RU2210115C2 - Method and system for protecting guarded area against unauthorized invasion - Google Patents

Abstract

FIELD: anti-theft systems. SUBSTANCE: system designed for detecting point and moment of invasion has device that functions to set up electricity conducting area around invader and generation of high-voltage pulses in aerosol electricity conducting area according to definite algorithm including distance to invader and degree of shock required to stop invasion. System is provided with device for keeping working material designed for building up electricity conducting area which is made in the form of compressed briquettes. EFFECT: enhanced effectiveness of hitting the invader. 7 cl, 3 dwg

Description

 The invention to a method and device relates to techniques for protecting a protected area from unauthorized intruders and can be used in warehouses with nuclear materials, in banks, precious metals and jewelry stores, offices of commercial firms and other protected areas.

 A device is known for electric fishing, which ensures the flow of water pulses through the water, which has a shock and narcotic effect on fish (German patent 1295691, priority dated 02.22.1969, IPC Н 05 С, published on 05.22.1969). The principle of exposure of living objects to electric current using water as the medium transmitting electric current can be applied to prevent intrusion into the protected area.

 The disadvantage of this principle of exposure is that the technical problem posed by the authors in the proposed application for an invention (a high degree of reliability of the defeat of an attacker) is not solved in this case. To protect the protected area from invasion using the above principle, the construction of canals and ditches with water of a sufficiently large size will be required in order to make it difficult for the violator to overcome them. Apparently, it will be a complex and expensive system, not hidden from the intruder.

 Known paralyzing weapons designed to tame a living creature (French patent 2091598, priority from 05/14/1970, IPC H 05 C 1/00, publ. 02/18/1972). The weapon consists of a safety bullet connected to the launcher by a thin conductor. When hit by a living creature, a bullet without a wound transfers a paralyzing electric charge.

 The disadvantage of this device is that the defeat of the object to a large extent depends on the accuracy of the bullet. The accuracy of a bullet will be affected by such factors as the strength and direction of the wind, the qualification of the shooter, the firing range and a number of other factors, the combination of which in many situations makes the effectiveness of the defeat extremely low.

 A known method and system for protecting the restricted area from intrusion by means of an electric fence provided with at least one linear wire forming a circuit between the terminals of the power supply unit. A high-voltage pulse is supplied to the line wire with predetermined time intervals for applying electric shock to the person touching the line wire, and intrusion attempts are detected using sequences of signals that are sent to the line wire during the time interval between two short high-voltage pulses (French patent 2654239, priority of November 6, 1989, IPC G 08 B 13/22, published May 17, 1991).

 These method and device are selected as a prototype. The disadvantage of this method and device is the rather low protection efficiency of the protected area. This is due to the fact that the wire (s) forming the electric fence is stationary and protects the area of space that it occupies itself. Therefore, overcoming such protection may not cause much difficulty. For reliable protection of the protected area from unauthorized intrusion by applying a high-voltage pulse to the wire, it is necessary to protect the territory with a sufficiently large number of wires in order to make it more difficult to penetrate. However, the presence of a large number of wires complicates the system. The presence of wires makes the system open, which means it is most vulnerable to putting it out of order. In addition, a large number of wires can impede authorized movement of people, equipment, etc. both outside and inside the protected area. The disadvantages of the prototype include the fact that high-voltage pulses are sent to the wire constantly, regardless of whether there is an invasion of the restricted area or not. The constant presence of the system in the working position leads, firstly, to a decrease in the life of the system and, secondly, to irrational energy consumption.

 The technical problem to be solved is to develop a method and system for protecting a protected area from unauthorized entry, which have a high degree of reliability of an attacker’s defeat.

 The technical result consists in the effectiveness of the defeat of the offender, the difficulty of protection from exposure, the secrecy of the location throughout the protected area. An additional technical result is the relatively low cost of operating the system.

 The achievement of the technical result is ensured by the fact that in the method of protecting the protected area from unauthorized entry, which consists in creating an electrical conductive zone, detecting the penetration and generation of high voltage pulses in the electrical conductive zone, the creation of the electrical conductive zone is carried out after the intrusion is detected, and the creation of the electrical conductive zone is organized by the formation of the electrical conductive aerosol area around violator, while the transmission of electrical high-voltage pulses to aerosol battening region is performed simultaneously with the formation of this region by a predetermined algorithm which takes into account the distance to the intruder and the desired degree of damage violator intrusion detection performed by the system, allowing to determine the location in time of the invasion.

 In the inventive method of protecting a protected area from unauthorized entry, the task is solved by the totality of the claimed features.

 Creating an electrically conductive zone after detecting an invasion makes the defeat as unexpected as possible for the intruder, and therefore more effective. In addition, using the system only at the time of an unauthorized intrusion will significantly reduce the cost of operating the system. In fact, using the system only at the time of an unauthorized intrusion will not require large expenditures on the system, which is in sleep mode until the moment of the invasion. The cost of electricity and routine maintenance of the system during operation is minimal, and due to the fact that the system is practically not worn out, its service life increases dramatically.

 The organization of the electrically conductive zone by the formation of the electrically conductive aerosol area around the intruder in conjunction with the detection of an intrusion using a system that can determine the location at the time of the intrusion, will, firstly, increase the likelihood of an intruder being injured even if he uses protective equipment, and, secondly, substantially reduce system operating costs.

 The system, which allows to determine the place at the time of the invasion, provides the organization of the electrically conductive zone by the formation of the electrically conductive aerosol area directly around the intruder. The system "actively attacks" the intruder. Only the device intended for the formation of the aerosol region, which will be located closest to the place of intrusion, is involved. The electrically conductive aerosol region in this case will have dimensions that obviously ensure guaranteed contact of the aerosol with the body of the intruder. Aerosol particles, due to their small size, have a very large penetrating power, including through clothing. In this regard, the probability of defeat of the intruder increases sharply, which confirms the effectiveness of the method.

 It should also be noted that in this case, energy is saved for operation, and the system's service life is also increased.

 The transmission of electrical high-voltage impulses to the aerosol area simultaneously with the formation of this area according to a predetermined algorithm that takes into account the distance to the intruder and the necessary degree of damage to the intruder, will allow to quickly and efficiently hit the intruder. The simultaneous formation of an aerosol cloud and the transmission of electrical high-voltage pulses to the aerosol region practically does not leave the intruder with time to maneuver in order to avoid damage due to the transience factor and surprise. A predetermined response algorithm, taking into account the distance to the intruder and the necessary degree of defeat, allows you to solve various problems, for example, the task of a light scaring effect in the first few seconds, followed by a growing effect with further unauthorized entry. The problem of lethal defeat can be solved.

 The above technical result is achieved by a system that implements the inventive method, comprising an electrically conductive element, a high-voltage pulse generator, a sensor for detecting entry into a protected area, a power supply unit and a control unit of elements of a protection system in which according to the invention the electrically conductive element is an electrically conductive aerosol region formed at least at least one device for its formation around the intruder after the intrusion is detected, and the generator is high voltage electric pulses made with the possibility of generating electrical pulses according to a predetermined algorithm that takes into account the distance to the intruder and the necessary degree of damage to the intruder, while the penetration detection sensor is configured to determine the location at the time of the invasion.

 The system is equipped with a device for storing the working substance used to form the electrically conductive region.

 As a working substance for the formation of an electrically conductive cloud, for example, electrically conductive graphite or copper powder is selected.

 The working substance can be made in the form of compressed briquettes with the possibility of converting them into finely divided substance during transportation to a protected area.

 Thin-fiber conductive filaments were selected as the working substance.

 The power supply can be equipped with an autonomous additional current source.

 The implementation of the electrically conductive element in the form of an electrically conductive aerosol region, formed by a device for its formation around the intruder after detecting an intrusion, will ensure guaranteed contact of the aerosol with the body of the intruder. The system "actively attacks" the intruder. Due to their small size, aerosol particles have a very strong penetrating ability, including through clothing. In this regard, the probability of defeat of the intruder increases sharply, which confirms the effectiveness of the system.

 The implementation of the generator of high-voltage electrical pulses with the possibility of generating electrical pulses according to a predetermined algorithm that takes into account the distance to the intruder and the necessary degree of defeat of the intruder, will allow you to hit the intruder as quickly and efficiently as possible and solve various problems, for example, the problem of light repelling effects in the first few seconds followed by increasing exposure with further unauthorized entry. The problem of lethal defeat can be solved.

 The implementation of the penetration detection sensor with the ability to determine the location of the invasion at the time of the invasion will allow you to use only the device intended for the formation of the aerosol area, which will be located closest to the place of intrusion, providing guaranteed contact of the area with the body of the intruder. There is an increase in the effectiveness of the lesion. It should be noted that in this case, energy is saved to operate.

 The inventive method and device meet the criterion of "inventive step", because the authors did not identify technical solutions in which the same set of features with the technical result indicated by the applicant is known.

 A comparative analysis of the proposed method and device with the prototype shows that the claimed objects meet the criteria of the invention of "novelty."

 In support of the criterion of "industrial applicability", we consider an example of a specific implementation of the device for the implementation of the proposed method.

 In FIG. Figure 1 shows a system for protecting a protected area from unauthorized entry using the above effect.

In FIG. 1:
1 - violator;
2 - fencing of the protected area;
3 - detection sensor;
4 - a device for the formation of a conductive aerosol region with a generator of high-voltage electric pulses (can be hidden using masking);
5 - conductive aerosol area;
6 - high voltage electrical pulse;
7 - control system.

 In case of unauthorized penetration of the intruder 1 into the protected area, the detection sensor 3, for example, vibration, or capacitive, or infrared, or other principle of operation, is triggered. The signal from the detection sensor 3 enters the control system 7, where it is processed to determine the location of the invasion. After that, the control system 7 gives a command to activate the device for the formation of a conductive aerosol region and a generator of high-voltage electric pulses 4, which is located in the immediate vicinity of the invasion site. By executing the activation command, the device for generating the electrical conductive aerosol region and the generator of high voltage electrical pulses 4 simultaneously send the electrical conductive aerosol region 5 to send the high voltage electrical pulses 6 to region 5. The electrical conductive region 5 can be formed by spraying a working substance (graphite or copper powder, or fine fiber yarn), for example, compressed air.

 In FIG. 2 shows a variant of the working substance 1, made in the form of briquettes, with the possibility of conversion into a fine substance when initiating the end charge of explosive 2. This type of working substance can be used to create electrically conductive aerosol regions of increased length. In this case, the briquette is transported to a protected area, for example, using a throwing device, where it forms an aerosol area. In the considered example of the execution of the working substance, the delay of the explosion of the explosive charge, necessary for transporting the briquette to the protected area, is carried out using a retardant mixture 3.

 The intruder, in contact with the electrically conductive aerosol region, receives an electric current. From literary sources (see, for example, Kuznetsov A.I. Safety in electrical installations. - L .: State Power Publishing House, 1952), it is known that by varying the amplitude-frequency characteristics of the electric current, a different degree can be provided effects (from mild pain to death) on a person in the zone of electric current. For example, exposure to a person with an alternating electric current with a frequency of 50-60 Hz with a power of 0.6-1.5 mA will be characterized by slight trembling of the fingers. A current of 5-7 mA causes cramps in the legs, and a current of 50-80 mA causes respiratory paralysis. Lethal is a current of more than 100 mA. Therefore, the algorithm for generating electrical pulses can be set depending on the task. For example, you can specify an algorithm for generating electrical impulses, starting from a light scaring effect in the first few seconds of unauthorized entry, followed by a growing effect with further unauthorized entry up to a fatal injury.

 Figure 3 presents the equivalent circuit to determine the operating parameters of the system.

To carry out the calculation of the operating voltage of the system, we accept the following initial data:
- current in the body of the intruder I _h = 10 mA (strong pain in the place of contact of the aerosol with the body);
- resistance of the body of the intruder R = 1000 Ohm;
- the length of the aerosol cloud l = 10 m;
- specific resistance of the aerosol cloud r _e = 100 Ohm / m;
- resistance of a dry concrete floor r _n = 74500 Ohm.

можно определить рабочее напряжение U системы.From the formula

can determine the operating voltage U of the system.

U = I _h (R + r _e + r _n ) = 0.01 (1000 + 1000 + 74500) = 765 V.

 Thus, the proposed method and system for protecting the protected area from unauthorized entry provides effective defeat of the intruder, reliable and most unexpected defeat of the intruder, reducing the cost of maintaining the system during operation, increasing its service life.

Claims (7)

 1. A method of protecting a protected area from unauthorized entry, which consists in creating an electrical conductive zone, detecting penetration and generating high-voltage pulses in the electrical conductive zone, characterized in that the creation of the electrical conductive zone is carried out after detecting the intrusion with determining the location at the time of the invasion, and the creation of the electrical conductive zone is organized by forming conductive aerosol area around the intruder, and transmit electrical high voltage pulses to the aerosol about area by generating high voltage pulses by a generator.  2. The system of protection of the protected area from unauthorized entry, containing an electrically conductive element, a generator of high-voltage electrical pulses, a sensor for detecting entry to a protected area, a power supply unit and a control unit of elements of a protection system, characterized in that the electrically conductive element is an electrically conductive aerosol region formed around the intruder at least one device for the formation of an electrically conductive aerosol region, a high-wave generator Real pulses are made with the possibility of generating electrical pulses taking into account the distance to the intruder and the necessary degree of damage, and the control unit is designed to receive a signal from an intrusion detection sensor, to determine the place of intrusion, to send a command to the device for generating an electrically conductive aerosol region and a high-voltage electric generator pulses.  3. The system according to p. 2, characterized in that it is equipped with a device for storing the working substance used to form the electrically conductive region.  4. The system according to claim 2, characterized in that, for example, electrically conductive graphite or copper powder is selected as the working substance for the formation of an electrically conductive cloud.  5. The system according to claim 2, characterized in that the working substance is made in the form of compressed briquettes, with the possibility of converting them into finely divided substance during transportation to a protected area.  6. The system according to p. 2, characterized in that as a working substance selected thin-fiber conductive filaments.  7. The system according to p. 2, characterized in that the power supply can be equipped with a stand-alone additional current source.

Images