RU203327U1 - INSTALLATION OF AUTOMATIC FIRE EXTINGUISHING - Google Patents

Abstract

The utility model relates to fire fighting equipment and can be used in the coal industry and in the power industry for localizing and extinguishing a fire. The automatic fire extinguishing installation contains a pressure line with a filter, an incentive line with fire detection means, a crane, a pressure indicator and an electromagnetic valve, a deluge line with sprinklers and a shut-off and starting device having a pressure, stimulating and deluge chamber connected to the corresponding lines and installed between the pressure and deluge chambers a valve made in the form of a spring-loaded elastic membrane, and the pipelines of the incentive and deluge lines have quick-disconnect connections. The deluge line, made of series-connected pipes with sprinklers, is located in the upper part of a mine working or other extended protection object along their axis. Nozzles with sprinklers are connected to the pipes of the deluge line. The technical result is to increase the manufacturability of manufacture and installation, reliability, efficiency and durability of the claimed automatic fire extinguishing installation. 4 c.p. f-ly, 3 dwg.

Description

The utility model relates to fire fighting equipment and can be used in the coal industry and in the power industry for localizing and extinguishing a fire.

Known installation of water fire extinguishing belt conveyors (RF patent for invention No. 2729760, priority date 12/19/2019, publication date 12/08/2020 in bulletin No. 23, class IPC A62C 3/00, A62C 35/58, A62C 37 / 08), including an incentive line containing metal pipes connected to each other by means of quick couplings, to which temperature sensors, sleeves with sensors, a pressure gauge, a ball valve and a sleeve connecting the incentive line with a starting valve are connected; a fire-extinguishing stave containing metal pipes connected to each other by means of quick-release couplings, to which sprays and a tee are attached to connect the fire extinguishing stave to the start valve; a filter and a starting valve connected to the filter, the incentive line and the fire extinguishing stave. Annular slots are made in the lower valve cover.

The disadvantage of the known installation is that it extinguishes fire centers only on a belt conveyor and does not provide localization of a developed fire if its fire source is outside the zone of the protected known installation and spreads over the entire section of a coal mine or other extended object. Another disadvantage of the known installation is the complexity of manufacturing the bottom valve cover due to the need to make annular cuts on the tapered surface of the cover in a strict sequence. The inconsistency of the location of the slots relative to each other and relative to the tapered surface of the cover leads to an uneven distribution of pressure on the membrane, which entails its distortion and rapid wear. In addition, the material from which the membrane is made does not withstand high pressure, which in the fire and irrigation pipeline of coal mines can reach over 6.3 MPa. With the specified pressure and frequent operations required to test the functionality of a known installation, the membrane quickly breaks down and requires frequent replacement.

The prototype of the claimed utility model is an automatic fire extinguishing installation and a locking device for it (RF patent for utility model No. 12027, priority date 12/08/1998, publication date 12/16/1999, IPC class A62C 37/12), containing a pressure line with a filter , a stimulating line with thermal sensors, a calibration valve and a signaling manometer, a deluge line with sprinklers and a shut-off device having pressure, stimulation and deluge chambers connected with the corresponding lines and a valve installed between the pressure and deluge chambers. 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. The deluge line is made of two pipes with sprinklers, designed to be placed symmetrically to the working axis at the level of 2/3 of the working height. The deluge chamber of the shut-off device is made of a steeply curved branch.

The disadvantage of the prototype is the use of two lines of pipes in the deluge line, located symmetrically to the axis of the excavation at the level of 2/3 of the height of the excavation, which leads to an increase in metal consumption and labor costs for their manufacture and installation at the site of operation. At the same time, uneven irrigation of the space between these pipes is possible, which leads to a decrease in the effectiveness of fire extinguishing along the entire section of the mine. Also, the disadvantage of the prototype is the lack of orientation of the deluge line and its sprinklers in relation to the belt conveyor, resulting in a non-irrigated space, for example, between the upper and lower branches of the conveyor, which reduces the effectiveness of fire extinguishing. Also, the disadvantage of the prototype is the use of a steeply curved outlet in the locking device, which is difficult to manufacture, and in case of inaccuracies in the connection with the pressure chamber, it can lead to a violation of the tightness of the locking device. And the elastic membrane of the shut-off device is not adapted to the perception of high pressure and frequent actuation, it quickly breaks down and requires frequent replacement. In addition, the prototype is triggered only from thermal sensors, and if a fire is detected outside the monitoring zone of thermal sensors, visually or with the help of, for example, carbon monoxide sensors installed in coal mines, it is impossible to remotely transmit the control action to the prototype to trigger it.

The technical result of the proposed utility model is to improve the manufacturability of manufacturing and installation, reliability, efficiency and durability of the claimed automatic fire extinguishing installation.

The specified technical result is achieved by the fact that in the inventive installation of automatic fire extinguishing, containing a pressure line with a filter, an incentive line with fire detection means, a crane and a pressure indicator, a deluge line with sprinklers and a locking and starting device having pressure, incentive and deluge chambers and a valve installed between the pressure and deluge chambers, made in the form of a spring-loaded elastic membrane, and the pipelines of the incentive and deluge lines have quick-disconnect connections, according to the claimed utility model, the deluge line, made of series-connected pipes with sprinklers, is located in the upper part of the mine working or other extended object of protection along their axis. Nozzles with sprinklers are connected to the pipes of the deluge line. The deluge line is additionally equipped with a pipeline with sprinklers oriented to spray water between the upper and lower branches of the conveyor. The valve membrane in the locking and starting device is reinforced with at least one gasket made of at least one wear-resistant and durable material. The inventive installation additionally includes a solenoid valve.

The claimed utility model is illustrated by drawings, where FIG. 1 shows a diagram of the inventive installation, FIG. 2 shows a diagram of the arrangement of the claimed installation in the section of a mine or other extended object of protection, FIG. 3 shows the locking and starting device.

The inventive installation (Fig. 1) consists of a pressure line with a filter 1 connected to the pipeline 2 of the water supply system, an incentive line with fire detection means 3, a tap 4, a pressure indicator 5 and a solenoid valve 6, a deluge line with sprinklers 7 and a shut-off and start-up devices 8. Hoses 9 and pipelines 10 of the stimulating and deluge lines are connected to each other and to other elements of the inventive installation using quick-disconnect couplings 11. The use of quick-disconnect couplings 11 simplifies assembly and installation of the inventive installation at the site of operation and ensures the reliability and strength of the connections.

Filter 1 is designed to remove impurities from water coming from the water supply system to the shut-off and starting device 8. Fire detection means 3 provide depressurization of the stimulating line and the operation of the claimed installation in the event of a fire. A sprinkler sprinkler, fire detector or measuring device (sensor) is used as a fire detection means, which is not the subject of this utility model. Crane 4 is designed to test the operation of the locking and starting device 8 and the claimed installation as a whole. The pressure switch 5 is designed to transmit a signal when the water pressure reaches a predetermined response value. A signaling manometer can be used as a pressure indicator 5, which, in addition to transmitting a signal, provides measurement and visualization of pressure readings. The solenoid valve 6 ensures the operation of the inventive installation during the remote transmission of the control command to it. Sprinklers 7, providing irrigation of the protected surface and (or) volume for localizing and extinguishing a fire, have any of the known designs, which is not the subject of this utility model.

The pipeline 10 of the deluge line (Fig. 1, Fig. 2) is made of series-connected pipes with sprinklers 7 and is located in the upper part of the mine working 12 or other extended object of protection along their axis. This location of the deluge line reduces the metal consumption and labor costs for its manufacture and installation at the site of operation, and also provides irrigation of the entire section of mine work 12 or other extended protection object for effective localization and extinguishing of a fire. Nozzles 13 with sprinklers 7 can be connected to the pipeline 10 of the deluge line to irrigate the object of protection with large cross-sections.

In the inventive installation (Fig. 1, Fig. 2), the deluge line is additionally equipped with a pipeline 14 with sprinklers 15 oriented to spray water between the upper 16 and lower 17 branches of the conveyor. The use of a pipeline 14 with sprinklers 15 oriented in relation to the conveyor ensures effective extinguishing of the combustion of all conveyor elements and preventing its further propagation.

The locking and starting device (Fig. 3) has a pressure head 18, an incentive 19 and a deluge chamber 20, connected with the corresponding pressure, incentive and deluge lines of the inventive installation. In the locking and starting device between the pressure head 18 and the deluge chamber 20, a valve is installed, made in the form of a spring 21 and a membrane 22, in which an opening 23 is made connecting the pressure head 18 and the driving chamber 19.

The membrane 22 is reinforced with at least one gasket of at least one wear-resistant and durable material, for example, by vulcanizing a rubber compound with gaskets. A metal disk 24 and (or) fabric 25, for example, industrial polyamide or Kevlar, can be used as a spacer. The use of gaskets made of wear-resistant and durable material in the membrane 22 ensures the perception of large values of water pressure from the side of the pressure chamber 18 and the stimulus chamber 19, which in the conditions of coal mines can reach over 6.3 MPa. Also, the use of gaskets increases the service life of the membrane 22 with its frequent operations, which is necessary to test the performance of the proposed installation. All this increases the reliability and durability of the claimed installation.

The claimed installation works as follows. In standby mode, water under pressure equal to the pressure of water in the water supply system is in the pipeline 2 (Fig. 1), the filter 1 of the pressure line, the pressure 18 and 19 stimulating chambers (Fig. 3) of the shut-off and starting device 8 and in the entire stimulating line ... The membrane 22, under the action of the spring 21 and the pressure of water in the stimulating chamber 19, coming here through the opening 23, is pressed against the end of the pressure chamber and does not allow water to pass into the deluge chamber 20 and into the entire deluge line. The water pressure is controlled by the pressure indicator 5. When signs of fire appear on the signal from the fire detection device 3, the pressure line is depressurized and the pressure in the stimulating chamber 19 is released. Under the influence of the pressure in the pressure chamber 18, which has become greater than in the stimulating chamber 19, the membrane 22 moves away from the end of the stimulating chamber 19, opening the passage of water into the deluge chamber 20 and further into the deluge line to the sprinklers 7. Sprinklers 7, located on the pipeline 10 of the deluge line and on the nozzles 13 (Fig. 1, Fig. 2), provide irrigation of the space along the entire section along the mine 12 or other extended object of protection. Sprinklers 15 located on the pipeline 14 provide irrigation between the upper 16 and lower 17 branches of the conveyor. The pressure switch 5 transmits a signal to the personnel about the operation of the claimed installation for taking the necessary measures. Thus, effective containment and extinguishing of the fire is ensured. Bringing the claimed installation to standby mode is carried out by sealing the incentive line. Turning on the installation if necessary, for example, when checking the functionality, it is possible from the spot by opening the tap 5 or remotely using the solenoid valve 6 by transmitting the control signal to it. The valve 5 and the solenoid valve 6, like the fire detection device 3, depressurize the stimulating line and ensure the actuation of the shut-off and starting device 8.

Claims (5)

1. Installation of automatic fire extinguishing, containing a pressure line with a filter, an incentive line with fire detection means, a crane and a pressure indicator, a deluge line with sprinklers and a shut-off and starting device having a pressure, incentive and deluge chamber connected to the corresponding lines and installed between the pressure and deluge chambers, a valve made in the form of a spring-loaded elastic membrane, and the pipelines of the stimulating and deluge lines have quick-disconnect connections, characterized in that the deluge line, made of pipes connected in series with sprinklers, is located in the upper part of a mine working or other extended protection object along their axis ... 2. Installation according to claim 1, characterized in that nozzles with sprinklers are connected to the pipes of the deluge line. 3. Installation according to claim 1, characterized in that the deluge line is additionally equipped with a pipeline with sprinklers oriented to spray water between the upper and lower branches of the conveyor. 4. Installation according to claim 1, characterized in that the valve membrane in the locking and starting device is reinforced with at least one gasket of at least one wear-resistant and durable material. 5. Installation according to claim 1, characterized in that it additionally includes an electromagnetic valve.

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