RU2204800C2 - Closed-cell explosion localizer - Google Patents

Abstract

FIELD: localization of actions of explosive mechanisms, applicable at rendering harmless of dangerously explosive objects. SUBSTANCE: explosion localizer has a closed container formed by chambers, whose interior is filled with porous material. The pores are made closed. Dispersing agent is placed in the material pores. EFFECT: enhanced efficiency of protection of people and structures against high-explosive, thermal and fragmentation effects at actuation of explosive mechanisms. 1 dwg

Description

 The present invention relates to the field of special equipment and can be used to effectively suppress the explosive, fragmentation and thermal effects of an explosion and, thereby, minimize damage from explosions resulting from terrorist attacks.

 Currently, a wide range of products intended for the localization of explosions is used in special equipment. As a rule, these are containers made of high-strength steels and alloys having one or several shells capable of withstanding a high-explosive fragmentation upon operation of explosive devices with a given explosive mass. Devices of this type can be seen today in the lobby of Moscow metro stations.

 Also known is a reservoir for an explosive with an external protective shield (see US patent 4833967, MKI F 42 B 37/00, publ. 06/30/89).

 A common drawback of these container-type devices is the need to deliver the detected item (explosive device) with subsequent loading into the container, which is associated with a risk to life. Another disadvantage is that when the charge of the bomb exceeds the margin of safety of the container, its destroyed metal structures will be additional damaging elements.

 Also known device (bomb inhibitor) according to US patent 4836079, MKI F 42 B 33/00, 06 V 21/00, publ. 06/06/89, the Inhibitor includes a closed container filled with non-combustible liquid, covering a bomb of a certain size so that the liquid is between the bomb and the surrounding open space. The container consists of a plurality of closed fluid chambers, with a first chamber forming a closed top of the inhibitor and a second chamber located below at least a portion of the periphery of the upper chamber and forming a supporting side wall of the container. Each chamber is made of sheet material connected at the edge so as to form a closed container. Inhibitors with chambers made of an elastic material (rubber) are described as examples of construction.

The disadvantages of the bomb inhibitor are:
- relatively low efficiency of protection against high-explosive and fragmentation effects as a result of uneven distribution of liquid in the inhibitor, due to the fact that the container consists of several chambers, and with the peculiarities of the form taken by the liquid-filled chamber cavities enclosed in an elastic shell, and also as a result lack of a special anti-fragmentation shell of the inhibitor
- the difficulty of completely isolating the surrounding space from explosive devices located near walls and in the corners of rooms.

 As a prototype, devoid of the disadvantages of the above analogues, the device for localizing the effects of explosive mechanisms according to the patent of the Russian Federation 2150669, MKI F 42 B 33/00, F 42 D 5/04, published on 10.06.2000, was chosen.

 The device comprises a container formed by one or many chambers, the internal volume of which is filled with porous open-cell material, in the pores of which there is a dispersant. The shell of the chambers can be made of elastic material. The porous material may be flexible. A cavity is made in the lower part of the device, the dimensions of which make it possible to place an explosive mechanism. The use of porous material as a filler allows the manufacture of devices with a constant thickness of the chambers filled with dispersant and a uniform distribution of dispersant throughout their volume, as well as various shapes depending on the possible locations of explosive mechanisms. Additionally, the device is equipped with a splinter shield.

 The disadvantage of the prototype is the low security of the device during storage and operation: in case of damage to the elastic shell of the cameras, the dispersant flows out, and the device loses its protective properties.

 The objective of the present invention is to eliminate the disadvantages of the prototype, namely: the creation of a device that provides effective protection of people and structures from explosive, shrapnel and thermal effects during the explosion of explosive mechanisms and is resistant to various kinds of mechanical damage to the camera shell during storage and operation.

 The specified technical result is achieved in that the explosion localizer contains a closed container formed by chambers, the internal volume of which is filled with porous material, in the pores of which there is a dispersant, and the pores are closed.

 The authors are not aware of technical solutions with the set of features indicated in the claims aimed at achieving the same goal as in the object claimed as an invention, therefore, the proposed technical solution meets the criterion of "significant differences".

 The invention is illustrated in the drawing, which shows a cross section of a localization of the explosion, where: 1 - handle; 2 - the shell of the container made of polyurethane; 3 - dispersant; 4 - porous material with closed pores (closed cell polyurethane foam); 5 - working cavity of the localizer; 6 - an explosive mechanism placed in a suitcase; 7 - anti-fragmentation screen made of Kevlar-type fabric.

 The explosion localizer works as follows.

 Using the handle 1, the localizer is mounted on the detected explosive mechanism 6 in such a way that the cavity 5 made in the lower part of the device allows the explosive mechanism 6 to be completely separated from the surrounding space. In the event of a fuse triggering the explosive mechanism thus covered, the explosive energy and most of the fragments are absorbed by the dispersant 3 located in the pores of the material 4, the shell 2 and the shatterproof screen 7. In case of damage to the elastic shell 2, the dispersant 3 flows only from the damaged closed pores, and the device does not loses protective properties.

 Thus, the proposed localization of the explosion provides effective protection of people and structures from high-explosive and fragmentation effects in the explosion of explosive devices.

 Based on the foregoing, the present invention in comparison with the prototype provides a positive effect and has the criterion of "positive effect".

 The use of the proposed technical solution does not require additional investment in places of use.

Claims (1)

 Explosion localizer containing a closed container formed by chambers, the internal volume of which is filled with porous material, in the pores of which there is a dispersant, characterized in that the pores are closed.