WO2022025797A1 - Fire extinguishing module - Google Patents

Abstract

The invention relates to total flooding fire extinguishing devices utilizing a liquid fire extinguishant. The claimed fire extinguishing module comprises a housing filled with a fire extinguishant under excess pressure, said housing having a fastening assembly in its upper part and a release device in its lower part, said release device being configured in the form of a vertically oriented nozzle with branches for a safety valve and a pressure sensor for measuring the pressure inside the housing. The module is provided with two syphon tubes mounted vertically inside the housing, wherein the housing has a spherical shape. The fire extinguishant is contained inside the housing in a liquid state, with a gas zone being formed above the fire extinguishant. Each branch is configured in the form of a channel in the wall of the nozzle, the inlet region of the channel being situated at the upper end of the nozzle. A syphon tube is mounted in the inlet region of each branch, the upper end regions of the syphon tubes being situated in the gas zone. The invention makes it possible to use different fire extinguishants in the module, including liquefied gas and a liquid. In addition, the fire extinguishing module is characterized by an optimal ratio of the mass of the reservoir to the mass of the fire extinguishant contained therein.

Description

FIRE EXTINGUISHING MODULE

The invention relates to fire fighting equipment, and more specifically to stationary automated devices for volumetric extinguishing by means of an extinguishing agent located in a tank under constant pressure, and can be used for volumetric extinguishing of class A, B fires and electrical equipment.

From the prior art, a fire extinguishing module with a finely dispersed fire extinguishing liquid is known, including a round-shaped sealed case equipped with a liquid fire extinguishing agent, in the upper part of which there is a bracket for mounting the module above the protected area, and in the lower part it is equipped with a neck with an irrigation means, see patent for invention , RU, cl. А62С 35/00, N°2607967, published 01/11/2017. A disadvantage of the known fire extinguishing module is the weighted thick-walled body structure with two pole flanges and a gas generating device that creates increased pressure at the time of launch. A fire extinguishing module is known, including a double-necked cylinder operating under pressure, in each neck of which a shut-off and starting device is installed, the inlets of which are connected, respectively, to the gas and liquid phases of the double-necked cylinder by means of a siphon tube, see, utility model patent, RU, cl. А62С 35/00, N° 108982, published on 10.10.2011, or a patent for an invention RU, cl. А62С 35/00, N°2461402, published on 09/20/2012, A disadvantage of the known devices is the two-neck design of the cylinder, which makes it impossible to use them in a vertically oriented position suspended from the ceiling (vertical and ceiling), even if there are two siphon tubes.

A gas fire extinguishing module is known, including a housing filled with a fire extinguishing agent with a mount in the upper part, located in the lower part of the housing, a shut-off and starting device containing a pressure sensor in the housing, a destructible glass bulb and a safety valve with a bursting membrane, while a bypass channel is made in the safety valve for communication of the body cavity with the atmosphere, see utility model patent RU, cl. А62С 35/02, N°166375, published 11/20/2016. This well-known device is taken as a prototype, as the closest analogue in terms of technical essence and the achieved result. Fire extinguishing module according to the prototype, it is characterized by ease of installation / dismantling of the module at the facility, ease of maintenance and operation.

The disadvantage of the prototype is the impossibility of using it as a fire extinguishing agent of liquefied gas, which is in the tank under excess pressure of its own vapor or propellant gas, or liquid (water, water with additives) under excess pressure of the propellant gas. The reason for this limitation is the provisions of regulatory documents that, for safety reasons, do not allow the location in the liquid zone of the fire extinguishing agent of the input elements of the membrane safety device and pressure control. In addition, the shape of the housing of the gas fire extinguishing module according to the prototype is not optimal in terms of weight and size characteristics, which reduces the efficiency of the module. The above disadvantages of the prototype call into question the possibility of a guaranteed reliable achievement of a functional result when it is used on a number of objects, which significantly limits the scope of the module.

The invention is aimed at achieving a technical result, which is expressed in providing the possibility of using various fire extinguishing agents in the fire extinguishing module, including liquefied gas and liquid. In addition, the fire extinguishing module is characterized by an optimal ratio of the mass of the tank and the extinguishing agent contained in it. Ultimately, the specified technical result allows to significantly expand the scope of the module, increase the efficiency of its use. The invention preserves as much as possible all the positive properties of the prototype, the most important of which are reliability and ease of use.

The specified technical result is achieved by the fact that the fire extinguishing module, which includes a housing filled with an overpressure fire extinguishing agent with an attachment point in the upper part, a shut-off and starting device located in the lower part of the housing, made in the form of a vertically oriented fitting with outlets for the safety valve and pressure sensor in the housing, differs from the prototype in that it is equipped with two siphon tubes vertically installed inside the housing. The body itself has a spherical shape, and the fire extinguishing agent is in the body in a liquid state with the formation of a gas zone above it. Each outlet is made in the form of a channel in the wall of the nozzle, the inlet section of which is located on the side of the upper end of the nozzle, while in the inlet a siphon tube is installed in the section of each outlet. The upper end sections of the siphon tubes are located in the gas zone. Optimal from the point of view of achieving the specified technical result is the installation of siphon tubes by means of a threaded connection in the inlet section of each outlet, diametrically opposite from the upper end of the fitting, and their manufacture is made of copper, 0.9-10.95 high of the inner diameter of the body.

It is advisable to make L-shaped outlet channels. It is preferable to use freon as a fire extinguishing agent. In all cases of implementation of the module, the gas zone may contain nitrogen.

Self-contained fire extinguishers, in which fire extinguishing agents are under excess pressure of their own vapors or propellant gas, are devices of constant readiness, as well as multiple use, which is the reason for the need for constant monitoring of their condition.

The invention is based on the principle of universality of the fire extinguishing module when choosing a protected object and interchangeability when selecting the fire extinguishing agent used in it. Depending on the type of protected object, climatic and other conditions, the choice of fire extinguishing agent is selected according to the mass, type and type of extinguishing agent. The possibility of using a liquid extinguishing agent in a fire extinguishing module suspended from the ceiling imposes a number of design restrictions and requirements. It is necessary to ensure the maximum completeness and speed of displacement of the liquid fire extinguishing agent from the tank, as well as accessibility during the inspection check of the readiness of the module. Both of these tasks are solved by locating the shut-off and starting device with a safety valve and a pressure sensor at the lowest point of the housing.

The body of the module makes up the bulk of its passive weight. Reducing the weight of the housing improves the operational and economic characteristics of the fire extinguishing module. The spherical shape of the hull has two (unique) remarkable properties: the sphere is an equal-strength shape when loaded with internal pressure, and therefore the wall thickness of the spherical hull will be the same everywhere and the minimum required; sphere, in comparison with other forms, is characterized by a minimum ratio of its surface area to internal volume, which provides the maximum volume of fire extinguishing agent with a minimum weight corps. In addition, the single-flange design (only one neck in the body) also reduces the passive weight of the body.

The extinguishing agent 2 fills almost the entire volume and is in the housing 1 in the liquid phase under excess pressure relative to the environment. The pressure level is not a constant value and depends on many factors, including the room temperature. The pressure drops of the liquid and gaseous medium are perceived differently by the sensitive elements of the safety valve and the pressure sensor, so when the latter are placed in a liquid medium, their unauthorized operation and premature loss of performance, as well as the blocking of access channels by solid particles of sediment, are likely. The presence of siphon tubes, the upper end sections of which are located in the gas zone, excludes the contact of the sensitive elements of the safety valve and the pressure sensor with the liquid medium.

The location of the inlet sections of the outlets from the side of the upper end of the fitting, and the L-shaped channels - in the wall of the fitting (outside the drain neck) reduces the hydraulic resistance when the fire extinguishing agent flows out of the housing and increases the speed of the module. Installation of copper siphon tubes in the inlet sections of the outlets by means of a threaded connection diametrically opposite i.e. at the maximum distance from each other greatly simplifies the installation of the tubes themselves, as well as access to the safety valve and pressure sensor when performing inspections and recharging the module. The implementation of the height of the siphon tubes in the range of 0.9 ^ 0.95 of the inner diameter of the body is guaranteed to ensure that the upper end sections of the siphon tubes are always located in the gas zone, which prevents the liquid freon from entering the safety valve and pressure sensor when the module is tilted or moved Structural diagram of the fire extinguishing module according to the invention maximizes the scope of its application in conditions of repeated and long-term use. Thus, all distinctive features of the fire extinguishing module from the prototype are aimed at obtaining and are sufficient to achieve the technical result, namely, the use of liquefied gas or liquid in the module as a fire extinguishing agent, while ensuring optimal weight and size characteristics. The fire extinguishing module, characterized by the described set of essential features, is new, industrially applicable and has an inventive step.

The technical solution is illustrated by drawings. In FIG. 1 shows a general view of the fire extinguishing module; fig. 2 - shut-off and starting device with a safety valve and a pressure sensor.

The fire extinguishing module contains a housing 1 in the form of a regular sphere (in the figure 1, the inner diameter of the housing is indicated by the symbol 0), filled with a fire extinguishing agent 2, which is under excess pressure relative to the environment. The extinguishing agent 2 is in the housing 1 in the liquid phase and fills almost the entire volume. Freon 125 (HFC-125) or freon 227 (HFC-227ea, FM-200) was used as a fire extinguishing agent. In the upper part of the body 1, not filled with a fire extinguishing agent in the liquid phase, a gas zone 3 is formed, filled with saturated vapors of the fire extinguishing agent and a propellant gas, which is nitrogen. In the lower part of the housing 1 there is a pole hole formed by a flange, in which, by means of a threaded connection, a shut-off and starting device 4 is mounted, made in the form of a vertically oriented fitting, the longitudinal axis of which is aligned with the vertical axis of the sphere. Branches 5 and 6 are made in the nozzle wall, each of which is an L-shaped bypass channel. Outlet section (short arm L- shaped channels) branch 5 is connected with the safety valve 7, and the outlet section of the branch 6 is connected with the pressure sensor 8. The input sections (long arm of the L-shaped channels) branches 5 and 6 are located on the side of the upper end 9 of the fitting. The body 1 has two vertically oriented copper siphon tubes 10 and 11, identical in shape. 10 and 11 are made open and located in the gas zone 3. The siphon tube 10 is installed in the inlet section of the outlet 5, and the siphon tube 11 is installed in the inlet section of the outlet 6. Thus, the siphon tube 10 communicates the gas zone 3 with the safety valve 7, and the siphon tube tube 11 communicates gas zone 3 with pressure sensor 8. At the same time, siphon tubes 10 and I are oriented diametrically opposite relative to the center of the upper end 9 of the fitting, i.e. separated from each other as far as possible. The height of each siphon tube 10.11 from the upper end 9 of the fitting to the upper end section in the gas zone 3 is 0.9-10.95 of the inner diameter (0) of the body

one. The shut-off and starting device 4 of the fire extinguishing module is equipped with a shut-off poppet valve 12, based on a destructible glass flask 13, a sprayer 14, a pyro-pusher 15. In the safety valve 7, which communicates the internal cavity of the housing 1 with the atmosphere, a bursting disc 16 is installed, made of aluminum foil and hermetically blocking the flow area of the safety valve 7. Pressure sensor 8 is designed for continuous measurement of the pressure level in the housing 1 and is a pointer or electronic signaling pressure gauge equipped with an electrical contact connector for transmitting readings via wired or wireless to a remote control point.

In the upper part of the housing 1, on its outer surface, there is a fastening unit 17, designed to suspend the fire extinguishing module from the ceiling surface of the protected object.

The fire extinguishing module functions as follows.

The equipped module is permanently mounted by means of the mount 17 on the object to be protected, mainly on the ceiling, above the place of the most probable fire. The electrical connector of the pyro pusher 15 is connected to the circuit electric start, after which the fire extinguishing module comes into operation.

The extinguishing agent 2 fills almost the entire volume and is in the housing 1 in the liquid phase at a pressure of 1.6 MPa. The pressure level is not a constant value and depends on many factors, including the room temperature. During the entire process of being at the object to be protected, the pressure sensor 8 measures the pressure level in the gas zone 3 of the housing 1 through the siphon tube 11 and the outlet 6. When the pressure in the gas zone 3 of the housing 1 rises above the permissible value determined by the safety requirements and operation of the product , the bursting membrane 16 of the safety valve 7 is destroyed and the gas escapes through the siphon tube 10 and the outlet 5 into the atmosphere, thereby releasing the critical pressure and preventing the rupture of the housing 1.

When primary signs of a fire occur, the gas fire extinguishing module is launched. On the pyro-pusher 15 through the electrical connector is supplied from the operator's control panel or from the automatic system, an electrical impulse with a current strength of 0.1 to 1A. When triggered, the pyro pusher 16 acts on the destructible glass bulb 13, which, when broken, releases the shut-off poppet valve 12 of the shut-off and starting device 4. The glass bulb 13 is filled with a thermosensitive liquid with a high coefficient of linear expansion and self-destructs under the influence of a certain temperature, starting the module in offline mode. After the destruction of the flask 13, the poppet valve 12 moves under the action of excess pressure inside the housing 1 and releases the passage of liquid through the atomizer 14, the fire extinguishing agent 2 flows out to the source of ignition. The module is equipped / re-equipped more than 10 times according to special regulations with strict observance of the norms and the mode of filling housing 1 with fire extinguishing agent 2. Freon extinguishing agent is safe and non-conductive, does not have a harmful corrosive and chemical effect on metals, plastics and electrical equipment, and danger to people.

The advantage of the fire extinguishing module according to the invention is its reliability and efficiency. The operation of such a module is economically and technically not associated with significant costs. The module is recommended for use in any premises, its performance has been confirmed by tests. Reflected in the description and drawings, examples of the implementation of the fire extinguishing module are not exhaustive, they are given in order to confirm its industrial applicability.

Claims

Claim

1. The fire extinguishing module, which includes a housing filled with a pressurized fire extinguishing agent with a mount in the upper part, located in the lower part of the housing, a shut-off and starting device, made in the form of a vertically oriented fitting with outlets for a safety valve and a pressure sensor in the housing, characterized in that that it is equipped with two siphon tubes vertically installed inside the housing, the latter having a spherical shape, the fire extinguishing agent is in the liquid state in the housing with the formation of a gas zone above it, each outlet is made in the form of a channel in the wall of the fitting, the inlet section of which is located on the side at the top end of the fitting, a siphon tube is installed in the inlet section of each outlet, while the upper end sections of the siphon tubes are located in the gas zone.

2. The module according to claim 1, characterized in that the siphon tube is installed in the inlet section of each outlet by means of a threaded connection.

3. The module according to claim 2, characterized in that the siphon tubes are installed diametrically opposite in the inlet sections of the outlets from the side of the upper end of the fitting.

4. Module according to claim 3, characterized in that the siphon tubes are made of copper.

5. The module according to claim 4, characterized in that the height of the siphon tube is 0.9-10.95 of the inner diameter of the housing.

6. The module according to claim 5, characterized in that the outlet channels are L-shaped.

7. Module according to claim 6, characterized in that the fire extinguishing agent contains freon.

8. Module according to paragraphs. 1-7, characterized in that the gas zone contains nitrogen.