RU2754439C1 - Shut-off and starting device of high-speed automatic fire extinguishing system - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to fire-fighting equipment and can be used in industrial and civil facilities with an increased fire hazard to localize fires and surface or local-surface extinguishing with water or air-mechanical foam of fires in buildings, structures and open technological sites at objects of the 1st hazard class, in particular at flammable polymer and pyrotechnic product manufacturing facilities. The shut-off and starting device of the automatic fire extinguishing system contains a pipeline for supplying the extinguishing agent and at least one means of distributing the extinguishing agent over the zones of possible ignition or fire, the shut-off and starting device is made with an electromagnetic drive for opening the outlet of the extinguishing agent from the means of distributing the extinguishing agent and contains a permanently installed electromagnetic lock with a lock anchor, pivotally installed and attracted to the lock anchor by magnetic forces when electric current is applied to the electromagnetic lock, the clamping bar and the clamp mated with the clamping bar with a plug for the outlet of the extinguishing agent from the fire extinguishing agent distribution means, made with the possibility of opening the exit of the extinguishing agent from the fire extinguishing agent distribution means when the clamping bar and the clamp with a plug are released at the moment of opening the electromagnetic lock.

EFFECT: increased efficiency of fire extinguishing.

11 cl, 4 dwg

Description

Technology area

The invention relates to fire fighting equipment and can be used at industrial and civil facilities with an increased fire hazard for the localization of fires and surface or local-surface extinguishing with water or air-mechanical foam fires in buildings, structures and open technological sites at the facilities of the 1st hazard class, in particular in the production of flammable polymer and pyrotechnic products.

State of the art

Fire extinguishing devices, depending on the composition of the extinguishing agent and the method of its supply to the place of fire, are subdivided into: water fire extinguishing systems; water mist fire extinguishing systems; foam fire extinguishing systems; powder fire extinguishing systems; gas fire extinguishing systems; aerosol fire extinguishing systems.

Powder, gas and aerosol fire extinguishing systems are of limited use and are mainly used to extinguish fires in small areas and in sealed rooms or to extinguish fires in server rooms, power plants, in laboratories where aggressive chemicals that violently react with water are stored.

The most common fire extinguishing agent for protecting premises and buildings is water, as it is readily available and has good cooling and fire extinguishing properties. In addition, water-based fire extinguishing systems are the least difficult to install, design and use. In this regard, the most widespread are water fire extinguishing systems, fire extinguishing systems with water mist and foam fire extinguishing systems.

Water-foam fire extinguishing is one of the forms of water fire extinguishing, with the only difference that these installations use a solution of a foaming agent in water.

According to GOST R 50680-94, water fire extinguishing installations are automatic. according to the type of sprinklers, they are divided into sprinkler and drencher. Sprinkler installations are divided into water-filled, air, water-air. Deluge installations by type of drive are divided into electrical, hydraulic, pneumatic, mechanical, combined.

The most important parameter of automatic fire extinguishing installations is the response time - the time from the moment the installation accepts the fire factor until the beginning of the outflow of the fire extinguishing agent from the most remote and high-lying sprinkler of the installation.

According to the response time, automatic fire extinguishing installations according to GOST R 50680-94 are subdivided into high-speed ones - with a response duration of no more than 3 seconds; medium-inertial - with an actuation duration of no more than 30 seconds and inertial - with an actuation duration of more than 30 seconds, but no more than 180 seconds.

Sprinkler fire extinguishing devices consist of sprinklers (sprinklers) installed in a pipeline in which water or air is under pressure. The principle of operation of sprinkler systems is based on pressure drops in the system during a fire. In the event of a fire, the temperature in the room rises, and when a certain temperature is reached above the fire site, temperature-sensitive elements are triggered and water or a water-foam solution begins to escape from the pipeline to the outside, the pressure in the system drops, then the fluid control unit in the pipeline is triggered and the pump starts in the pumping station and directly over the seat of the fire, water begins to spray.

Deluge fire extinguishing devices in their structure and principle of operation are in many ways similar to sprinkler ones, but they do not have thermal locks, that is, they are open all the time and more slowly come to operating mode due to the additional time spent on filling the water supply pipelines.

The main difference between sprinkler and deluge fire extinguishing is that with sprinkler fire extinguishing, water is sprayed mainly over the fire site, and with deluge fire mainly throughout the entire volume of the protected room or over the entire protected area.

Sprinkler and deluge fire extinguishing systems are easily accessible, use extinguishing agent economically and are safe for human health. Such water or water foam installations are most often used in places with a mass gathering of people, for example, in shopping and entertainment centers, shops, offices.

Known sprinkler fire extinguishing system containing a network of main and distribution pipelines, constantly filled with a liquid fire extinguishing composition with sprinkler sprinklers, a water source, which is a reservoir with water and a water intake system with a filter and pump, two automatic water feeders, the body of the sprinkler sprinkler is made in the form of a fitting with a through a hole and a threaded part, and a bushing with a filter mesh fixed on it is located in the through hole of the fitting, while the threaded fitting is rigidly connected to the hollow cylindrical bushing by means of an axisymmetric bracket consisting of two vertical volumetric stiffeners and two oblique prismatic ribs rigidly connected to them with an internal thread interacting with a clamping screw, which, through an elastic gasket, presses the glass flask against the poppet valve, while the glass bulb rests on the valve through an elastic gasket attached to the external The end surface of the valve, which is connected by a chain to one of the volumetric stiffeners, and on the other side to the sleeve perpendicular to its axis is attached with screws a spray device in the form of a rosette with a central hole and petals located relative to each other with a gap [RU 2514488 A62C 31 / 02. Publ. 04/27/2014.].

Known sprinkler fire extinguishing system, which consists of a network of main and distribution pipelines, a water source, two automatic water feeders. The water supply source is a water tank and a water intake system with a filter and a pump. The body of the sprinkler sprinkler is made in the form of a cylindrical sleeve with windows on its lateral surface. A baffle is located at the end of the cylindrical sleeve facing the spray device. The spraying device is made in the form of a rosette, which is formed by a part of a spherical surface of thickness "s". The socket is attached to the end surface of the sleeve by means of spokes that are attached to the threaded sleeve. At the other threaded end of the liner, an axially symmetrically fixed fitting for supplying a fire extinguishing agent. The union is fixed to the sleeve with a lock nut. A conical groove is made at the end of the nozzle, which faces the spray device. The groove includes a ball segment - a blocking valve. Glass bulb with one end abuts against the end of the segment, the other against an elastic insert. The insert is located in the center of the partition, in which holes are made for the passage of the extinguishing agent towards the inner surface of the socket. The technical result is an increase in the efficiency of fire extinguishing due to the introduction of fast-acting elements in the common circuit of the automatic fire extinguishing system [RU 2501587 A62C 31/02. Publ. 12/20/2013].

A known fire extinguishing system with a deluge sprinkler, which contains a body in the form of a fitting with a channel and a splitter, fixed on the holders. The body is connected to at least two arcuate holders that hold the sleeve with the splitter fixed to it. The divider is made in the form of a diffuser with a girdle bent towards the base with petals located along the generatrix of the conical surface of the girdle. Inside the divider, there is an additional nebulizer made in the form of a hemisphere. The hemisphere is attached by at least three radial horizontal flat petals to the inner surface of the divider. The axis of the hemisphere coincides with the axes of the through channel of the union and the sleeve, and its inner cavity is directed towards the sleeve. The technical result of the invention is to improve the efficiency of fire extinguishing due to the possibility of forming a uniform fine atomized liquid flow and the introduction of fast-acting elements in the common circuit of the automatic fire extinguishing system [RU 2516641 A62C 31/02 B05B 1/26. Publ. 05/20/2014].

Known installation of fire extinguishing water curtain, which contains the main water feeder with a filter, lowered into the source, and connected to the main pipeline. In addition, the installation contains a make-up system installed parallel to the main water feeder line and including the auxiliary water feeder make-up pipeline and an auxiliary (automatic) water feeder. The control and signaling system includes a control and signaling valve and an alarm device, for example in the form of an audible siren. The main pipeline is connected to a network of distribution pipelines, in which the deluge heads are mounted. Each of the heads is made in the form of a sleeve with an inlet pipe, a valve and a spray element. The body is made in the form of a central sleeve with external hexagonal and internal cylindrical surfaces. An internal thread is made on both end sides of the central sleeve. To one of the end sides, the supply branch pipe is axisymmetrically attached by means of a lock nut. A spraying element made in the form of a sleeve, the inner diameter of which is equal to the inner diameter of the inlet pipe, is attached to the other end side. A rosette is attached to the sleeve by means of arcs located along the conical surface, which is a part of a spherical surface bounded by the inner and outer hemispheres. The center of the hemisphere lies on the line connecting the axes of the central sleeve and the axis of the inlet pipe. At least three grooves are made on the spherical surface from its outer side, the axes of which are located on lines radial with respect to the hemisphere. In the peripheral part of the hemisphere, at least three throttling holes are made, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the inlet pipe. Axially symmetric to the atomizing element, there is a blocking valve made in the form of a ball fixed by a spring located inside the central sleeve to a conical surface made at the end of the inlet pipe facing the atomizing element. The technical result of the invention is to increase the efficiency of fire extinguishing due to the introduction of fast-acting elements in the common circuit of the automatic fire extinguishing system [RU 2482924 V05B 1/04, B05B 1/26, A62C 31/02. Publ. 05/27/2013].

Known deluge fire extinguishing system, which consists of a network of main and distribution pipelines and contains a source of water supply. The pipeline network is filled with a liquid extinguishing agent and contains deluge heads. The water supply source is a reservoir with water, a water intake system with a filter and a pump, and two automatic water feeders. A signal turbine is installed in the main supply line. The deluge head contains a hollow body with a nozzle and a central core. The body of the deluge head is made with a channel for supplying liquid and contains a coaxial, rigidly connected bushing with a nozzle fixed in its lower part. The nozzle is made in the form of a cylindrical two-stage sleeve. The upper cylindrical step of the bushing is threadedly connected to the central core. The core consists of a cylindrical part with a hollow cone. The cone is installed with an annular gap relative to the inner surface of the cylindrical sleeve. The annular gap communicates with at least three radial channels. The annular cavity is connected with the channel of the housing for supplying the liquid. A sprayer is rigidly attached to the cone in its lower part, which is made in the form of an end round plate. On the lateral surface of the cone, rows of cylindrical throttling holes are made with axes lying in planes perpendicular to the axis of the cone. Holes are made in each row. The holes of one row are offset relative to the holes of the other row by an angle lying in the range of 15 ÷ 60 ° [RU 2471523 A62C 31/02 01/10/2013].

Known device for fire extinguishing, containing a housing and a distribution casing with holes, one of which is made in the form of a slot, installed with the possibility of rotation relative to the housing. By rotating the holder, one of the holes is installed opposite the outlet of the housing, providing the required mode of supply of extinguishing liquid to the fire [FR 2309283, B05B 1/20, 1976].

A deluge fire extinguishing device is known containing a rotation unit coupled with a manifold, adapted to be interfaced with a main pipeline for supplying a fire extinguishing agent and with the possibility of free rotation in a collector rotation unit around a vertical axis under the influence of reactive forces from jets of a fire extinguishing agent outflow from a fire extinguishing agent distribution device ... In this case, the fire extinguishing means distribution devices are made in the form of foam generators with the possibility of extinguishing means outflowing from them in a tangential direction relative to the vertical axis of rotation of the collector and imparting torque to the collector. The extinguishing media are attached to the manifold by means of bends along the edges with the possibility of changing the position of the fire extinguishing agent distribution devices relative to the horizontal plane and adjusting the directions of the extinguishing agent outflow streams from them to increase the uniformity of the fire extinguishing agent distribution over the protected surface and increase the area of the protected surface [RU 2577220 A62C 31/00 Publ. 10.03.2016 Bul. No. 7]

. Known automatic fire extinguishing systems, however, they are not effective enough due to the unsatisfactory long duration of the transition to the operating mode and predominantly a one-time on / off mechanism for locking and starting devices.

Known installation of automatic fire extinguishing with automatic start-up of the head of the spray of water, aimed at the source of fire, from the signal of the fire alarm sensor, operating autonomously from the stored volume of water in the storage tank under pressure and used in the process flow of pyrotechnic production of fireworks, lighting rockets, table fountains, Bengal lights, etc. flammable products. The automatic fire extinguishing installation includes a flame sensor connected to the electric igniter control unit of the thermosensitive thread breaker, fixed above the flammable object of protection, and the fire-extinguishing spray head, which is connected to the water supply network pipeline. The novelty is that the electric igniter is installed in a blind receiver tube of the mounting casing in adjoining to a temperature-sensitive thread stretched across, which is closed with a spring-loaded gate of the spray head communicating with a backup water accumulator connected to the network pipeline through a check valve, while the mounting casing is mounted on a vertical support with the possibility of longitudinal displacement [RU 2636009 A62C3 / 00 Publ. 17.11.2017 Bul. No. 32].

Known deluge fire extinguishing installation with mechanical activation, containing a deluge network connected by a pipeline to a feeder with a fire-extinguishing composition, including gate devices, kinematically connected with a tension starting cable equipped with fusible locks, and fusible locks are made in the form of a ring. The starting cable is made of stranded, threaded into the hole of the ring, forming a loop, and is fixed in it by a metal pin threaded between the cable cores. At the end of the starting cable, a light weight is fixed, which interacts when triggered with the left shoulder of the two-armed release lever, releasing a heavy weight resting on the right shoulder of this lever, which, falling, acts on the multi-arm lever made in the installation, which interacts simultaneously with the electric switch and shutter devices of the feeder fire extinguishing agent. The feeder contains, for example, a reservoir with water and a cylinder with carbon dioxide, while the connection of the deluge network, a reservoir with water and a cylinder with carbon dioxide is made in the form of a spray bottle [RU 2428236 A62C35 / 00 Publ. 10.09.2011 Bul. No. 25].

Known installation of automatic fire extinguishing with a controlled irrigation area, containing sprinklers, fire detectors, a shut-off device and a pipeline with extinguishing liquid, characterized in that sprinklers with electric start are used as sprinklers, smoke detectors are analog addressable, and it is also equipped a device for receiving and controlling and controlling a fireman, fire alarm loops and sprinkler control lines [RU 74298 A62C37 / 08 Publ. 06/27/2008 Bul. No. 18].

The RU 74298 installation works as follows: The combustion products formed in the course of local combustion in the form of smoke are captured by one of the analogue addressable smoke detectors. The signal from the triggered fire detector is sent through the communication line to the fire control and control panel. In the device for receiving and control and firefighter control, according to the received signal, the place of fire or fire, the probable direction and speed of fire propagation are determined. Based on these data, the device generates a command about the targeted triggering of a sprinkler (or a group of sprinklers) located above the fire zone. The command to start the sprinkler (s) is given in the form of electrical signals through the control lines. After the temperature-sensitive elements of the sprinkler (sprinklers) are triggered, the extinguishing liquid is supplied through the pipeline to the source of ignition and fire, ensuring its extinguishing through an openable sprinkler (sprinklers).

Known installation of automatic fire extinguishing, containing a pressure main, a distribution pipeline with sprinklers, a hydraulic stimulating line and a shut-off device, including a pressure and deluge chambers and a membrane valve installed on these chambers, the membrane of which is equipped with a central hole of small diameter, and the pressure chamber is made communicating with an incentive cavity of the valve through a central hole of small diameter in the membrane, and the bottom cover of the valve is equipped with through channels extending under the membrane and into the deluge chamber [RU 16077 A62C35 / 00 Publ. 10.12.2000 Bul. No. 34].

Known installation of automatic fire extinguishing, containing a pressure line with a filter, an incentive line with thermal sensors, a calibration valve and a signaling pressure gauge, a deluge line with sprinklers and a shut-off device having a pressure, incentive and deluge chambers connected with the corresponding lines and installed between the pressure and deluge chambers of the valve , while the valve of the shut-off device is made in the form of a spring-loaded elastic membrane, in which a calibrated hole is made connecting the pressure and stimulating chambers of the shut-off device, and the deluge line is equipped with four types of sprinklers: damper with convex, concave and flat working surfaces and centrifugal [RU 12027 A62C37 / 12 Publ. 16.12.1999].

The shut-off device RU 12027, which has a pressure head, stimulating and deluge chambers and a valve installed between the pressure and deluge chambers, is characterized in that the valve is made in the form of a spring-loaded elastic membrane, in which a calibrated hole is made connecting the pressure and stimulating chambers, and the deluge chamber is made of steeply curved bend.

Known is a high-speed sprinkler containing a housing with an outlet closed by a shut-off valve, a control unit for the state of the shut-off valve, which is equipped with a fire sensor that controls the area protected by the sprinkler, and a start unit, and the control unit for the state of the shut-off valve is equipped with an electric start device, and the input terminals of the start unit are connected to the terminals of the fire sensor, and the output terminals are connected to the terminals of the electric start. The control unit for the state of the shut-off valve contains a temperature-sensitive element, and an electric thermal heater is used as an electric start device. A differential thermal fire detector, directional fire detector or flame detector is used as a fire sensor that controls the area protected by the sprinkler, or a fire sensor that controls the area protected by the sprinkler is made with a remote sensing element. The launch unit is located inside the body of the fire sensor, which controls the area protected by the sprinkler. The sprinkler can be additionally equipped with a bracket on which a fire detector is mounted that monitors the area protected by the sprinkler. The launch unit is equipped with additional outputs for communication with electric start devices of other sprinklers, and the fire sensor that controls the area protected by the sprinkler is connected to the launch unit through the control and monitoring device [RU 2014138318 A62C 2/00 Publ. 04/10/2016 Bul. No. 10].

A sprinkler with a resettable lid is known, comprising a supporting body, at least one nozzle, a means for activating the sprinkler, triggered by heat, and a lid that is fixed in a protective position in front of the nozzle for mechanical protection of the means for activating the sprinkler when it being in an inactive mode. The cover is displaced to an opening position, in which it releases the nozzle so that the means for activating the sprinkler is open and the nozzle can, after releasing the means for activating the sprinkler, spray the extinguishing agent while the sprinkler is in active mode. The carrier body contains an inlet for supplying a fire extinguishing agent. In addition, the sprinkler contains a device that is installed with the possibility of displacement relative to the carrier body and which is under pressure of the fluid to be displaced relative to the carrier body and acts on the closure to open it and, therefore, move the lid to the opening position with the opening of the means for introducing the sprinkler into action and with the transfer of the sprinkler to the standby mode, in which the means for activation is not destroyed and is placed with the ability to respond to the effects of heat and ensure the sprinkler is triggered and put it into an active mode [RU 2243798 A62C37 / 00, A62C35 / 68 Publ. 10.01.2005 Bul. No. 1, PCT Application FI 00/00866 (06.10.2000)]

Known lock for sprinklers and thermal release nozzles for spray nozzles, fine spray nozzles and sprinklers with intelligence. On the thermal release lock, which has a nozzle body, an outlet channel and an outlet, a protective plate is fixed by means of a fusible release mechanism. The fusible release mechanism with the ring, in case of use, is disconnected by a heating element installed in the ring, and the outlet opens. A structural element, for example, a Belleville spring, creates the prerequisites for a force to act at the moment of melting of the fusible release mechanism, and the protective plate is forcefully removed from the outlet. The device is triggered in the event of an emergency without power supply [RU 2243798 A62C 37/12 Publ. 08/10/2011 Bul. No. 22, PCT Application IB 2007/052208 (12.06.2007), Publication of PCT Application WO 2008/004142 (10.01.2008)].

Known is a high-speed sprinkler containing a housing with an outlet closed by a shut-off valve, a control unit for the state of the shut-off valve, characterized in that it is equipped with a fire sensor that controls the area protected by the sprinkler and a starting unit, and the control unit for the state of the shut-off valve is equipped with an electric start device, and the input the outputs of the starting block are connected to the outputs of the fire sensor, and the output outputs are connected to the outputs of the electric start. The control unit for the state of the shut-off valve contains a temperature-sensitive element, and an electric thermal heater is used as an electric start device. A differential thermal fire detector, directional fire detector, flame detector, and a remote sensing element are used as a fire detector that controls the area protected by the sprinkler. The launch unit is located inside the body of the fire sensor that monitors the area protected by the sprinkler and is equipped with additional outputs for communication with devices for electric triggering of other sprinklers, while the fire sensor that controls the area protected by the sprinkler is connected to the launch unit through a control and monitoring device [RU 149795 A62C2 / 00 Publ. 01/20/2015 Bul. No. 2].

... Known sprinkler sprinkler high-speed consisting of a fitting, bows, a spring, a cover, a support for a shut-off device, a lever, a cap, a glass thermo-flask, a flow divider, a flow reflector (rosette), an adjusting screw, which has a shut-off device consisting of a lever in the form of a bracket, at of which one end of the bracket contains a hole for a thermowell and is located in the loaded state parallel to the support of the locking device, and the other end of the bracket, on the one hand, has a groove for the support, and on the other, a recess for the adjusting screw, and is located in the loaded state at an angle of 90 ° with respect to to the support, which makes it possible to exclude the possibility of freezing of structural elements during the actuation of the shut-off device, in addition, the parts of the shut-off device, together with the sprinkler bows, reliably protects the thermo-flask from mechanical damage [RU 89400 A62C37 / 080 Publ. 10.12.2009 Bul. No. 34].

Known locking and starting device for fire extinguishing installations in industries characterized by a high degree of fire and explosion hazard, containing a housing with openings for the inlet and outlet of the fire extinguishing fluid, a bursting disc that closes the inlet, a sleeve that encloses the housing and forms, together with it, an annular channel. The housing contains a spring-loaded piston with a rod. The device has a membrane breaker, a gas chamber and a pyro-cartridge charge. Means for destroying the membrane is made in the form of a cable connection, the body is equipped with a manual start device. The piston and manual start device are mounted coaxially in the housing. The annular channel at the outlet is labyrinthine. The membrane is installed from a brittle material, mainly ceramics [RU 2092204 A62C37 / 40 Publ. 10.10.1997].

The closest in technical essence and the achieved result (prototype) is an automatic fire extinguishing system containing a power supply and extinguishing agent supply unit, a monitoring and control unit, a fire detection and extinguishing unit, a main pipeline, a distribution pipeline and includes several irrigation devices with sprinklers with locks and sensitive elements. Each irrigation device contains a fitting with a socket, a shut-off valve with a closed lock with a calibrated hole, fixed on the fitting seat by means of sensitive elements with shape memory, while the lock is fixed on the shut-off valve with a fragile element (rod), clamps with levers are mounted on the rod. Sensitive elements in standby mode have the shape of an arc, one end of which is fixed in a washer on the choke, which can be moved along the choke using nuts, the other is in contact with the valve, and the arc plane is radial to the choke axis. In the critical mode, the sensitive elements acquire a linear shape. The lock of the irrigation device is made in the form of a disk with a shank, while the shank is located above the non-fixed end of one of the sensing elements, and the rod is attached at one end to the sensitive element in the arc zone farthest from the axis of the choke, and with the other end directly to the yoke lever of the adjacent irrigation device [RU 2023457 A62C37 / 08 Publ. 11/30/1994 (prototype)].

A common disadvantage of the prototype and known sprinkler and deluge devices for water and water-foam fire extinguishing of automatic fire extinguishing systems is the insufficient efficiency of fire extinguishing, due to an insufficiently high speed of response and exit to the operating mode of fire extinguishing, mainly by a one-time mechanism for switching on locking and starting devices, as well as explosion protection.

No examples of the design of locking and starting devices of automatic fire extinguishing systems with electromagnetic drives were found in the scope of the search.

Task and technical result

The problem solved by the present invention and the technical result achieved with the use of the invention is to increase the efficiency of fire extinguishing by providing the possibility of automatic supply of the extinguishing agent in less than 3 (three) seconds after the start of the ignition with a given pressure and intensity of supply of the extinguishing agent to the fire zones or to the surface or locally -surface fire source with the provision of the necessary hydraulic parameters of the fire extinguishing system, as well as ensuring the possibility of repeated switching on / off of the locking and starting devices.

Disclosure of invention

The problem is solved and the required technical result is achieved by the fact that the locking and starting device of the means for spraying a fire extinguishing agent of an automatic fire extinguishing system containing a main pipeline for supplying a fire extinguishing agent under pressure and a means for distributing a fire extinguishing agent over zones of possible ignition or fire by spraying or spraying according to the invention is made with an electromagnetic drive for opening the exit of the extinguishing agent from the fire extinguishing agent distribution device at the signal of a fire or fire detector and contains

permanently installed electromagnetic lock with a lock anchor,

a clamping bar pivotally mounted and attracted to the anchor of the lock by magnetic forces when an electric current is supplied to the electromagnetic lock and

a clamp mated with the clamping bar with a plug for the extinguishing agent outlet from the fire extinguishing agent distribution device,

made with the possibility of opening the outlet of the extinguishing agent from the means for distributing the extinguishing agent when the clamping bar is released and the clamp with the plug at the moment of opening the electromagnetic lock.

The clamp is pivotally connected to the plug with the possibility of tight self-installation of the plug at the outlet of the extinguishing agent from the means for distributing the extinguishing agent.

In this case, the locking and starting device contains means for accelerating the opening of the extinguishing agent outlet from the extinguishing agent, made, for example, in the form of a spring installed between the clamp with the plug and the extinguishing agent distribution means, and is configured to automatically open the electromagnetic lock upon the signal of the fire detector or a fire by stopping the supply of electric current to the electromagnetic lock, with the possibility of automatic operation upon a signal from a fire or fire detector for less than 3 seconds and supplying a fire extinguishing agent under pressure to the ignition or fire zone.

A fire or fire detector in an automatic fire extinguishing system can be made in the form of a thermal fire sensor, directional fire sensor, flame detector, smoke detector or sensor with a remote sensing element, with the ability to initiate an electrical control signal.

The shut-off device can be made with the possibility of being installed on the fire extinguishing agent distribution means in the form of a drencher, a sprinkler or a foaming agent, in which the fire extinguishing agent distribution means can contain a nozzle with a spray or a fire extinguishing agent sprinkler in the form of water or an aqueous solution of a foaming agent.

The locking and starting device can be manufactured in an explosion-proof design with the possibility of installation in a fast-acting automatic fire-extinguishing system on the means for distributing the extinguishing agent.

Various known equipment and materials can be used as individual elements, parts, blocks and assemblies using well-known structural, technological and managerial solutions that are usually used in modern fire-fighting technology.

Brief Description of Drawings

FIG. 1 - 4 show drawings of a locking and starting device of a fast-acting automatic fire extinguishing system and a fast-acting automatic fire extinguishing system with locking and starting devices, which show: nozzles with nozzles or sprinklers of a fire extinguishing agent 1 on means for distributing a fire extinguishing agent, plugs 2 extinguishing agent outlets from nozzles with nozzles or fire extinguishing agent sprinklers 1, made in the form of stationary fixed pipes, channels or consoles, means 3 for stationary installation of anchors 5 electromagnetic locks 6, clamping strips 5 mated with clamping strips 5 clamps 4 with plugs 2 extinguishing agent outlets from nozzles with sprayers or sprinklers substances 1, electromagnetic locks 6, anchors 7 electromagnetic locks 6.

FIG. 1 shows a general view of a fast-acting automatic fire-extinguishing system with locking and starting devices for spraying or spraying a fire-extinguishing agent with electromagnetic drives.

FIG. 2 - 4 show the design features of the proposed locking and triggering device for spraying or spraying fire extinguishing agent in a fast-acting automatic fire extinguishing system with electromagnetic drives for locking and starting devices.

Implementation of the invention

The locking and starting device of a fast-acting automatic fire extinguishing system is designed for fast, within no more than 3 seconds, and effective localization of fires and surface or local-surface extinguishing with water or air-mechanical foam of class A fires (solid materials) at industrial facilities of I hazard class , where a quick turn-on with an exit to the operating mode of operation is required up to 3 (three) seconds, which is especially important in fire-explosive industries of highly flammable polymer and pyrotechnic products.

The original design of the locking and starting devices of the fast-acting automatic fire-extinguishing system and the fast-acting automatic fire-extinguishing system with the proposed locking and starting devices in general allow to increase the efficiency of fire extinguishing, that is, ensure the achievement of the required technical result, due to the capabilities:

- automatic detection of foci of ignition by flame detectors (sensors), or thermal locks with the issuance of appropriate control signals to the actuators of systems and devices;

- automatic, in less than 3 seconds, the actuation of locking and starting devices according to the signals of fire or fire detectors with automatic opening of the extinguishing agent outlets from the means of spraying the extinguishing agent

- automatic, in less than 3 seconds, the supply of a fire extinguishing agent in the form of water or a solution of a foaming agent with a given pressure and intensity to the zones where the fire occurs, to the surface or local-surface fire source of a protected class A object (solid combustible materials) in accordance with GOST 27331-87 ;

- ensuring the technologically necessary and optimal hydraulic parameters of the fire extinguishing modes before reaching the operating characteristics of the pumping station due to the initial presence of the extinguishing agent in the pipeline of the extinguishing agent under pressure as a result of ensuring tight fixation of the plugs on the means for spraying the extinguishing agent.

The locking and starting device shown in detail in the drawings (Figs. 2-4) structurally contains:

permanently installed electromagnetic lock 6 with lock anchor 7,

hingedly installed and attracted to the anchor of the lock 7 by magnetic forces when an electric current is supplied to the electromagnetic lock 6, the clamping bar 5 and

mated with the clamping bar 5 clamp 4 with a plug 2 means for spraying or spraying fire extinguishing agent 1,

made with the possibility of opening the outlet of the extinguishing agent from the means for spraying the extinguishing agent when the clamping bar with the plug is released at the moment of opening the electromagnetic lock when the supply of electric current to it is interrupted by the signal of the fire or fire detector.

The locking and starting device of the high-speed automatic fire extinguishing system works as follows:

In the operating standby mode of actuation, an electric current is supplied to the electromagnetic lock of the locking and starting device, which ensures the presence of magnetic forces that attract the clamping bar to the anchor of the electromagnetic lock.

The clamping bar fixed on the anchor of the electromagnetic lock acts on the clamp, which, by means of the plug, tightly closes the outlet of the extinguishing agent from the fire extinguishing agent spraying means, while maintaining the standard pressure in the fire extinguishing agent supply pipelines.

At the signal of a fire or fire detector, made, for example, in the form of a thermal fire sensor, directional fire sensor, flame detector, smoke detector or sensor with a remote sensing element that can function with an accuracy of 0.1 second, it is ensured that the supply of electric current to the electromagnetic lock of the locking and starting device with automatic instantaneous disappearance of magnetic forces in the electromagnetic lock, attracting the clamping bar to the lock anchor.

After stopping the supply of electric current to the electromagnetic lock, it instantly opens, the effect of magnetic forces attracting the clamping bar to the anchor of the lock instantly stops, the clamping bar, under the action of gravity and the reciprocal reaction of the clamp on the hinge, leans back from the anchor and releases the clamp, which in turn allows the plug instantly open the outlet of the extinguishing agent, which, under the influence of internal pressure, begins to spray or spray in the ignition or fire zone, providing quick and effective extinguishing of the fire or fire.

A fast-acting automatic fire extinguishing system with locking and starting devices with electromagnetic drives can be placed over the protected area or protected equipment with attachment to pipelines, structures of walls and floors of the building, consoles or to special supports when placed outside the building.

Full-scale tests of locking and starting devices of a high-speed automatic fire extinguishing system with electromagnetic drives, in particular, and a high-speed automatic fire extinguishing system with locking and starting devices with electromagnetic drives under the name BAPS PURGA in real production conditions for the production of fire hazardous polymer and pyrotechnic products showed a confident solution to the task and the achievement of technical result, namely, an increase in the efficiency of fire extinguishing due to the rapid supply of the required amount of sprayed extinguishing agent with a flow rate of at least 15.2 l / s into the fire or effectively localize and extinguish a fire or fire.

Thus, it has been experimentally proven in real production conditions that all the essential features of the invention are in causal relationship with the technical result obtained from the use of the invention.

Specific design features and operations of the fire extinguishing method were determined experimentally, implemented in the form of real structures and practically tested in the process of field tests, which confirms the possibility of implementing the invention in an industrial way using the attached drawings.

Full-scale tests of the locking and starting device and the system as a whole in real production conditions have shown a confident solution to the task and achieve the required technical result.

The analysis shows that all the general and particular features of the invention are in causal relationship with the required technical result and are essential, since each of them is necessary, and all together they are not only sufficient to achieve the goal of the invention, but also allow the invention to be implemented industrially. way.

Considering the novelty of the totality of essential features, the technical solution to the problem, the inventive step and the materiality of all general and particular features of the invention, proven in the "Prior Art" and "Disclosure of the Invention" section, proved in the "Implementation of the Invention" section, the technical feasibility and industrial applicability of the invention, successful the solution of the posed inventive problem and the confident achievement of the required technical result during the implementation and use of the invention, in our opinion, the claimed technical solution meets all the requirements of patentability for inventions.

Claims (15)

1. A locking and starting device for an automatic fire extinguishing system containing a pipeline for supplying a fire extinguishing agent and at least one means for distributing a fire extinguishing agent over zones of possible ignition or fire, characterized in that the locking and starting device is made with an electromagnetic drive for opening the exit of the extinguishing agent from the means for distributing the extinguishing agent and contains permanently installed electromagnetic lock with a lock anchor, a clamping bar pivotally mounted and attracted to the anchor of the lock by magnetic forces when an electric current is supplied to the electromagnetic lock and a clamp mated with the clamping bar with a plug for the extinguishing agent outlet from the fire extinguishing agent distribution device, made with the possibility of opening the outlet of the extinguishing agent from the means for distributing the extinguishing agent when the clamping bar is released and the clamp with the plug at the moment of opening the electromagnetic lock. 2. The locking and starting device according to claim 1, characterized in that the clamp is pivotally connected to the plug with the possibility of tight self-installation of the plug at the outlet of the extinguishing agent from the means for distributing the extinguishing agent. 3. The locking and starting device according to claim 1, characterized in that it contains means for accelerating the opening of the extinguishing agent outlet from the extinguishing agent, made, for example, in the form of a spring installed between the clamp with the plug and the extinguishing agent distribution means. 4. The locking and starting device according to claim 1, characterized in that made with the possibility of automatic opening of the electromagnetic lock on the signal of a fire or fire detector. 5. The locking and starting device according to claim 1, characterized in that the fire or fire detector is made in the form of a thermal fire detector, directional fire detector, flame detector, smoke detector or detector with a remote sensing element with the ability to initiate a control signal at the moments of fire or fire. 6. A locking and starting device according to claim 1, characterized in that it is made with the possibility of automatic operation upon a signal from a fire or fire detector for less than 3 seconds. 7. A locking and starting device according to claim 2, characterized in that it is made with an electromagnetic drive with the possibility of automatically opening the electromagnetic lock by stopping the supply of electric current to the electromagnetic lock. 8. The shut-off device according to claim 1, characterized in that the means for distributing the extinguishing agent contains a nozzle with a sprayer or a sprinkler of a fire extinguishing agent in the form of water or an aqueous solution of a foaming agent. 9. The locking and starting device according to claim 1, characterized in that it is made with the possibility of installation on the means for distributing the extinguishing agent in the form of a drencher, a sprinkler or a foaming agent. 10. The locking and starting device according to claim 1, characterized by the fact that it is manufactured in an explosion-proof design. 11. The locking and starting device according to claim 1, characterized in that it is made with the possibility of installation in a high-speed automatic fire extinguishing system on the means for distributing the extinguishing agent over zones of possible ignition or fire.

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