RU2703884C1 - Method for fire and explosion protection of individual houses and apartments using split systems - Google Patents

Abstract

FIELD: municipal services.

SUBSTANCE: proposed invention relates to gas supply, ventilation, air conditioning and fire safety of apartments in high-rise buildings and individual houses, as well as to explosion protection of gas appliances and networks in them. Disclosed is a method of using split systems as aspiration detectors of hazardous factors of fire and explosion (HFFE) at leakage of domestic gas and as gas plants for suppression of HFFE with the help of thermomagnetic air separator (TMAS), which releases oxygen from pumped air and discharges it outside, returning inert gases into the room. Diagnosing and suppressing HFFE in apartments of multi-storey residential buildings and in individual houses using a multi-split system due to the fact that each of its internal unit incorporates HFFE multisensors and thermomagnetic air separator (TMAS), which are connected to controller of internal unit with GSM-radio modem, which provides control of detection and suppression of HFFE, with corresponding notification of occupants and emergency services, supplemented with accumulators of emergency power supply and devices of their charging, for functioning in absence of electric energy. Upon the command of the internal unit controller, which upon detection of HFFE disables the electric power supply of the apartment / individual home using a triac module breaking phase/phases of power supply, and, by switching to battery power, includes TMAS, removing oxygen from room and thereby preventing explosion from domestic gas leakage and / or propagation of fire by sounding voice and / or speech and LED flashing alarm signals by HFFE types, with sending SMS-messages to the control company, the owner and to the corresponding "emergency services".

EFFECT: disclosed method for fire and explosion protection of individual houses and apartments using split-systems.

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Description

The present invention relates to the field of gas supply, ventilation, air conditioning and fire safety of apartments in high-rise buildings and individual residential buildings, as well as to the explosion safety of gas appliances and networks in them.

According to statistics from the All-Russian Research Institute of Fire Defense EMERCOM of Russia, annually about 70% of fires occur in the residential sector of the country [1]:

in 1-2 storey buildings - up to 125 thousand fires and up to 10 thousand dead,

in 3-5 storey buildings - about 20 thousand fires and about 2 thousand dead,

in 6-9 storey buildings - about 16 thousand fires and up to 1 thousand dead,

in 10-25 storey buildings - about 10 thousand fires and about 500 dead,

in buildings of more than 25 floors - about 30 fires and up to 10 dead.

If we introduce the concept of "probability of death from the number of storeys of a building", i.e. the ratio of the number of deaths to the number of storeys, then in high-rise buildings it is 4.16 times higher than 1-2 storey buildings. And this despite the fact that in buildings above 10 floors capital fire protection measures are provided (smoke-free stairwells, etc.).

Today, almost every residential building or apartment uses split systems that create comfortable conditions for staying in the premises where the indoor unit is installed. Studies have shown that all split systems used in Russia are manufactured abroad and do not withstand the requirements of GOST 12.1-004 on the probability of a fire from them no higher than 10 ^-6 during the period of its operation [2-4].

There are many methods and devices for detecting dangerous factors of fire and explosion (OFPV) that implement these methods:

Smoke - ionization and optical [5];

Thermal - threshold and analog [6];

Flaming - optical [6,7] and based on the use of ultraviolet [8] or infrared radiation [9];

Gas - for combustion products [10], including selective linear fire detectors [11].

The most effective of these is devices combining photoelectric and thermal sensing elements. Such types of multi-sensors have been used for a long time, using a very simple decision-making system "either-or" when the signal is applied, in the event of a photoelectric or thermal sensor [12].

However, all of the above methods and detectors have a significant drawback - a large inertia, because detect RPFV when “they reach” the sensing element. And due to the fact that detectors are usually installed on ceilings, the “arrival to them” of smoke, gas or temperature is from several units to tens of minutes [11]. Therefore, for early detection of dangerous fire factors, an aspiration method was invented and its system was implemented, usually called “flow-through”, the essence of which was that the same sensors were used, but they were installed in a chamber on a pipeline with holes through which air was “pumped” protected premises. And if OFPVs arose, then they were “drawn into the sensors” and detected faster by an order of magnitude [12,13].

At the same time, according to statistics, in recent years there have been more frequent cases of leakage and explosions of domestic gas and fires from them, in connection with which, the idea arose not only to increase the personal safety of split systems to the level of GOST 12.1.004 using thermoelectronic protection modules [2,14] since almost all imported household appliances do not meet the domestic standard [12,14], but they also “turn” the split systems into high-speed fire and explosion detectors by installing fire detectors and sensors in them for leakage of domestic gas, as well as interfacing with a gas meter “Grand SPI”, with an electromagnetic valve and a gas leakage sensor, with a GSM module and a computer connection connector, both for taking gas consumption data and for controlling the gas input shutdown with an electromagnetic valve [15], because split-systems constantly “pump” air through the indoor unit to the room where this unit is installed, almost in the same way as the fastest aspiration fire detectors do [13].

As follows from the studies [2-4], such a model of a split-system-fire detector (SSPI) was created, and included, firstly, protection of the device itself from fire hazardous failures by controlling the temperatures of the elements of the external and internal blocks by thermal sensing implemented by thermoelectronic protection modules that disconnect the units from the mains in the event of a fire hazard in them, and secondly, install an autonomous smoke detector in the indoor unit and connect it to the controller IPN Thirdly, installation GSM-modem control unit or the indoor unit with the appropriate hardware and software controller conjugation SSPI [4].

It was proved that in this case, with a slight decrease in the technical resources of the split system units, their fireproof resources increased by an order of magnitude and became comparable with their technical resources. So, for the indoor unit, a decrease in the technical resource to 10 years was obtained, and an increase in the fireproof resource to 50 years. For the outdoor unit, the technical resource decreased to 7.5 years, and the fireproof resource increased to 2.5 years [3].

The use of a gas meter with an electromagnetic valve and a gas leakage detector reduces the likelihood of explosions and / or fires from gas consumer devices. However, they will not be able to protect against explosion in case of leakage of domestic gas from the outside (external gas pipeline, neighboring apartment, etc.). Only the use of gas fire extinguishing installations, which reduce the oxygen concentration by removing it from the protected premises, for example, membrane air separators (MCS) or thermomagnetic air separators (TMSV), can suppress the detected OFPV in the residential sector [16, 17].

The closest technical solution is the model of a split-system-fire-explosion-detector [18], in both blocks of which thermosounding is carried out by thermoelectronic protection modules of their thermal conditions, in order to detect fire hazardous failures and disconnect the blocks from the mains, to prevent their ignition, and on Sensors (flue gas, heat gas, domestic gas and carbon monoxide) are located at the inlet of the indoor unit, detecting OFPV in the air sucked into the unit, after which the controller turns on an audible alarm and TMSV, which separates and emits oxygen from the pumped air through the drainage channel into the atmosphere, and returns the remaining inert gases (nitrogen, carbon dioxide, etc.) to the protected room, which prevents a fire and / or explosion by lowering the oxygen concentration to the level at which burning and explosion are impossible, while notifying the corresponding emergency services (fire department or gas emergency service) via the GSM radio modem, as well as the management company and owner.

However, the simulation of gas flows under various operating modes of the split system modified in this way showed that this method does not fully perform fire and explosion protection of an apartment in an apartment building or an individual residential building, for the following reasons:

firstly, one indoor unit, which is installed in a living room, it is impossible to carry out early detection of OFPV in case of leakage of domestic gas in the room, for example, in the kitchen where gas appliances are installed (stove, stove, etc.);

secondly, without disconnecting the power supply of an apartment or an individual house at the time of detection of the HVF, it is impossible to guarantee that an explosion does not occur if there is a gas leak in the electrical installation products (for example, a spark in the socket when the refrigerator compressor is automatically turned on / off, etc.) will happen;

thirdly, the indoor unit located in the living room in which the HMW is installed cannot lower the oxygen concentration in all other rooms of the apartment / individual house, in particular in the room where gas appliances are installed, to the level at which the explosion or spread of fire becomes impossible.

The objective of the invention is the provision of fire and explosion protection of apartments in multi-family residential buildings or individual residential buildings using multi split systems.

The solution to this problem is achieved by the fact that a method of fire and explosion protection of individual residential buildings and apartments using a split system has been developed, which consists in the fact that, to ensure their own fire safety of split systems, the temperature of the elements of the external and internal units is monitored by built-in thermionic protection modules that turn blocks from the mains in case of fire hazard in them, and for early detection of dangerous factors of fire and / or explosion and their guaranteed suppression in the room where the indoor unit is installed, at least four sensors (thermal, flue, domestic gas and carbon monoxide), a thermomagnetic air separator and a GSM radio modem are installed in it, which are connected to the indoor unit controller that provides detection control and by suppression of dangerous factors of fire and / or explosion, with appropriate notification to residents and the corresponding emergency service (gas emergency, fire), a multi-split system is used with a remote triac module that disables e power supply of the house / apartment by the command of the controllers of the indoor units, each of which is supplemented by an emergency power battery and a charging unit, for their operation in the absence of electricity, while one of the indoor units of the multi-split system is located in the room where gas appliances are operated and is assigned when adjustment by the “leading unit”, and a gas meter is installed on the gas inlet pipe with a built-in gas leakage sensor and an electromagnetic valve that shuts off gas supply by its signal, to tory interfaced with the controller of the indoor unit, and may also overlap the gas supply on signal of the indoor unit controller, and upon detection of hazardous factors of fire and / or explosion, including according to the signals of other indoor units, it turns off the power supply of the apartment / individual house through the triac module, and, switching to battery power, turns on the TMSV, removing oxygen from the protected room through the drainage channel to the outside, and thereby preventing an explosion from leakage of domestic gas and / or the spread of fire, and the remaining indoor units of the multi-split system, placed in other rooms of the apartment / individual house, and connected by a signal wire to the “leading unit”, similarly detect and suppress OFPV in the premises where they are installed, transmitting a signal to turn off the gas supply and / or power supply to the “master unit”, while the control panels of the indoor units of the multi-split system are supplemented with the “reset alarm” function (button), because indoor unit controllers with GSM radio modems implement the following types of alarm signals and their functioning algorithms:

- sound and / or speech and LED flashing warning signals by types of OFPV at the location of the indoor unit (domestic gas leak, power outage, lighting, evacuation), which can be turned off by the “reset notification” button on the control panel, if any of I was able to take measures to eliminate OFPV persons in the protected premises, while an SMS message to the owner and the management company will be sent without fail via a GSM radio modem;

- sound and / or speech and LED flashing warning signals by type of OFPV at the location of the indoor unit and SMS-message transmission via GSM-radio modem with preservation of its delivery receipt in memory, in the absence of a “reset alert” (no persons in the protected premises or insufficiency of measures taken after the first "discharge"), in case of leakage of domestic gas - to the gas emergency service, and in case of fire - to the fire department, as well as to the management company and owner.

Thus, in contrast to the known aspiration systems for automatic fire alarms and automatic gas fire extinguishing systems with a limited supply of extinguishing compounds (nitrogen, carbon dioxide, etc.), requiring the installation of appropriate pipelines with openings in the protected premises, the method of fire and explosion protection of individual residential buildings and apartments using multi-split systems provides early detection of OFPV by similar sensors installed in indoor units, through which air is pumped the spirit of the premises where they are located, to perform the functions of ventilation and air conditioning. At the same time, instead of a limited supply of extinguishing agent, TMSVs are installed in the indoor units of multi-split systems, which, when turned on, when OPFV is detected, oxygen (paramagnet) is separated by a magnetic field and brought out through the drain pipe, returning the remaining gases to the protected premises ( diamagnetics), which are an inert extinguishing agent (nitrogen, carbon dioxide, etc.), sharply reducing the oxygen concentration, thereby preventing an explosion from leakage of domestic gas and / or suppressing ignition, turning off the gas supply and power supply of the apartment / individual residential building, until the arrival of emergency services (gas emergency, fire), which are called using the GSM modem.

The proposed method allows its implementation not only in split-systems of the residential sector [3,4], but also in split-systems installed at the objects of trade, agriculture, healthcare, education, science and culture [18].

Literature

1. Meshalkin EA Fire safety of residential buildings / Security systems, 2013, No. 1, p.106-109.

2. Kulyagin I.A. The intellectualization model of split systems for ensuring fire safety // International Student Scientific Bulletin - 2017.- No. 5-1, p. 120-122.

3. Kulyagin I.A. Intellectualization of the safety of electrical installations (using the example of split systems) // Electronics and Electrical Engineering.- 2018.- No. 1, pp. 19-26; DOI: 10.7256 / 2453-8884.2018.1.25832.

4. Kulyagin I.A., Belozerov V.V. Automation of fire and explosion protection of the residential sector using split-systems // Electronics and Electrical Engineering. - 2018. - No. 3. - P.59-65. DOI: 10.7256 / 2453-8884.2018.3.27744.

5. Sharovar F.I. Principles of building devices and systems for automatic fire alarms. - M.: Stroyizdat, 1983. -335s

6. Members A.N. Automatic fire detectors. - M.: Research Center "Protection" VNIIPO Ministry of Internal Affairs of Russia, 1997.-51p.

7. Vitsinsky S.A., Nilov O.M. A device for detecting a fire in pneumatic transport - SU patent for the invention No. 1795894 from 06.24.91.

8. Rodionov I.D., Kalinin A.P., Rodionov A.I. Method and device for optical location using an ultraviolet radiation sensor - Patent of the Russian Federation for invention No. 2433424 of 10.30.2009.

9. Popov EA, Emelyanov Yu.M., Rakhmanov EV, Saprykin VV, Zaitsev AV Flame detector - RF patent for the invention No. 2398609 from 08.29.2006.

10. Rozhin V.V., Halikova G.A., Scheglova M.M. Fire detector - RF patent for invention No. 2336573 dated 12/14/2006.

11. Schipitsin S. Trends in the development of fire detectors // Security. Reliability. Information. 2004, No. 3 (54), pp. 38-43.

12. Belozerov V.V., Oleinikov S.N. Radio announcers of technosphere danger and its navigation with the Internet system of their functioning // Fundamental research. - 2013. - No. 10. P. 2843-2853.

13. Recommendations for the use of VESDA suction smoke detectors / parts 1,2 and 3-M .: VNIIPO EMERCOM of Russia, 2003.

14. GOST 12.1.004 Fire safety. General requirements - M: Izd.standartov, 1992. -75p.

15. Grand-SPI gas meters / Operation manual: TUAS.407299.002 RE - Rostov n / A: Turbulence Don LLC, 2015. - 24s.

16. Voroshilov I.V., Maltsev G.I., Koshakov A.Yu. Nitrogen generator - RF patent for the invention No. 2450857 from 08.24.2010.

17. Belozerov V.V., Bosy S.I., Videtskikh Yu.A., Novakovich A.A., Pirogov M.G., Tolmachev G.N. Method for thermomagnetic air separation and device for its implementation - RF Patent for the invention No. 2428242 from 09/10/2011.

18. Belozerov V.V., Kulyagin I.A. Split model of a fire-explosion-detector system // Innovations and engineering in the formation of investment attractiveness of the region: collection of scientific papers of the II Open International Scientific and Practical Forum - Rostov n / a: NP "Unified Regional Center for Innovative Development of the Rostov Region"; Don State Technical University; South Federal University. 2017.S. 356-361.

Claims (6)

1. The method of fire and explosion protection of individual houses and apartments using split systems, which consists in the fact that to ensure their own fire safety of split systems, the temperatures of the elements of the external and internal units are controlled by thermoelectronic protection modules that disconnect the units from the mains in the event of a fire hazard in them, and for early detection of dangerous factors of fire and / or explosion and their guaranteed suppression in the room where the indoor unit is installed, they are built into it at least four sensors (thermal, flue, domestic gas and carbon monoxide), a thermomagnetic air separator and a GSM radio modem that are connected to the controller of the indoor unit, which provides control of the detection and suppression of dangerous factors of fire and / or explosion, with appropriate notification to residents and corresponding emergency service (gas emergency, fire), characterized in that a multi-split system with a remote triac module is used, which cuts off the power supply of the house / apartment on the command of the controllers inside training units, each of which is supplemented by an emergency power battery and a charging unit, for their operation in the absence of electricity. 2. The method according to claim 1, characterized in that one of the indoor units of the multi-split system is located in the room where the gas appliances are used (furnace, boiler, etc.) and is assigned during commissioning by the "leading unit", and the gas inlet pipe is equipped with a gas meter with a built-in gas leakage sensor and an electromagnetic valve that shuts off the gas supply by its signal, which is interfaced with the indoor unit controller and can also shut off the gas supply by the signal of the indoor unit controller, and if dangerous facts are detected Ore of fire and / or explosion, incl. according to the signals of other indoor units, it turns off the power supply of the apartment / individual house through the triac module, and, switching to battery power, turns on the TMVS, removing oxygen from the protected room through the drainage channel to the outside and thereby preventing an explosion from leakage of domestic gas and / or the spread of fire . 3. The method according to claim 1, characterized in that the remaining indoor units of the multi-split system, located in other rooms of the apartment / individual house and connected by a signal wire to the “leading unit”, similarly detect and suppress OFPV in the rooms where they are installed , transmitting a signal to turn off the gas supply and / or power supply to the "leading unit". 4. The method according to claim 1, characterized in that the control panels of the indoor units of the multi-split system are supplemented with a function (button) "reset alerts", because indoor unit controllers with GSM radio modems implement the following types of alarm signals and their functioning algorithms: - sound and / or speech and LED flashing warning signals according to the types of OFPV in the location of the indoor unit (domestic gas leak, power outage, lighting, evacuation), which can be turned off by the “reset notification” button on the control panel, if any of the persons located in the protected premises, I was able to take measures to eliminate OFPV, while an SMS-message to the owner and the management company will be sent without fail via a GSM-radio modem; - sound and / or speech and LED flashing warning signals by type of OFPV at the location of the indoor unit and SMS-message transmission via GSM-radio modem with preservation of its delivery receipt in memory, in the absence of a “reset alert” (absence of persons in the protected premises or insufficient measures taken after the first "discharge"), in case of leakage of domestic gas - to the gas emergency service, and in case of fire - to the fire department, as well as to the management company and owner.