RU2006134467A - EXPLOSIVE METHOD FOR DETECTING EXPLOSIVES - Google Patents

Abstract

1. A method for the detection of explosives using service dogs-detectors for direct operational search and identification of their vapors by smell, which are forbidden for transportation of explosives and explosive objects by transport, including group contents in cages as dog-detectors of hybrids obtained by crossing native deer huskies and ordinary jackals, operating in the temperature range from +40 to -40 ° C, previously accustomed to each other by drawing together when kept in cells by reducing the space isolating them from each other for no more than a day, characterized in that it carries out the detection of explosives using aircraft, water and ground vehicles to deliver personnel, service dogs and equipment of a mobile dog laboratory to the site of the survey of objects and operational work on infrastructure and rolling stock of the transport complex in air, field and sea conditions through the use of a transport aircraft, ship and any car equipped with a Tonar-type trailer with a ball-mounted towbar for towing a functional cage installed on the trailer for keeping, running and transporting at least 5 service dogs, the cage being two-tier, equipped with a metal tray for collecting animal waste and together with the trailer load in the cargo compartments of aircraft and ships, thereby ensuring the autonomy of the entire cynological group, which performs remote analysis

Claims (6)

1. A method for the detection of explosives using service dogs-detectors for direct operational search and identification of their vapors by smell, which are forbidden for transportation of explosives and explosive objects by transport, including group contents in cages as dog-detectors of hybrids obtained by crossing native deer huskies and ordinary jackals, operating in the temperature range from +40 to -40 ° C, previously accustomed to each other by drawing together when kept in cells by reducing the space isolating them from each other for no more than a day, characterized in that it carries out the detection of explosives using aircraft, water and ground vehicles to deliver personnel, service dogs and equipment of a mobile dog laboratory to the site of the survey of objects and operational work on infrastructure and rolling stock of the transport complex in air, field and sea conditions through the use of a transport aircraft, ship and any car equipped with a Tonar-type trailer with a ball-mounted towbar for towing a functional cage installed on the trailer for keeping, running and transporting at least 5 service dogs, the cage being bunk, equipped with a metal tray for collecting animal waste and together with the trailer load in the cargo compartments of aircraft and ships, thereby ensuring the autonomy of the entire cynological group, which performs remote analysis the composition of the air in an enclosed volume of buildings, structures, vehicles, containers and containers of various purposes, by determining the presence of odorous traces of explosive substances and explosive substances, narcotic and potent chemicals in air samples that are prohibited for circulation, by sampling air and work with sorbent materials of filters that precipitate, accumulate and hold explosive vapors during the passage of air samples through them from the examined Of course, due to the fact that after air sampling, the sorbent filter material is presented to the service dog, which reacts in a certain way to the smell of explosives, through the use of a filter made of material with calibrated perforation and the calculated amount of air passed through the filter, the required concentration is reached on the vapor filter of the desired substances necessary for detection by dogs, due to the physical properties of the molecules in the air, gaseous components are adsorbed substances on the filter, by creating a low aerodynamic drag of the filter, a low-power air flow inducer is used, which determines the design convenient for air sampling, the small weight and dimensions of the device for accumulating gaseous components of explosives, for this purpose when searching for explosive objects equipped with a remote fuse, they use the device as a sampler and ensure its safe operation in an explosive gas-air environment without creating devices m of electromagnetic radiation having an autonomous power supply and filter design, which provides a quick change of the filter element made of fabric with high sorbing properties, while doing laboratory olfactory studies and analysis of samples obtained by sampling air from the objects being examined - glass jars 0.5 liter capacity, containing 1 control, 1 test, 3-10 neutral samples and presented to service dogs-detectors as research tools food in the laboratory room, made in the form of a square with sides of 6 m, in the center of which on the floor there is a circle with a diameter of 5 m, and on a circle or a straight line there are marked and digitized in the first case 12 and in the second case 5 places for the installation of the objects of study, in this case, in the variant of the mobile laboratory, a special device in the form of a wheel with a diameter of 0.7 m is used, mounted horizontally on the axis and having around the perimeter mounts for 5 glass jars with test samples, using electronic digital video reg of cross-viewing zones to document production processes, while Robin's probability of detecting explosive vapors in a test volume of air is used as reliability reliability parameters for detecting any types of explosives hidden behind cars, aircraft and other locations multiplied by the probability value of Rconc concentration on the absorbing filter of the device - a sampler of gaseous components of explosives, multiplied by the probability of reed identification by trained service dogs-hybrids, obtained by crossing native deer reindeer and ordinary jackals, namely Robn = Rkonts × Reed = 0.97 × 0.98 = 0.95 and the probability of false signal equal to 0.052. 2. The method according to claim 1, characterized in that first they work with absorbent filter materials by preliminary sampling of air, which is carried out using a sampler equipped with a filter, in rooms or near suspicious objects that may contain explosives or explosive objects, and subsequent analysis with the dog of this filter, moreover, air sampling is carried out simultaneously using one or more samplers in a large number of rooms - in all aircraft, cars lakh, ships, train cars, school premises, office buildings, while the analysis of all samples taken is usually carried out by three dogs trained to work with odorological sampling in a room located as close to the place of work, naturally, outside the affected area in the event of a possible unauthorized explosion, and at a considerable distance from this place, moreover, air sampling is carried out at any ambient temperature, ambient odors and A single filter is used for sampling a single air sample, the sampling time is from 1 to 30 minutes, and the filter retains the smell of an explosive sufficient to identify it with a dog for up to several years, provided the sample is stored in an airtight container, for example, a glass jar with a screw cap, while the expert selects the driving route for air sampling according to the most probable air flow paths: from the front door to the windows, from verti heating appliances along the wall to the ceiling and further to the ventilation openings. 3. The method according to claim 1, characterized in that the search and detection of explosives on board the aircraft is carried out for 20-30 minutes while the pre-flight inspection of the aircraft to detect explosives and explosive objects, especially the most time-consuming, receiving a specific threat, by traditional methods is at least 12-16 man-hours, depending on the type of vessel or other facility. 4. The method according to claim 1, characterized in that the basic odors of aircraft of various types are used, they are sampled in a series of neutral filters having the basic smell of the inspected aircraft as a control, and the fleet of Aeroflot aircraft is divided into three groups depending on the country aircraft manufacturer: domestic (Tu-154, 134; Il-96, 86), European (A-319, 320, 321), American (B-767, 777; DC-10), which allows you to take into account the characteristics of the materials used in aircraft manufacturing in different countries and, accordingly, differences in basic odors in the internal volumes of the aircraft, and the formation of a bank of aircraft odors is done by creating a single, unified smell of each of the groups of aircraft by accumulating the characteristic odors of each of the aircraft of the group by pumping air through the air filter in the cabin, and filters with smell samples of all aircraft of this group are placed into one glass container, where, due to mutual diffusion, the base odor is formed for this group, while at the same time three sets of odor banks are formed, one n is the reference of them, the other two are designed for daily use, and the bank odors and filters are stored in a sealed glass vessel at negative temperatures in the freezer. 5. The method according to claim 1, characterized in that the air sampling from the aircraft is carried out by an inspector who enters the cockpit with the device, inserts a replaceable filter element into the cartridge and turns on the power of the electric pump, then with the device turned on it follows the cabin into the tail part of the aircraft and returns to the starting point, while the filter cartridge mounted in front of the sampler is in the hand of the inspector, who when moving on an airplane, periodically raises the cartridge to the level of the open upper of the dry shelves and lowers it to the seat level of the passenger seats, which makes it possible to examine all layers of the passenger compartment air and upon arrival at the starting point, the inspector turns off the electric pump, removes the filter element, places it in a sealed case for transportation to the laboratory, and the sampling process does not take more than 5-10 minutes 6. The method according to claim 1, characterized in that the sampling of air from objects of research can be carried out by any employee who does not have special dog training, and the design of the sampler having a telescopic rod allows you to work on objects of different sizes and configurations.