RU40488U1 - DEVICE FOR DETECTION OF TRACE NUMBERS OF EXPLOSIVES - Google Patents

Abstract

1. Device for detecting and identifying trace amounts of explosives, consisting of a container with a detector located inside and an auxiliary device, characterized in that the container is made of plastic the size to carry it to your pocket, bottles with indicators are used as the detector, and the function of the auxiliary device performs test paper. 2. The device according to claim 1, characterized in that the container is made in the form of a flat plastic box measuring 100 × 105 × 20 mm and weighing up to 200 g. The device according to claim 1, characterized in that solutions of alkali (bottle A), sulfonic acid (bottle B) and amine (bottle C) are used as indicators. The device according to claim 1, characterized in that porous (filter) paper is used as test paper.

Description

The utility model relates to devices for detecting and identifying trace amounts of substances and is intended for the rapid and effective detection of explosives (EXPLOSIVES) during screening activities everywhere (in transport, at airports, at border and customs points), where reliable express verification of suspicious the presence of explosives: bags, suitcases, clothes, hands of suspicious persons, debris, etc. The device is an effective means of combating terrorist activities and eliminating the paths of illegal traffic in explosives.

Highly efficient equipment is widely used for the detection of explosives in world practice: chromato-mass spectrometers, chromato-IR Fourier spectrometers, as well as thin-layer, gas-based multicapillary columns, liquid chromatography, etc. in combination with sampling and sample preparation tools (V.V. .Ovchinnikov “Federal State Unitary Enterprise“ Rosoboronexport ”in providing means of counter-terrorism” // J. “Issues of defense technology”, series 16, issue 1-2, pp. 6-14. 2003; N.A. Ivanov, A.V. Kuznetsov, A. A. Rimsky-Korsakov. “Methods for the detection of explosives” // J. “Vopro s defense technology ", series 16, issue 1-2, pp. 6-14, 2003; Substance Detection, Systems // SPIE Proceedings. V.2092, 1993. Editors: G. Harding, Philips GmbH" Hamburg, Federal Republic of Germany; RCLanza, Massachusets Institute of Technology, Cambrilge, MA., USA; LIMyter, Auburn Univ, Auburn, AL, USA.) However, all these options for the detection of explosives require expensive, bulky equipment, qualified specialists, and analysis carried out in stationary laboratory conditions and for a long time, because includes additional stages of sampling, concentration and preparation of samples for analysis. In addition to stationary devices, devices for detecting explosives in "field conditions" have recently begun to be created. These devices are different in their complexity,

size, cost, performance and capabilities. Domestic developments include explosive vapor detectors, such as Edelweiss, Echo, Shelf, and other devices (V.M.Gruznov, N.A. Ivanov, and Yu.I. Olshansky, “Prospects for the Development of Domestic Gas Analytical and nuclear-physical installations for detecting explosives. // “Actual problems of protection and security.” Proceedings of the 4th All-Russian Scientific and Practical Conference (April 3-6, 2001). S. - Pb., 2001, pp. 79-81; .Gruznov, I. Baldin, I. Buryakov, V. Filonenko “High-speed portable gas analyzers for explosive detection.” Materials of the seminar “Track detection and VV vapors with the aim of the fight against terrorism. "M., March 19-20, 2003). They are based on the technically sophisticated chromatographic method for analyzing a vapor-air sample. The general principle of operation is to take an air sample, accumulate explosives at the concentrator, vapor desorption, chromatography, register signals, identify and signal the presence or absence of explosives in the sample.

As a prototype of the proposed device for detecting explosives, we adopted one of the models of the indicated series of domestic devices - the portable detector M01, designed to detect explosive vapor in urban streets, industrial, administrative and residential buildings, developed by the Institute of Applied Physics, Novosibirsk (advertising brochure "Portable detector BB M01").

The M01 device is a container (attache case type case) measuring 490 × 380 × 120 mm, weighing about 7 kg, with a gas chromatographic detector placed inside it, an autonomous power source, and auxiliary devices (TNT vapor concentration sensors, analyzing head, etc.) The device allows you to detect only TNT and nitroglycerin.

The disadvantages of this device include its rather large size and weight, the mandatory presence of an autonomous power source (rechargeable batteries), the need for highly qualified staff, the limited detection capability - only explosives with high vapor pressure (TNT, nitroglycerin). Such widely known and used explosives as hexogen, octogen, ten, tetryl cannot be detected by this device.

The objective of the proposed technical solution is to develop a compact, convenient, easy to use (not requiring special training of personnel) device for express detection of trace amounts of a wide range of explosives.

The technical result is achieved by the fact that the device shown in the photograph is a compact plastic container of small size (approximately 100 × 105 × 20 mm) and weighing up to 200 g, allowing it to be transported to

pocket. Three bottles with indicator solutions located inside the container are used as an explosive detector, and a set of test paper to wipe the surface of suspicious objects as an auxiliary device.

The proposed device allows you to quickly (less than 1 min), simple, convenient and affordable in the "field" to detect trace amounts of explosives, including TNT, tetryl, hexogen, HMX, ten, nitroglycerin and explosive mixtures based on them.

The detection limits for explosives are as follows: TNT -1 × 10 ^-8 g, tetryl, RDX, HMX -1 × 10 ^-6 g, ten and nitroglycerin -1 × 10 ^-5 g.

The device does not require the availability of power sources and highly qualified user.

The detection of explosives is carried out as follows: a strip of test paper is conducted along the surface of a suspicious object. Then, 1-2 drops of the indicator from the first bottle (indicator A) containing an alkali solution are applied to this paper. The appearance of red-violet staining indicates the presence of TNT; orange color indicates the presence of tetrile. In the absence of staining, 1-2 drops of indicators from the second and third bottles (indicators B and C) are successively applied to this place, which are, respectively, solutions of sulfonic acid and amine in phosphoric acid. In this case, the appearance of pink staining on paper indicates the presence of RDX, HMX, PETN or nitroglycerin. If the color does not appear in this case as well, this indicates the absence of explosive particles on the surface of the object being examined.

The proposed device has successfully passed tests for efficiency conducted by the traffic police of the Ministry of Internal Affairs of the Russian Federation in the Moscow and Rostov regions, as well as laboratory test sites and control tests in the search and rescue services of the Voronezh region and in the Expert Forensic Center of the Russian Ministry of Internal Affairs.

Claims (4)

1. Device for detecting and identifying trace amounts of explosives, consisting of a container with a detector located inside and an auxiliary device, characterized in that the container is made of plastic the size to carry it to your pocket, bottles with indicators are used as the detector, and the function of the auxiliary device performs test paper. 2. The device according to claim 1, characterized in that the container is made in the form of a flat plastic box measuring 100 × 105 × 20 mm and weighing up to 200 g. 3. The device according to claim 1, characterized in that as indicators are used solutions of alkali (bottle A), sulfonic acid (bottle B) and amine (bottle C). 4. The device according to claim 1, characterized in that the test paper uses porous (filter) paper.