the method of placing explosives in detached containers, the entire mass of explosives intended for storage is divided into separate parts, each part is placed in a separate container localizing the explosion products mounted on an individual vehicle, they move the containers to the place of joint storage and place them at a distance from each other, at least two values of the alleged deformation of the wall of the tank with an internal explosion.

 The method is implemented as follows. If it becomes necessary to temporarily store or transport a large mass of explosive or devices containing explosives, the problem of group explosion safety, i.e. providing conditions under which an explosion of one of the devices would not entail an explosion of the others. For this, the entire mass of explosives is dispersed over individual containers, for example, reinforced concrete. Moreover, each such capacity localizes the products of a possible explosive explosion (thermal energy, shock wave, fragments) inside itself. The tank is mounted on an individual vehicle, such as a towed car platform. After being placed in the tank of the device containing the explosive, it is moved on the vehicle to the storage location. And in the same way, the remaining parts of the explosives or individual devices containing explosives are transported. On the site intended for the storage day, the containers are placed at a distance from each other, which prevents the mutual contact of the walls of adjacent containers in the event of an explosion inside, i.e. at a distance of at least two values of the alleged deformation of the walls of the tanks during an internal explosion. If there is a need to evacuate the entire mass of stored explosives or part thereof, it is possible to quickly and safely transport these containers to another place for storage or destruction.

 Thus, the task of ensuring safety for the environment and people in places of accumulation of large masses of explosives or devices containing explosives is solved. This method is simple to operate, technologically uncomplicated and economical, because it does not require expensive equipped stationary storage facilities. In addition, it allows you to quickly solve the problem in the event of emergency situations associated with explosive objects.

Claims (1)

 A method of providing group explosion safety during storage and transportation of explosives (explosives), comprising placing explosives in containers separated from each other, characterized in that the entire mass of explosives intended for storage is divided into separate parts, each part is placed in a separate container localizing the explosion products installed on an individual vehicle, move the containers to the place of joint storage and place them at a distance from each other at least two values of the expected deformation of the wall of the tank spines in an internal explosion.