RU2629742C1 - Method of detecting explosive and poisoning substances on objects having circuits of closed air volumes - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: method for detecting explosive and poisonous substances at objects having contours of 1 closed air volume comprising a system 2 for venting the object from the object, a bleed air conditioning system 3 connected to a ventilation system 4 provided with filters 5, an air return system 6 inside the object, of the air samples at the site by means of the sampling device 7, the sampling device 7 is installed at the inlet of the conditioning system 3 in front of the ventilation system filters, made in the form of a gas analyzer associated with the data processing unit 8, upon detection of explosives and extract gas analyzer particle that is associated with the block 8, is activated alert system of the presence of explosives and OB and crew decides.

EFFECT: increasing the efficiency of detection of explosive and poisonous substances, exclude the influence of the human factor on the results of air samples, improve the quality of sample results by installing a modern sampling device at the inlet of the air conditioning system in front of the ventilation system filters, performing it in the form of a gas analyzer associated with the processing unit data.

3 cl, 1 dwg

Description

The invention relates to the field of ensuring the safety of infrastructure and mobile vehicles of the transport complex (air, water and land) and is intended for automatic monitoring without human participation on an ongoing basis of these objects by the security services of airports, airlines, land transport enterprises and water transport enterprises for the timely detection of explosive and poisonous substances with the subsequent prevention and exclusion of terrorist acts.

A known method for detecting substances prohibited for transportation by air and when crossing the border (narcotic, poisonous, explosive, etc.), which includes transillumination of controlled objects with x-ray radiation, registration of radiation transmitted through the object in two spectral regions with different effective energies, signal extraction, proportional to radiation intensity

(See patent for the invention of the Russian Federation No. 2095795 according to class IPC G01N 23/04, application form 08.29.1995, publ. 10.11.1997 "X-ray method for detecting a substance by the value of its effective atomic number").

However, the known method has limited application: when checking luggage, hand luggage and other objects during a special inspection, it requires the use of sophisticated x-ray equipment, the service of which may be allowed to people with special skills and knowledge.

The closest in technical essence and the achieved effect to the claimed method for the detection of explosive (explosive) and toxic substances (S) in objects with circuits of closed volumes of air, and selected as a prototype is a method for detecting explosives mainly of aircraft with circuits of closed volumes of air containing a system for venting air from the facility, an air conditioning system for the exhaust air, and an air return system inside the facility, comprising sampling air at the facility with using a sampling device (See patent for invention No. 2338175 for IPC class G01N 1/22, application form 09/29/2006, publ. 04/10/2008, "Method for the detection of explosives").

In this case, trained dogs are used in the known method, and as an air sampling device, an electromagnetic radiation-free device having replaceable filters with sorbent material is used, which are capable of holding traces of odors in the process of passing air through them, adsorbing gaseous the components of the substance on the filter with a further presentation of the filter to the detection dogs.

The disadvantage of this method is that it is based on the use of dog-detectors and the work of an inspector-dog handler who, before starting air sampling, removes a replaceable filter element from an airtight case, inserts it into the cartridge of the device and switches the device into air intake mode, then the inspector the dog handler during the movement through the cockpit and salons of the vessel takes an air sample, upon returning to the starting point of the start of sampling, the inspector turns off the device, removes the replacement filter element and places puts it in a sealed case for transportation to the laboratory of the canine department. Sampling of air in the premises of the facility or the cabin of the vessel can also be carried out directly at the exit from the air conditioning or ventilation system of the salons of the vessel (premises of the facility) using an attachment. The samples are then sampled by detection dogs. An unambiguous choice by the three detection dogs of the test sample indicates the presence of explosive or poisonous vapors in it.

The objective of the invention is the creation of a method that enables the detection of explosive and toxic substances with high accuracy, without the use of human labor, allowing you to take timely safety measures.

In addition, the objective of the invention is to expand the arsenal of technical means for the detection of explosive and toxic substances in objects having the contours of closed air objects, therefore, an additional technical result consists in the implementation of this purpose.

The technical result that allows to solve this problem is to increase the detection efficiency of explosives and organic matter, to eliminate the influence of the human factor on the results of air samples, to improve the quality of the results of the samples by installing a device for sampling at the inlet of the air conditioning system in front of the filters of the ventilation system, and to execute it as a gas analyzer associated with the data processing unit.

This object is achieved in that in a method for detecting explosive and toxic substances in objects having circuits of closed air volumes containing an air exhaust system from an object, an air conditioning system for exhaust air associated with a ventilation system equipped with filters, an air return system inside the object, comprising air sampling at the facility using a sampling device, according to the invention, a sampling device is installed at the inlet of the air conditioning system in front of the filter and ventilation system is in the form of the gas analyzer and connected to the processing unit. Moreover, the device for sampling is an integral part of the facility, installed permanently, reliably and does not require attention, effort and cost from either the crew or maintenance personnel.

The data processing unit may be configured to provide an alarm.

The gas analyzer can be made in the form of a drift spectrometer.

Studies on patent and scientific and technical sources of information indicate that the proposed method for the detection of explosive and toxic substances in objects having circuits of closed air volumes is not known and does not follow explicitly from the studied prior art, i.e. meets the criteria of "novelty" and "inventive step".

The proposed method for the detection of explosive and toxic substances at objects having circuits of closed air volumes can be carried out at any enterprise specializing in this industry, because this requires well-known materials and standard equipment, widely produced by domestic and foreign industry.

Thus, the inventive method for the detection of explosive and toxic substances in objects having circuits of closed volumes of air, meets the criterion of "industrial applicability".

Installing a device for sampling at the inlet of the air conditioning system in front of the filters of the ventilation system improves the accuracy and reliability of the detection of explosive and toxic substances, as it is in this place that overpressure arises and the maximum number of explosives and OM is concentrated, and thereby the detection efficiency of explosives and OM is increased, the implementation of a sampling device in the form of a gas analyzer automates the detection of explosives and OM, eliminates human factors and improves the quality of results, and improves efficiency detection of explosives and explosives, the presence of a gas analyzer with a data processing unit further reduces the influence of the human factor, increases the reliability and efficiency of naruzheniya explosives and agents.

The implementation of the data processing unit with the possibility of an alarm allows you to timely report the results of air samples at the facility and take timely security measures.

The implementation of the gas analyzer in the form of a drift spectrometer allows for the detection of explosives and air pollutants using the most modern devices and thereby increase the accuracy of detection of explosives and airplanes.

Thus, the set of essential features of the proposed method for the detection of explosive and toxic substances in objects with circuits of closed air volumes, allows to achieve the claimed technical result, namely, increasing the detection efficiency of explosives and explosives, eliminating the influence of the human factor on the results of air samples, improving the quality of sample results by installing a device for sampling at the inlet of the air conditioning system in front of the filters of the ventilation system, performing it in the form of gas an analyzer associated with the data processing unit, and, therefore, to solve the problem posed — the creation of a method that ensures the detection of explosives and explosives with high accuracy, without the use of human labor, which allows you to take timely security measures.

The invention is illustrated in the drawing:

In FIG. 1 presents a conditional image of the installation for the implementation of the proposed method.

The following is a description of a preferred specific embodiment with reference to the accompanying drawing.

In the proposed method for the detection of explosive and toxic substances at objects having circuits 1 of closed air volumes containing an air exhaust system 2 from the object, an exhaust air conditioning system 3 associated with a ventilation system 4 equipped with filters 5, an air return system 6 inside the object, in the sampling of air at the facility using the device 7 for sampling, the device 7 for sampling is installed at the inlet of the air conditioning system 3 in front of the filters of the ventilation system, made in the form gas analyzer and is connected with block 8 data processing.

The data processing unit 8 may be configured to provide an alarm.

The gas analyzer can be made in the form of a stationary drift spectrometer.

In FIG. 1 conventionally shows one application of the claimed invention, namely for an object in the form of an aircraft, and this installation is suitable for use in any object that uses recycled (recirculated) air, for example, on a ship, in a car, in offices and hospitals, any object that has contours of closed volumes of air.

The inventive method for detecting explosives and organic matter is carried out as follows for an example of use for an aircraft, the method is based on the fact that particles of these substances are picked up by air flows circulating through the aircraft piping system and at some point enter the gas analyzer that is installed at the inlet air conditioning systems before the filters of the ventilation system, while the air conditioning system usually includes heat exchangers, turbo-refrigerators, dampers, dehumidifiers, moisten and air, filters, pipelines is called the Integrated Air Conditioning System (KSKV), and it is at the entrance of the air conditioning system in front of the filters of the ventilation system that the concentration of explosives and exhaust agents is maximum, as a result, the gas analyzer detects the presence of almost all types of explosives and exhaust agents, such as trinitrotoluene, nitroglycerin, ethylene glycol dinitrate, hexogen, octogen, pentaerythrotetranitrate, black powder and mixtures based on them, narcotic substances and other toxic and poisonous substances. Upon detection of explosive and explosive particles by a gas analyzer, which in turn is connected to the data processing unit, a warning system about the presence of explosives and explosives is activated.

If the next air sample contains explosive or OM particles, then after processing this sample, a danger signal is issued in the form of light, sound or speech information to the crew. The corresponding scoreboard lights up and the crew takes an appropriate decision in accordance with the staffing table.

As a stationary gas analyzer, a highly sensitive drift spectrometer with a non-radioactive method of ionizing an air sample is used for express detection and identification of ultrafine quantities of substances (sensitivity 10 ^-13 g / cm ³ ) - trace amounts (at ppb level) without preliminary preparation at a high analysis speed (cycle measurements - 5 seconds).

At the same time, it is assumed that all necessary equipment is an integral part of the aircraft’s design, it is developed, certified and mounted at the time of construction of the vehicle and operates normally at all stages of flight production: parking, take-off, flight, landing, emergency, and so on.

Claims (3)

1. A method for detecting explosive and toxic substances in objects having circuits of closed air volumes containing an air exhaust system from an object, an air conditioning system for exhaust air associated with a ventilation system equipped with filters, an air return system inside an object, which consists in sampling air at an object using a sampling device, characterized in that the sampling device is installed at the inlet of the air conditioning system in front of the filters of the ventilation system, made in the form of gas analyzer and connected to the processing unit. 2. The method according to p. 1, characterized in that the data processing unit is configured to signal an alarm. 3. The method according to p. 1, characterized in that the gas analyzer is made in the form of a drift spectrometer.

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