RU2029580C1 - Fire extinguishing installation - Google Patents

Abstract

FIELD: fire extinguishing facilities. SUBSTANCE: installation has hermetically sealed reservoir 1 for high-fluidity gases and additional vessels 2, 3 partially filled with liquid and series-connected in lower part. Vessels are installed between gas reservoir at one side and shutoff-and-starting devices 4 and charging device 5 at other side. One of vessels, in its upper part, is connected in parallel with reservoir, and other vessel on, which level indicator 6 is installed, communicates through air cushion with charging device 5, shutoff-and-starting devices 4 and gas and air sources. Pressure in system is built by charging device and is measured by pressure gauge 7 which serves to calibrate level indicator into pressure indicator. Gas and air are supplied and cut off by shutoff valve 8. EFFECT: enhanced reliability owing to prevention of leakage of high-fluidity gases. 5 dwg

Description

 The invention relates to fire fighting equipment, and in particular to fire extinguishing installations, intended for long-term storage of gases of increased fluidity under pressure, used as a fire extinguishing agent.

 Known cylinders according to GOST 949-73, equipped with a manual shutter-type diaphragm head type KVB-53, are designed for storing gases of increased fluidity, in particular helium. Such cylinders provide reliable storage of gases with increased fluidity and are used for long-term storage of helium in VAM fire extinguishing systems designed to extinguish fires on ships and adopted by us as a prototype (1). The installation consists of batteries, including up to 32 cylinders filled with helium. However, as operating experience has shown, shut-off devices of the KVB-53 type do not provide reliable long-term storage of gases with increased fluidity (there have been cases of gas leakage).

 The aim of the invention is to eliminate this drawback, reducing leaks of gases of increased fluidity during their long-term storage, increasing reliability and improving the performance of the installation.

 This goal is achieved by the fact that the installation is equipped with two vessels connected in series in the lower part, partially filled with a hydraulic lock forming liquid and located between the gas storage tank and locking-starting and charging devices, while one vessel in the upper part is connected to the gas storage tank, and the second vessel, on which the level (pressure) indicator is mounted, communicates through the air cushion formed in it with charging and locking-starting devices.

 The invention meets the criterion of "novelty", because it differs from the prototype by significant features - the use of additional vessels in the installation, partially filled with liquid, forming a water lock. The vessels are located between the gas storage tank and the locking-starting and charging devices, with one of the vessels in the upper part connected to the gas storage tank, and the second, on which the level (pressure) indicator is mounted, communicates through the air cushion formed in it , with charging and locking and starting devices.

 The constant presence of a hydraulic lock eliminates gas leaks, and the use of a level indicator with a pressure scale allows you to control the leakage of gas (or air) from this tank and pump it in a timely manner and return the level indicator (pressure) to its original position, thereby ensuring reliable storage of fluid gases in a container under a given pressure.

 In FIG. 1 schematically shows the installation before the process of charging gas with increased fluidity; figure 2 is the same during charging with gas; figure 3 - the same, at the time when it is necessary to pump the vessel 2 with air; figure 4 - standby installation after pumping with air; figure 5 - installation during the issuance of gas in a protected room.

 The installation contains a sealed container 1 for storing fluid gases, such as helium, and additional vessels 2 and 3, partially filled with liquid, connected in series in the lower part. Vessels are installed between the gas storage tank on the one hand and the locking-starting devices 4 and the charging device 5 on the other, while one of the vessels in the upper part is connected in parallel with the tank, and the second, on which the level (pressure) indicator 6 is mounted through an air cushion with a charger 5, locking and starting devices 4 and sources of fluid gas (helium) and air (not shown). The pressure in the system is created by the charger and measured by a pressure gauge 7, which serves to graduate the level gauge into a pressure gauge. Supply and shutdown of gas and air is carried out by a shut-off valve 8.

 Installation works as follows.

 To charge the tank 1 with a gas of increased fluidity (see Fig. 1), using a shut-off valve 8, a gas source is opened, which rushes into the vessel 2 through the charger 5, which creates excess pressure, while all the liquid from the vessel 2 is transferred to the vessel 3 ( see figure 2). The gas, passing through the liquid layer of the vessel 3, fills the tank 1. The vessel 2 is also filled with a gas of increased fluidity. Upon reaching the pressure at which the gas of increased fluidity, which is determined by the pressure gauge 7, is stored in the tank, the shut-off valve 8 is closed.

 In the event of a gas leak from the vessel 2, the liquid from the vessel 3 under the influence of gas pressure in the tank 1 is moved into the vessel 2 (see figure 3) to a certain level. The increase in liquid level is monitored by a level 6 indicator (pressure). Upon reaching an acceptable limit level at which part of the liquid will still be in the vessel 3, which guarantees the safety of the gas in the cylinders 1, the vessel 2 is pumped with air. To do this, using the valve 8 open the air source. The air pumping of the vessel 2 is carried out until the liquid level in the vessel 2 drops to a predetermined level, controlled by pointer 6. The part of the liquid remaining in the vessel 2 eliminates the possibility of air entering the pumping tank 2 (see Fig. 4).

 To release the gas of increased fluidity to the fire source, shut-off and start-up devices 4 are opened; in this case, as the air exits the vessel 2, the liquid in the vessel 3, under the gas pressure in the vessel 1, will completely pass into the vessel 2, and the gas from the vessel 1 through the liquid in the vessel 2 will rush to the fire (see Fig. 5).

 The technical and economic effect of the invention, which allows to eliminate the leakage of gases of increased fluidity, used as a fire extinguishing agent in fire extinguishing installations and subject to long-term storage, is to increase the reliability of the installations by maintaining the amount of gas required to extinguish a fire under a given pressure, i.e. in improving the main indicator of the performance of fire extinguishing installations.

Claims (1)

 FIRE FIGHTING INSTALLATION, including a gas storage tank, a charger connected to a gas and air source, and locking and starting devices, characterized in that, in order to increase reliability by eliminating leaks of gas of increased fluidity, for example helium, during its long-term storage , the installation is equipped with two vessels connected in series in the lower part, partially filled with a hydraulic lock forming liquid and located between the gas storage tank and locking-starting and charging devices E, with one receptacle in the upper part is connected to the gas storage vessel and the other vessel is connected via a conduit located above the liquid level, with a charging and shut-triggering devices.

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