RU2286190C1 - Extinguishing system for multistory building or building structure - Google Patents

Abstract

FIELD: fire-fighting, particularly to extinguish multistory buildings.

SUBSTANCE: system comprises sealed vessel for fire-extinguishing composition storage under pressure, fire-extinguishing composition supply pipelines, which are adapted to feed fire-extinguishing composition into objects to be protected and vessel pressure maintaining means. The vessel is made as a number of tubular accumulation high-pressure tanks connected with each other and arranged preferably along vertical and horizontal building axes along the full height of building stories provided with rooms to be protected. Connection devices between tubular accumulation high-pressure tanks are made as connection tubular high-pressure tanks. Fire-extinguishing composition supply pipelines, which deliver fire-extinguishing composition into object to be protected, are connected to fire-extinguishing composition storage vessel through valves. Fire-extinguishing system is provided with refilling means to compensate fire-extinguishing composition losses. The refilling means is connected to the vessel. Accumulation and connection tubular tanks may be made as a part of load-bearing building frame. Accumulation and connection tank diameters may not exceed 150 mm. Fire-extinguishing composition storage vessel capacity provides double fire-extinguishment operation in room to be protected having maximal possible volume.

EFFECT: increased efficiency of multistory building extinguishment, improved operational reliability and simplified operation.

4 cl, 1 dwg

Description

The invention relates to fire extinguishing devices designed to protect buildings and structures.

Currently, the development of effective, reliable, easy-to-use fire extinguishing devices for the protection of buildings and structures, especially high-rise (multi-storey) buildings, is a very urgent task. As significant Russian and world experience shows, the traditional water and gas fire extinguishing systems used are far from always able to extinguish fires under the conditions under consideration, which leads to serious consequences and significant losses. In particular, in recent years in several countries around the world there have been several major fires in skyscrapers that could not be put out at all. The result was a complete destruction of these buildings.

A device for suppressing a fire in buildings is described in the patent of the Russian Federation No. 94031680, IPC A 62 C 35/00, selected by the authors for an analogue containing a source with a fire extinguishing composition, high pressure pipelines for supplying a fire extinguishing composition to the protected premises connected via valves, and a device for increasing water pressure (which is made in the form of a hydraulic booster) with a fire extinguishing source (household and drinking water main). The disadvantages of this device are the inability to supply a fire extinguishing composition to the source of tanning with high costs, the complexity of the design and low operational reliability.

A known fire extinguishing installation for protecting buildings, described in the patent of the Russian Federation No. 2106165, IPC A 62 C 35/00, selected by the authors for an analogue in which water is used as a fire extinguishing composition, containing a water supply pipeline, a fire pipeline with fire pumps and household and drinking pumps. The fire pipeline is combined with the drinking and drinking pipeline connected to the supply pipeline. There is a control system for these pumps using feedback.

The disadvantages of this analog when used for fire protection of high-rise (multi-storey) buildings and structures is the inability to ensure the supply of a fire extinguishing composition to the fire source with high costs, the complexity of the design, the complexity of operation.

A device for extinguishing fires is known, described in USSR author's certificate No. 792645, IPC A 62 C 2/00, 1978, and chosen by the authors for the prototype, which contains a sealed container for storing fire extinguishing composition under high pressure, pipelines for supplying the extinguishing composition to the protected premises , a means of maintaining pressure in a container for storing a fire extinguishing composition.

The above device, when used for fire protection of high-rise buildings or structures, has the following disadvantages.

Due to the fact that in it the supply of extinguishing agent is stored in a separate high-pressure vessel, which cannot be too large, the amount of extinguishing agent is strictly limited, which reduces the efficiency of fire fighting, especially in case of large-scale fires.

The large pressure vessels used in such fire extinguishing devices for storing the extinguishing agent are complex in design and manufacture, and are very expensive. In addition, they have reduced reliability, which makes them potentially explosive. Their operation is complex and must be carried out by highly qualified personnel. Such vessels are subject to control and registration with the State Technical Supervision Authority.

When using this device to protect high-rise buildings or structures, it is necessary to have a large number of very long (up to several hundred meters long) pipelines for supplying a fire extinguishing composition to the protected premises from a tank in which the entire supply of extinguishing agent is stored. Due to the presence of design and cost restrictions on the diameters of these pipelines (for example, the diameter should not exceed 150 ... 200 mm), their hydraulic resistance at the expiration of the extinguishing agent is large, which limits the mass flow rate of the supplied extinguishing agent. This dramatically reduces the efficiency of extinguishing tanning, especially in rooms of large volumes, or (and) having large areas of window and other openings in building envelopes.

Using the present invention, a technical result is achieved, which consists in increasing the efficiency of fire extinguishing in high-rise buildings or structures, increasing the reliability of the fire extinguishing system, simplifying the operation of the fire extinguishing system.

The achievement of the technical result is ensured by the fact that the proposed fire extinguishing system of a high-rise building or structure contains a sealed container for storing a fire extinguishing composition under high pressure, pipelines for supplying a fire extinguishing composition to the protected premises, a means of maintaining pressure in the storage tank of the fire extinguishing composition.

Moreover, in the proposed fire extinguishing system of a high-rise building or structure, the storage tank for the fire extinguishing composition is made in the form of a system of interconnected storage tube-shaped high-pressure vessels located mainly along the vertical and horizontal axes of the building or structure along the entire height of the floors of the building or structure on which there are protected premises, and the connections between the storage tube-shaped vessels are made in the form of sludges located mainly on each floor of the building structures unifying tubular pressure vessels, wherein feed lines extinguishing agent into the protected premises are connected via valves with a container for storing the extinguishing agent, and a fire-fighting system is provided with feeding means for compensating leaks extinguishing agent connected with the container for storing the extinguishing composition.

In the proposed fire extinguishing system of a multi-storey building or structure, accumulative tube-shaped vessels and unifying tube-shaped vessels can form part of the supporting frame of a high-rise building or structure.

In the proposed fire extinguishing system of a high-rise building or structure, the diameters of the storage tube-shaped vessels and the unifying pipe-shaped vessels may not exceed 150 millimeters

In the proposed fire extinguishing system of a high-rise building or structure, the volume of the tank for the fire extinguishing composition can provide double fire extinguishing in a room with a volume of at least the volume of the largest protected room.

The achievement of the technical result is associated with the following.

In the proposed fire extinguishing system of a high-rise building or structure, the volume of the container for storing the fire extinguishing composition can be very large, since the specified capacity is formed by a large number of interconnected tube-shaped vessels having lengths close in magnitude to the height and transverse dimensions of the high-rise building or structure (these lengths can be, for example, several tens or hundreds of meters). Therefore, there are practically no restrictions on the amount of stored fire extinguishing composition, which dramatically increases the efficiency of fire extinguishing, especially large-scale ones.

This determines the absence of the need for the use of large diameter vessels for the storage of fire extinguishing agents.

Due to the fact that the diameters of the storage and unifying vessels are relatively small, their design and the design of the elements of their fastening in a building or structure are not complicated and they have a small cost.

Due to the fact that the supply of the extinguishing agent to the room to be protected occurs immediately from a number of directions from several nearby tube-shaped vessels, very large (for example, up to several tens of kilograms per second) flow rates of the extinguishing agent provided are relatively small (for example, about 150 mm) the diameters of the individual specified storage and unifying tube-shaped vessels. This provides a very fast localization of the fire and its highly efficient quick fire extinguishing, including in large-volume rooms, in particular, having significant openings in the building envelope. This leads to a significant reduction in fire damage.

It was noted above that in the proposed fire extinguishing system, the diameters of the storage and unifying tube-shaped vessels can be small, in particular, their diameters can not exceed 150 millimeters. In accordance with regulatory documents (Rules for the design and safe operation of vessels operating under pressure PB 10-115-96. Gosgortekhnadzor of Russia. Clause 1.1.3), accumulative and combining vessels with diameters of not more than 150 millimeters are not subject to registration with the Gosgortekhnadzor. This confirms the high reliability of the operation of such vessels of small diameter and, accordingly, the entire proposed fire extinguishing system. Installation, testing and commissioning of the proposed fire extinguishing system are also simplified.

No special measures for servicing the indicated storage and unifying tube-shaped vessels of small diameter are required, which determines the simplicity of operation of the proposed fire extinguishing system.

The inclusion of storage and unification vessels in the supporting frame of a building or structure simplifies the design and reduces the cost of the supporting frame and fire extinguishing system.

The drawing shows one of the design options of the proposed fire extinguishing system of a tall building or structure, where it is indicated:

1 - high-rise building or structure,

2 - protected premises on the floors of a building or structure,

3 - sealed container for storing fire extinguishing composition under high pressure,

4 - cumulative tube-shaped pressure vessels,

5 - unifying tube-shaped pressure vessels,

6 - pipelines for the supply of extinguishing agent to the protected premises (with exhaust nozzles),

7 - valves (locking and starting devices),

8 - sensors of the ignition detection system,

9 - means for maintaining pressure in the tank 3 for storing the extinguishing agent, comprising recharge means to compensate for leaks of the extinguishing agent,

10 - refueling agent extinguishing composition of the tank 3 for storing the extinguishing composition,

11 - valves to ensure complete filling of the sealed container 3 with a fire extinguishing composition,

12 - pressure sensor extinguishing composition in a sealed container 3.

The proposed fire extinguishing system of a high-rise building or structure 1, on the floors of which the protected rooms 2 are located, contains a sealed container 3 for storing the extinguishing agent under high pressure, pipelines 6 for supplying the extinguishing agent to the protected rooms 2, means 9 for maintaining pressure in the container 3 for storing the extinguishing agent

Moreover, the storage tank 3 for the extinguishing agent is made in the form of a system of interconnected storage tube-shaped vessels 4 of high pressure, located mainly along the vertical and horizontal axes of the building or structure 1 along the entire height of the floors of the building or structure, on which there are protected rooms 2, and connections between the storage tube-shaped vessels 4 are made in the form located mainly on each floor of the building or structure 1 of the unifying tube-shaped vessels 5 high d phenomena, while the pipelines 6 for supplying the extinguishing agent to the protected premises 2 are connected via valves (locking and starting devices) 7 to the vessel 3 for storing the extinguishing agent, and the fire extinguishing system is equipped with a means 10 for filling the extinguishing agent with the composition of the vessel 3. Moreover, there is a feeding device for compensating for leaks extinguishing agent from the tank 3 for storing the extinguishing agent included in the means 9 for maintaining pressure in the vessel 3.

In the proposed fire extinguishing system, the storage tube-shaped vessels 4 and the connecting pipe-shaped vessels 5 form part of the supporting frame of a tall building or structure 1.

Moreover, in the proposed fire extinguishing system of a high-rise building or structure 1, the diameters of the storage tube-shaped vessels 4 and the unification pipe-shaped vessels 5 do not exceed 150 millimeters.

The volume of the extinguishing agent contained in the tank 3 provides at least two times to extinguish the fire in any protected room with a volume of at least the volume of the largest protected room 2.

Through pipelines 6 and valves 7, the extinguishing agent is supplied to the protected premises 2, in which a fire is detected using the sensors 8 of the ignition detection system.

The means 9 for maintaining the pressure in the tank 3 for storing the extinguishing agent, containing make-up means for compensating for leaks of the extinguishing agent from the vessel 3, is connected and disconnected from the vessel 3 (means 9, for example, may contain a movable high-pressure vessel with a supply of extinguishing agent). To connect the means 9 on the tank 3 there is a valve for connecting and disconnecting it without violating the tightness and pressure loss in the tank 3.

The means 10 for refueling the container 3 for storing the extinguishing agent is made to be connected and detachable from the container 3 (the means 10, for example, may contain a movable high-pressure vessel with a supply of extinguishing agent necessary to create an operational supply of extinguishing agent in the vessel 3). To connect the means 10 on the tank 3 there is a valve for connecting and disconnecting it without violating the tightness and pressure loss in the tank 3.

To completely fill the internal volume of the tank 3 with a fire extinguishing composition, valves 11 are attached to the non-flowing sections of the tank 3 on the one hand, and to the atmosphere on the other hand.

In the proposed fire extinguishing system, various extinguishing compounds can be used: inert gases (such as nitrogen, argon, carbon dioxide, gas mixtures based on them, for example argovite, energetic), freons (not affecting the ozone layer, for example, 223еа type freon), water under pressure, etc.

The proposed fire extinguishing system of a tall building or structure works as follows.

In the initial state, the valves 7 and valves 11 are closed.

Open the valves 11 and fill the cavity of the sealed container 3 with a fire extinguishing composition under atmospheric pressure using the filling agent 10 connected at the time of filling, while filling the dead ends and the volumes of the tank 3 by opening and closing the corresponding valves 11. Close the valves 11. Increase the pressure in the sealed capacity 3 for storing extinguishing agent to a predetermined one, while the required supply of extinguishing agent is created inside the container 3. Disconnect the refueling means 10 while maintaining the tightness of the container 3.

Include a fire detection system and its sensors 8.

From this moment, the proposed fire extinguishing system is in standby mode.

To check the amount of pressurized extinguishing composition in the tank 3, the pressure in the tank 3 is monitored using a pressure sensor 12.

If necessary (this is determined by the pressure drop in the tank 3 to the minimum allowable) to compensate for leaks of the extinguishing agent, a means 9 for maintaining pressure in the vessel 3 for storing the extinguishing agent, including a make-up device to compensate for leaks of the extinguishing agent, is connected to the vessel 3 and, after filling the losses of the extinguishing agent composition turn it off while maintaining the tightness of the tank 3.

If a fire (fire) is detected by the sensor 8 in the protected room 2, the corresponding valve (shut-off and start-up device) 7 is opened, and the fire extinguishing composition is supplied with a large mass flow rate through pipelines 6 with nozzles to the corresponding protected room 2. A large mass flow rate of the fire extinguishing composition is provided for due to the large total bore section of the accumulating 4 and unifying 5 tube-shaped vessels leading it. A large amount of the extinguishing agent supplied to the fire source is provided due to the large total amount of the extinguishing agent accumulated inside the vessel 3. In this case, the fire extinguishing composition immediately comes first from several nearby accumulative 4 and unifying 5 tube-shaped vessels, and then from all the accumulating 4 and unifying 5 vessels that form the capacity 3. Due to the high mass flow rates and a large supply of extinguishing agent, a quick and complete fire extinguishing, including large-scale, takes place. After extinguishing, close the corresponding valve (locking and starting device) 7.

After extinguishing the fire to bring the fire extinguishing system to its original state and putting it back into standby mode, the extinguishing agent spent on extinguishing in tank 3 is refilled by connecting refueling means 10 to tank 3 (as described above).

It should be noted that the proposed fire extinguishing system can continue to protect the building during the repair, while it is being mothballed, etc., when, as experience shows, there is an increased risk of fire.

Claims (4)

1. The fire extinguishing system of a high-rise building or structure, containing a sealed container for storing a fire extinguishing composition under high pressure, pipelines for supplying a fire extinguishing composition to the protected premises, a means of maintaining pressure in a storage tank of a fire extinguishing composition, characterized in that the storage tank for the fire extinguishing composition is made in the form systems of interconnected storage tube-shaped pressure vessels, located mainly along the vertical or horizontal axes of the building whether the structures along the entire height of the floors of the building or structure on which there are protected premises, and the connections between the accumulating tube-shaped vessels are made in the form of predominantly pipe-shaped pressure vessels located on each floor of the building or structure, while the pipelines for supplying the extinguishing agent to the protected premises are connected through valves with a capacity for storing the extinguishing agent, and the fire extinguishing system is provided with a recharge means to compensate for leaks of the extinguishing agent its composition, connected to a container for storing fire extinguishing composition. 2. The fire extinguishing system of a high-rise building or structure according to claim 1, characterized in that the storage tube-shaped vessels and connecting pipe-shaped vessels are part of the supporting frame of a high-rise building or structure. 3. The fire extinguishing system of a tall building or structure according to claim 1, characterized in that the diameters of the storage tube-shaped vessels and connecting pipe-shaped vessels do not exceed 150 mm. 4. The fire extinguishing system of a high-rise building or structure according to claim 1, characterized in that the volume of the tank for the fire extinguishing composition provides double fire extinguishing in a room with a volume of not less than the volume of the largest protected room.