RU2694850C1 - Method and system of means of evacuating people from a building during abnormal development of fire - Google Patents

Abstract

FIELD: rescue operations.

SUBSTANCE: invention relates to life saving in abnormal development of fire, which occurred in crowded areas of people, for example, in cinemas, stadiums, railway stations, airports, etc. Method of people evacuation from a building during abnormal development of fire includes detection of a fire centre in a building, notification by sound and light signals of people in buildings premises, and informing central dispatcher station on emergency event in hazardous area, counting number of entered and released people from building premises, wireless system of monitoring of evacuation routes of people from dangerous zone and condition of development of fire centre in premises of building in real time mode, automatic, remote or manual start of available fire extinguishing means and evacuation of people from building in case of fire with available means of evacuation. According to the invention, when designing a building, additional evacuation routes are created in abnormal development of fire on main evacuation routes, forming local zones of evacuation of people in building walls and / or partitions of room, performing emergency explosion in walls of building and / or partitions of premises of area limited in area with formation of necessary passage of people, additional sound and light signalling system of people is installed in the formed pass, a wireless system of monitoring of evacuation routes of people from the hazardous zone, counting the number of people entering and leaving the formed passage. At that, each local zone of human evacuation is made in the form of sections for formation of additional passages of people in the building walls and / or in partitions of the room, which are formed on the non-load-carrying structures of the building in the form of a wall having a minimum cross-section, the boundary of the named section is marked with a bright paint, for example, red, visible in any smoke generation of the corresponding passage, and a system for warning sound and light signals of people, a wireless system for monitoring evacuation routes of people from a hazardous area and a device for counting the number of people entering and leaving the formed passage are portable. Proposed technical solution is used only after the main measures for evacuation of people in case of fire from the building, which were laid during the building design, are exhausted.

EFFECT: higher efficiency of operations related to life saving in case of fire.

3 cl, 4 dwg

Description

The invention relates to the field of saving lives during the abnormal development of a fire that occurred in crowded places, such as cinemas, stadiums, stations, airports, etc., due to man-made disasters at industrial facilities, such as power plants, large chemical plants , biological objects, in the event of an emergency, such as an earthquake, during military operations, etc., as well as during sabotage operations in all the listed facilities.

It is known (Federal Law of the Russian Federation of July 22, 2008 N 123-FZ “Technical Regulations on Fire Safety Requirements” Article 2. Basic Terms) that evacuation is the process of organized independent movement of people directly to the outside or to a safe area from the premises in which There is the possibility of exposure to the hazards of fire.

Currently widely used various methods and devices designed to evacuate people in emergency situations (Application of Germany No. 3702459, CL. АВВ 29/00, 1988; patents: RU №2126281, А62В 1/20, publ 12.04.1997; RU No. 2059531, А62В 37/00, В62В 1/500, publ 12.01.1993; RU 2132799, В64С 27/00 (1995.01), publ. 10.07 1999; №RU202048, А62В 37/00 (2000.01), А62В 1 / 00 (2000.01) publ. 27.05.2003; RU # 2373979, А62В 99/00 (2009.01), publ. 27.11.2009; №2381959, В64С 27/00 (2006.01), А62В1 / 00 (2006.01), publ. 20.02 .2010; RU # 2411051, А62В 1/00 (2006.01), А62В 99/00 (2009.01), published 10.02.2011; RU # 2486936, А62В 99/00 (2009.01), publ. 10.07.2013; RU # 2490038 , АВВ 1/10 (2006.01), published on 08/20/2013; RU # 2546422, А62В 1/00 (2006.01), publ. 10.0 4.2015; and others) that solve the tasks of evacuation of small groups of people without creating additional evacuation routes in case of abnormal development of fire on the main evacuation routes.

There is a method of evacuation from the environment with fire extinguishing aerosol due to the guide photoluminescent systems (Patent RF №2419469, АV / 3/00 (2006.1), publ. 05/27/2011), in which photoluminescent systems are located at a level not higher than one meter from the floor level, for example , along the plinth or wall. Photoluminescent systems contain optimally selected amounts of zinc sulfide and strontium aluminate for a particular aerosol-forming composition, coated with a transparent binder, such as acrylic varnish, while the surface for applying the photoluminescent material is preferably white. In the description of the method, the best options for placing the photoluminescent system are given, which include a continuous indication of the direction of evacuation at the level of a person's waist, for example, along walls or stair rails, as well as along the baseboard.

The main disadvantage of this method is that the photoluminescent band does not provide the necessary visibility of the evacuation track indicator in case of fire during the entire time of emergency response, for example, during an abnormal development of a fire, damage to the ventilation system, and the like.

At present, the improvement of the manufacturing technology of photoluminescent materials is developing along the path of increasing the brightness and duration of the afterglow. In the event of a fire in a closed space with a large amount of smoke, the brightness of the photoluminescent system is most important, the initial value of which for modern photoluminescent materials is 3000 mcd / m ² . However, the brightness of the afterglow of the photoluminescent band decreases noticeably with time, for example, after 1 hour it will be already 60 mcd / m ² (fireman.ru> of / electon / fec.html).

A known method of providing visibility in the environment of a fire extinguishing aerosol due to special lighting by ensuring safe evacuation from a room filled with fire extinguishing aerosol (Patent of the Russian Federation No. 2419470, А62В 3/00 (2006.1), publ.

05/27/2011). For a specific fire extinguishing aerosol, an optimal source of illumination is selected that provides the greatest possible distance of visibility in an aerosol environment, after which specially recommended sources of illumination are used on the evacuation routes of people and rescuers.

The disadvantages of this method are that the light emanating from a constant light source will be less noticeable in a smoky room than from a pulsating light source, since the latter has a greater irritant effect on the retina of the human eye.

It should be noted that the above technical solutions are stationary for narrow passages and cannot be used when carrying out large-scale evacuation measures in case of abnormal development of a fire in places of mass stay of people.

There is a method and system for launching an automatic gas fire extinguishing installation (Patent RF №2448752, А62С 37/50 (2006.1), А62С 35/15 (2006.1), publ. 04/27/2012), adopted for the prototype of the proposed technical solution.

For a safe start of an automatic gas fire extinguishing installation, a method of launching an automatic gas fire extinguishing installation, including detecting a fire in a room, notifying people in a room with a sound and light signal, and informing the central control room of the incident, using the system that is additionally equipped in the entrance tambour. access control of people with a wireless monitoring system to evacuate people from the danger zone and the state of development The fire in the room in real time, while the access control system of people provides in normal mode the main control of the movement of people in both directions, limits the number of people allowed to work indoors in the fire, turns off the main control and includes emergency control of movement of people in both directions, blocks the entrance of people into the room and provides unhindered exit of people from the room, and the central control room blocking t launching an automatic gas fire extinguishing installation in case of emergency control of movement of people in both directions and makes it free to start after confirmation from the access control system of people of information about complete evacuation of people from the danger zone, and in case of abnormal fire development, the central control room turns off the device blocking people from entering the room , and includes a device to block the launch of an automatic gas fire extinguishing unit, and provides unhindered access to saving to the premises, which take measures to evacuate the remaining people from the danger zone and further operational impact on the fire source with other fire extinguishing agents. The launch system includes devices designed to implement the above operations of the method.

However, this technical solution does not provide for the creation of additional escape routes during the abnormal development of a fire on the main escape routes.

The present invention is to increase the efficiency of work related to saving lives in a fire by creating additional ways to evacuate people during an abnormal development of fire on the main evacuation routes and the formation of local evacuation zones in the building and / or in room partitions.

The essence of the proposed method lies in the fact that the method of evacuating people from a building during an abnormal development of a fire, including detecting a fire in the building, notifying people on the premises of the building with a sound and light signal and informing the central dispatch post about an emergency in hazardous area, counting the number of people entering and leaving the building, conducting a wireless monitoring system to evacuate people from the danger zone and the state of the Ara in the premises of the building in real time, automatic, remote or manual launch of available fire extinguishing agents, and evacuation of people from the building in case of fire with available evacuation means, when designing the building, create additional ways to evacuate people during the abnormal development of fire on the main evacuation routes, form local zones evacuation of people in the walls of the building and / or in the room partitions, produce an emergency undermining in the walls of the building and / or in the partitions of the premises of limited areas with By setting up the required passage of people, an additional warning system is installed by the sound and light signal of people, a wireless monitoring system for the ways of evacuating people from the danger zone, and the number of people entering and leaving the passage is installed.

The essence of the claimed device lies in the fact that in the complex of means for evacuating people from a building during an abnormal development of a fire, including fire detection devices in a room that are connected to a central dispatch post, a sound and light warning device for people about a fire, a device for simultaneous counting the number of people who entered and left through the room entrance hall, a wireless monitoring system for evacuation of people from a room and the state of development of a fire center in a room in the mode real-time device for automatic, remote or manual start-up of an automatic fire extinguishing installation, each local evacuation zone of people made in the form of areas for the formation of additional passages of people in the walls of the building and / or in the room partitions that are formed on the non-bearing structures of the building in the form of a wall having a minimum cross-section, the border of the named section is indicated by bright paint, for example, red, visible with any smoke of the corresponding passage, and the system of With a sound and light signal of people, a wireless monitoring system for evacuating people from the danger zone and a device for counting the number of people entering and leaving the formed passage are made portable, while at the sites for the formation of an additional passage of each local evacuation zone the inscription “Local Emergency Evacuation Zone people".

The technical effect, implemented by the claimed method, is caused by the following.

Creating additional ways to evacuate people during an abnormal development of fire on the main evacuation routes during building design allows an emergency development of emergency evacuation of people from the danger zone as soon as possible in an emergency situation, when the main evacuation measures during a fire buildings, exhausted.

Formation of local evacuation zones in the walls of the building and / or in the room partition walls by emergency detonation in these areas of limited areas with the formation of the necessary passage allows increasing the efficiency of fire and rescue operations.

The installation of an alert system with a sound and light signal in the resulting passage, a wireless monitoring system for evacuating people from the danger zone, and counting the number of people who entered and left the passage formed allows you to:

- to organize independent movement of people directly outside or into the safe zone from the premises by triggering additional sound and light signals in the case when the main evacuation routes and the warning system sound and light signals of people do not work for various reasons described earlier in the application materials;

- compare in real time the number of people who entered the building before an emergency situation and people who left the room through additional evacuation routes during emergency evacuation, and provide for measures to evacuate people who are unable to leave the danger zone during an abnormal fire development.

The technical effect realized by the claimed device is determined as follows.

Execution of each local evacuation zone in the form of sections for the formation of additional necessary passageways for people in the walls of the building and / or in the room partitions, in the form of walls having a minimum cross section on non-bearing building structures, allows to form additional evacuation routes for people during anomalous fire development main evacuation routes.

The designation of the border of these areas with bright paint, for example, red, visible with any smoke, allows you to increase the effectiveness of fire and rescue work in extreme conditions during the formation of the corresponding passage.

Creating a portable warning system with sound and light signal of people, a wireless system for monitoring the evacuation of people from the danger zone and a device for counting the number of people entering and leaving the aisle that has formed, allows you to quickly mount them on the way to emergency evacuation of people from the danger zone.

The creation in each local area of evacuation of people of areas for the formation of additional necessary passages of people in the form of a wall having a minimum cross-section, allows for rapid local destruction of this structure with a small explosive charge. Moreover, the power of the explosive charge is determined when designing a building.

The creation of the inscription “Local emergency evacuation zone” in each local evacuation zone allows the rescue units to facilitate reconnaissance and preparatory explosive operations in the building with any smoke.

According to the author of the invention, the features given in the claims are necessary and sufficient to achieve the technical result, that is, they are essential.

Thus, the distinctive features of the proposed technical solutions are new and meet the condition of patentability "novelty."

In determining the conformity of the distinctive features of the present invention to the condition of patentability "inventive step", the level of technology was analyzed and, in particular, known methods and devices related to the field of detecting an emergency and eliminating its consequences associated with saving lives during a fire by creating evacuation routes at abnormal development of a fire.

A known system of fire protection in educational institutions (patent of the Russian Federation No. 2239471, A62C 2/10 (2000.01), A62C 37/00 (2000.01), publ. 10.11.2004).

The system of fire protection in educational institutions includes means for detecting fire and smoke located at various points of the protected object, automatically initiated from the control panel of the fire and security control panel that generates warning signals in the form of sound, light, vibration or combined signals that are perceived as devices located in the rooms where people stay, as well as on individual pieces of furniture, and also located at various points of protection fire extinguishing facility and evacuation facility, while there are at least two different types and interacting with the control panel of the detector, a thermal and autonomous smoke fireman located in the premises of the longest stay of people and auxiliary premises, and also additional manual detectors, made with the ability to quickly form a signal and transmit it to the control panel, as well as individual hand-held devices, moreover, manual detectors and p Individual personal devices are made with the ability to automatically feed a return signal to the control panel to automatically turn on the signaling of the direction of evacuation routes and initiate fire extinguishing devices located on the escape routes, and the individual protective equipment made in the form of protective hoods, gas and smoke protection kits are additionally equipped with luminous lanterns and luminous sticks, and means of evacuation include folding hinged rescue ladders, and prisoners to the window openings sleeves, and rescue mattresses, stacked on the flight of stairs.

This system is complex and multi-step, has several detectors (autonomous and manual), which initiate through the control panel the automatic supply of fire extinguishing agents on the escape routes. This condition is unacceptable when starting the automatic gas fire extinguishing installation. This system also does not provide for blocking the launch of an automatic fire extinguishing installation until the complete evacuation of people from the controlled area.

The aviation rescue support system is known (Patent RU No. 2381959, VS64 27/00 (2006.01), АВВ 1/00 (2006.01), publ. 02/20/2010).

The aircraft system contains a manned aircraft vertical takeoff and landing. It is formed by a group of vertical take-off and landing aircraft with the possibility of their hovering. The aviation system consists of a manned vehicle with tunnel propellers and unmanned flying platforms with detachable rescue equipment fixed on each of them. “Flying Platform” is equipped with homing, mooring and self-locking equipment to the emergency facility with disconnecting devices from the delivered rescue equipment and the possibility of leaving the disaster zone. The piloted vehicle, the carrier of the “flying platforms”, is equipped with means for detecting and marking the supposed places of self-fixation of the “flying platforms” and is provided with devices for their attachment, regular and emergency separation from their own side. The manned vehicle is provided with equipment for controlling and monitoring the operation of the entire aviation system in manual and automated modes.

The work of the aviation rescue support system on the floors of a high-rise building in case of fire is carried out as follows.

Piloted aircraft - carrier of “flying platforms” vertical take-off and landing, which is on the ground in standby mode with a “flying platform” installed on its upper part of the mountain chain, carrying rescue equipment and held by fasteners, takes off and arrives at the “alarm” command disasters, taking a height close to the height of the lower edge of the fire. The crew (as part of the pilot and operator) assesses the situation, the extent of fire spread and the presence of people in distress in a high-rise building, launches the power plant of the “flying platform”, all its systems, and prepares the vehicle for launch from the manned spacecraft. As a result of the operation of the regular locks under the action of the thrust of the “flying platform”, the latter is separated from the manned aircraft vertically, then goes a distance safe for maneuver and freezes automatically. The detachment of the “flying platform” from the side of a manned aircraft in flight is accompanied by some imbalance of the apparatus, which in an automated mode is immediately compensated by a change in the magnitudes of the vectors of powerplants (fans) of the apparatus. In the event of a sudden uncontrolled emergency situation on board a manned vehicle or on board a “flying platform”, as well as in the event of a sharp deterioration in meteorological conditions, it is possible to use the means of emergency separation of a “flying platform” from the side of a manned aircraft. Means of emergency department are made as pyrozamkov single use and after operation require replacement. In the process of emergency detachment of the “flying platform” from the side of the apparatus, its power plant may not start, and equipment and systems may not function.

After the "flying platform" enters the specified zone (Fig. 6), a special command from the manned aircraft begins the process of homing the "flying platform" to radio beacons with higher accuracy than before entering the homing area. When approaching a “flying platform” in the homing mode for a given distance to an object in distress, upon command of the homing complex, it automatically goes into the mooring mode for the object. In this mode, subject to a given flight altitude, the horizontal speed of the “flying platform” decreases, and the shock-absorbing mooring contact device is moved to the working position. After the “flying platform” and the object come into contact, by means of a berthing-contact device, its sensors, which are part of the mooring signal generation equipment, give a signal to fix the folding frame in the object's structure. In this case, the pyromechanisms of the folding frame are activated, which extend the telescopic sections, break the glass of the object, unfold the frame struts and ensure the operation of the pivoting hooks of the folding frame, securing the folding frame with the “flying platform” attached to it in the design of the object in distress.

At the end of the cycle of fixing the “flying platform” to the object, the sensors of fastening are mounted on the folding frame, and a command is issued to separate the “flying platform” from the folding frame attached to the object in distress together with the rescue equipment. The separation of the “flying platform” from the folding frame is made after the special pyro-locks are triggered with confirmation by the separation sensor signals, which form a single executive-signaling unit mounted in the folding frame design. The operation of the pyrozamok and the compartment sensors is a signal to an increase in the revolutions of the power plant of the “flying platform” and its vertical take-off from the folding frame. At a height of flight equal to about half the diameter of the main rotor, the “flying platform” by changing the cyclic pitch of the main rotor turns into horizontal flight. The departure of the “flying platform” to a safe distance from the object in distress is confirmed by signals from its side, transmitted to the manned aircraft. The system for rescue is ready.

However, the rescue of injured people using funds such as “basket”, “sleeve” or “stocking” occurs in this technical solution when the main ways of evacuating people from a building during a fire are not blocked.

Analysis of other technical solutions showed that the known methods and devices do not solve the problems noted earlier, which are solved by the claimed method and device.

Based on the above, we can conclude that the proposed technical solution meets the condition of patentability "inventive step", and the invention itself is new.

FIG. 1 shows a variant of the scheme of evacuation of people from the building along the main escape routes; in fig. 2 shows a variant of the scheme for evacuating people from a building along reserve evacuation routes; in fig. 3 shows a variant of the scheme for evacuating people from a building along additional evacuation routes during an abnormal development of a fire on the main evacuation routes after the creation of local evacuation zones in the walls of the building and / or in the partition walls of the building; 4 shows the variant of execution of an additional passage of each local evacuation zone of people (in plan).

The claimed technical solution is implemented as follows.

When designing a building (cinema) they simulate possible variants of fire development.

In the event of a fire and the detection of a fire in building 1, people are taken out of the danger zone along the main evacuation routes to evacuate people as follows (Fig. 1).

In this case, when the main evacuation routes are not blocked, when people are evacuated from the building (the direction of movement of people is shown in the diagram of Fig. 1 by arrows) the following actions:

- launching sound devices 2 and light devices 3 notifying people of a fire in the premises of building 1, as well as in a mass gathering of people - in a cinema 4, indicating the route (direction) of the latter from the danger zone to the main escape routes through the doors 5, 6, 7, 8, 9, 10, 11, and 12;

- inform the central control room (conventionally not shown) about the emergency that occurred in the danger zone;

- make counting the number of people who entered and left the room 4, using the device 13;

- carried out using sensors 14 wireless system monitoring the evacuation of people from the danger zone and the state of development of the fire in the premises of the building in real time;

- produce automatic, remote or manual launch of available fire extinguishing agents (conventionally not shown);

- evacuation of people from a building in case of fire with available means of evacuation along the main evacuation routes, including through doors 15, 16, 17 and 18 from rooms 19. 20. 21 and 22.

In case of obstacles on the main escape routes, people are evacuated from the building along reserve escape routes as follows (Fig. 2).

- launch of backup sound devices 23 and light devices 24 warning people about a fire located in the premises of building 1, as well as in a crowded place - in a movie theater 4, indicating the route (direction) of the latter moving from the danger zone along reserve escape routes through doors 25, 26, 27, 28, 29, 30, 31, 32, 33, and 34;

- informing the central control room (conventionally not shown) about the emergency that occurred in the danger zone;

- counting the number of people who entered and left room 4; using device 13;

- wireless monitoring system using sensors 14 ways to evacuate people from the danger zone and the state of development of the fire in the premises of the building in real time;

- automatic, remote or manual start of available fire extinguishing agents;

- evacuation of people from the building in case of fire with available means of evacuation along the main evacuation routes.

In case of an abnormal development of a fire in the named building, when designing building 1, additional ways of evacuating people on the main escape routes are created (Fig. 3).

To create additional evacuation routes include the following activities.

Each local zone 35, 36, 37, 38, 39, and 40 (Fig. 1, Fig. 2, Fig. 3). The evacuation of people is made in the form of a wall 41,42 (Fig. 1, Fig. 2, Fig. 3, Fig. 4), having a minimum cross section, the border 43 (FIG. 4) of the said zone is marked with bright paint, for example, red, most visible in any smoke of the corresponding passage.

Due to the fact that the destruction of each local evacuation zone according to the invention is provided by the explosive method, the power of the explosive charge 44 is selected when designing building 1 so that the blast wave will only destroy the wall 41.42 in each local evacuation zone.

Inside each local area of evacuation of people on the walls of the building and / or in the partitions of the room, the inscription 45 “Local area of emergency evacuation of people” is performed.

The inscription is performed with bright paint, for example, red, the most visible at any smoke of the corresponding local zone.

Additional evacuation paths are formed when large-scale evacuation measures are carried out in extreme conditions (for example, in case of a sudden collapse of a building’s building fires on main evacuation routes, when technical doors are blocked in evacuation openings of a building, in case of an automatic failure of the automatic warning system and such) in places of mass stay of people.

To this end, produce the following actions:

- rescue units make reconnaissance of building 1 and determine the degree of destruction of building structures of building 1, the performance of doors and the like on the main evacuation routes;

- determine the optimal way to evacuate people, taking into account the arisen blockages and destruction (Fig 3 presents the option of evacuating people through the doors 5, 8, 25 and 26.

- determine the locations of people in building 1, including cinema 4, and the possibility of using local zones 35, 36, 37, 38, 39 and 40 for evacuating people provided in the walls of the building and / or in partitions of room 4 (FIG. 1, Fig. 2, Fig. 3), to create additional escape routes.

Saving people's lives in the event of a fire during an abnormal development of a fire on the main escape routes is as follows (Fig. 3).

After the rescue units conduct reconnaissance of building 1 and detect an emergency, primarily related to the threat to human life and health, the following actions are taken:

- mount explosive charge 44 in the necessary local areas 35, 36, 37, 38, 39 and 40 (Fig. 4);

- carry out an emergency undermining of the said explosive charge in the walls of the building and / or in the partitions of the premises of limited areas in local zones 35, 36, 37, 38, 39 and 40 with the formation of the necessary passage for people blocked, for example, in the cinema 4. For carrying out this operation requires special training of rescue units to perform blasting operations.

After blasting, the following actions are performed:

- install in the resulting passage additionally portable warning systems 46, 47 (Fig. 3), equipped with sound 48 and light 49 devices for warning people about a fire, a wireless system for monitoring the evacuation routes of people from the danger zone using sensors 50;

- make an emergency evacuation of people from a building in case of fire with available means of evacuation in local zones 35,36, 37, 38, 39 and 40 through the formed passages;

- carry out the counting of the number of people who entered and left the formed passage using the device 51.

In the present embodiment (Fig. 3) of the evacuation scheme for people from the building, additional cases of evacuation are considered when, during an abnormal development of a fire on the main and emergency evacuation routes, the previously described sound devices 2, 23, light devices 3, 24, devices 13 and sensors 14 out of order.

Industrial applicability of the claimed technical solution is as follows.

The claimed technical solution is used only after the main measures involving the evacuation of people during a fire from a building, and laid down in the design of the building, are exhausted.

According to the author of the invention, it is clear that the implementation of the proposed technical solution, including the creation of additional evacuation routes during the abnormal development of fire on the main evacuation routes, ensures that emergency evacuation of people from the danger zone during an emergency situation does not require significant material costs.

For rescue operations to implement the invention requires special training rescue units for blasting. Currently, EMERCOM of Russia is actively carrying out explosive works, for example, during the liquidation of ice jams on rivers.

The ideas laid down by the author of the invention can be implemented when creating a new generation of technical equipment related to emergency evacuation of people from the danger zone of the building in the event of an emergency.

Claims (3)

1. A method of evacuating people from a building during an abnormal fire development, which includes detecting a fire in a building, notifying people and people on the premises of the building with sound and light signals, and informing the central control room of an emergency in the danger zone, counting the number of people entering and people who left the building, conducting a wireless system to monitor the evacuation of people from the danger zone and the state of development of the fire in the building in real time, automatic, remote or manual launch of available fire extinguishing agents and evacuation of people from a building during a fire with available evacuation means, characterized in that when designing a building they create additional ways of evacuating people during an abnormal fire development on the main evacuation routes, form local evacuation zones of people within the building walls and / or in the room partitions, they produce an emergency blasting in the walls of the building and / or in the partitions of the premises of the restricted areas with the formation of the necessary passage humans, is set in the formed passage system further warning sound and a warning light people escape routes wireless monitoring system of people from the danger zone, is carried out to count the number of people have entered and emerged from the resulting passage. 2. A complex of means for evacuating people from a building during an abnormal development of a fire, including fire detection devices in a room that are connected to the central dispatcher station, sound and light warning devices for people about a fire, a device for simultaneously counting the number of people entering and leaving through the entrance room vestibule, wireless monitoring system for evacuation of people from the premises and the state of development of the fire in the room in real time, automatic, remote device One-handed or manual start-up of an automatic fire extinguishing installation, characterized in that each local evacuation zone of people is made in the form of sections for the formation of additional passages of people in the walls of the building and / or in the room partitions that are formed on the non-bearing structures of the building in the form of a wall having a minimum cross section , the border of the named area is indicated by bright paint, for example red, visible with any smoke of the corresponding passage, and the warning system is audible and light by people , A wireless monitoring system of evacuation routes people from the danger zone and a device for counting the number of people have entered and emerged from the formed passage made portable. 3. A set of means for evacuating people from a building during the abnormal development of a fire according to claim 2, characterized in that at the sites for the formation of an additional passage of each local evacuation zone the inscription “Local Emergency Evacuation Zone” is made.

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