RU70141U1 - VOLUME AEROSOL EXTINGUISHING SYSTEM - Google Patents

Abstract

The utility model relates to the field of fire extinguishing, namely, volumetric fire extinguishing with actuators equipped with pyro-cartridge valves, in particular gas-aerosol generators, and can be used in fire extinguishing systems for ships for various purposes.

The utility model is aimed at solving the problem of improving the quality and reliability of a volumetric fire extinguishing system and expanding its functionality.

The technical result provided by the claimed utility model consists in the possibility of adapting the control unit to a wide range of fire extinguishing system configurations and reducing installation and maintenance costs.

The volumetric aerosol fire extinguishing system comprises at least one aerosol fire extinguishing device with an electric launch unit; Launch Node Management Tool means for monitoring the integrity of electrical circuits; remote control tool; cable networks. The means for controlling the launch units, the means for monitoring the integrity of electric circuits, and the means for remote control are commutated into a control unit connected by a cable network to an aerosol fire extinguishing device. The control unit is made using the modular principle of composing the elements and contains a controller, a notification module, a start module, a connection board. Preferably, the control unit comprises means for displaying information about the current state of the system. It is also preferred that the control unit is enclosed in a housing and has a dashboard. It is preferable that the volumetric aerosol fire extinguishing system further comprises: an intermediate relay block providing shutdown of ventilation, control of technological equipment and activation of an alarm, and a light-sound annunciator generating light and / or sound signals. It is preferable that the cable networks connect the control unit to the intermediate relay unit, and the intermediate relay unit to the light-sound annunciator, with the ventilation system and processing equipment. It is preferable that SOT-M type fire extinguishing aerosol generators manufactured by NPO KASKAD, St. Petersburg, Russia, be used as aerosol fire extinguishing devices with an electric start-up unit. Preferably, the control unit provides remote start of the extinguishing aerosol generators, integrity control of the electric start circuits, protection of the system from overload and short circuit currents, functional self-monitoring of serviceability. It is also preferred that the control unit provides information on the current state of the system. It is also preferable that the control unit provides automatic shutdown of ventilation in the protected rooms, automatic activation of the warning signal in the protected rooms; automatic control of technological equipment, operational control of serviceability of the warning alarm, ventilation shutdown, process equipment control. 1 independent claim, 9 dependent claims, 1 FIG. drawing.

Description

The utility model relates to the field of fire extinguishing, namely volumetric fire extinguishing with actuators equipped with pyro-cartridge valves, in particular gas-aerosol generators.

The utility model can be used in fire extinguishing systems of ships for various purposes.

A known system for volumetric fire extinguishing, including means for extinguishing a fire, an element for connecting fire extinguishing means to each other and means for detecting fire and initiating fire extinguishing means. Each extinguishing agent is made in the form of a housing with an outlet and a charge of a smoke-generating composition placed in it with an initiation unit, and the tanning detection means and the connection and initiation means for extinguishing are made in the form of a fire-resistant cord (RF patent No. 2046614 for the invention of “Detection device and volumetric fire extinguishing and smoke-forming composition ", IPC 6 А62С 37/00, publ. 10.27.1995). The known device is characterized by low mechanical strength of an expensive flame-retardant cord having a high temperature threshold (150-170 ° C) and a relatively low burning rate, which reduces the efficiency of suppressing fires at the initial stage.

A well-known volumetric fire extinguishing system, the common starting device of which consists of electrically interconnected temperature-sensitive sensors and a remote commutator of initiation nodes of generators with an aerosol-forming composition, placed in a casing with outlet openings (RF patent No. 2081640 for the invention of "Volumetric fire extinguishing system", IPC 6 A62C 13/22, published on June 20, 1997). The disadvantage of the system is the possibility of triggering the generators due to violations of the integrity of the electric communication channels between the elements of the starting device and the channels of the starting device with the nodes of the initiation of the generators and warning devices.

Known fire extinguishing system containing extinguishing elements,

which initiation nodes are controlled by a starting device. The starting device contains a power source, fire alarm sensors, a display, a time delay device, a switch, a sensing unit (RF patent No. 21114660 for the invention “Control and monitoring device for automatic fire extinguishing systems”, IPC 6 А62С 37/00, G08B 17/00, G08B 19/00, G05D 29/00, published July 10, 1998). The device is characterized by high cost and complexity of installation and installation.

Known for the closest set of essential features to the claimed technical solution and selected as a prototype aerosol fire extinguishing system, including aerosol fire extinguishing equipment with an electric start unit, control and monitoring devices, signaling and remote control devices, cable networks. The known system contains many fire extinguishing modules, including a fire detector, control unit, executive unit, extinguishing composition generators. The alarm and remote control panel consists of cells according to the number of fire extinguishing equipment modules. The known system is characterized by high reliability and ease of installation. However, the need to place control devices together with fire extinguishing means in a protected volume exposes these devices to the risk of failure in case of fire, which limits their service life. In addition, the system has limited functionality in view of the impossibility of adapting control units to a wide range of fire extinguishing system configurations.

The task to which the utility model is directed is to improve the quality and reliability of the volumetric fire extinguishing system and expand its functionality.

The technical result, which is achieved by the claimed utility model, is to provide the ability to adapt the control unit to a wide range of configurations of fire extinguishing systems and reduce installation and maintenance costs.

The specified technical result is achieved by the fact that the volumetric aerosol fire extinguishing system comprises at least one aerosol fire extinguishing device with an electric launch unit; means

start node management; means for monitoring the integrity of electrical circuits; remote control tool; cable networks. The means for controlling the launch units, the means for monitoring the integrity of electric circuits, and the means for remote control are commutated into a control unit connected by a cable network to an aerosol fire extinguishing device. The control unit is made using the modular principle of composing the elements and contains a controller, a notification module, a start module, a connection board.

Preferably, the control unit comprises means for displaying information about the current state of the system.

It is also preferred that the control unit is enclosed in a housing and has a dashboard.

It is preferable that the volumetric aerosol fire extinguishing system further comprises: an intermediate relay block providing shutdown of ventilation, control of technological equipment and activation of an alarm, and a light-sound annunciator generating light and / or sound signals.

It is preferable that the cable networks connect the control unit to the intermediate relay unit, and the intermediate relay unit to the light-sound annunciator, with the ventilation system and processing equipment.

It is preferable that the fire extinguishing aerosol generators of the SOT-M type produced by CJSC NPF KASKAD, St. Petersburg, Russia, be used as aerosol fire extinguishing devices with an electric start-up unit.

Preferably, the control unit provides remote start of the extinguishing aerosol generators, integrity control of the electric start circuits, protection of the system from overload and short circuit currents, functional self-monitoring of serviceability.

It is also preferred that the control unit provides information on the current state of the system.

It is also preferable that the control unit provides automatic shutdown of ventilation in the protected rooms, automatic activation of the warning signal in the protected rooms; automatic control of technological equipment, operational control of serviceability of the warning alarm, ventilation shutdown, process equipment control.

A comparative analysis of the claimed utility model with the prototype showed that in all cases it is different from the well-known, closest technical solution:

- the implementation of controls for the start nodes, means for monitoring the integrity of electrical circuits, remote control tools commutated in the control unit;

- the implementation of the control unit using the modular principle of composing the elements;

- the implementation of the control unit comprising: a controller, a notification module, a start module, a connection board;

- the presence of cable communication between the control unit and the aerosol fire extinguishing device.

In some cases, the implementation of the claimed utility model differs from the known, indicated above, closest to it:

- the presence of a means of displaying information about the current state of the system;

- the implementation of the control unit enclosed in a housing with a dashboard;

- the presence of an intermediate relay block, which provides ventilation shutdown, alarm activation, process equipment control;

- the presence of a light and sound siren that generates light and / or sound signals;

- the presence of cable networks connecting the control unit to the intermediate relay unit, and the intermediate relay unit to the light-sound annunciator, with the ventilation system and processing equipment;

- the use of SOT-M type fire extinguishing aerosol generators manufactured by ZAO KASKAD NPF, St. Petersburg, Russia as aerosol fire extinguishing devices with an electrical start-up unit.

- the implementation of the control unit providing:

but. remote start of fire extinguishing aerosol generators,

b. integrity control of electric start circuits,

from. system protection against overload and short circuit currents,

d. functional self-monitoring;

e. displaying information about the current state of the system;

f. automatic shutdown of ventilation in the protected premises.

g. automatic activation of warning alarms in the protected premises;

h. automatic control of technological equipment;

i. operational monitoring of serviceability of warning alarms, ventilation shutdowns, process equipment control;

Implementation of controls for the launch units, integrity control of electrical circuits, remote control commutated in the control unit made it possible to adapt it to a wide range of configurations of fire extinguishing systems. The implementation of the control unit using the modular principle of composing the elements — the controller, the notification module, the start module, the connection board — simplified the installation of the system and reduced the cost of its maintenance. The presence of cable connections between the control unit and the aerosol fire extinguishing device made it possible to place the control unit outside the protected volume, which ensured the safety of these devices during fires and increased their service life. The presence of a means for displaying information provided visual control over the current state of the system. The presence of an intermediate relay unit and a light and sound siren connected by cable networks to each other and the control unit provided operational control of the health of the warning and ventilation shutdown alarms.

In general, the totality of the features characterizing the claimed utility model made it possible to ensure the high quality and reliability of the fire extinguishing system and reduce its cost.

The proposed utility model is illustrated in the drawing. Figure 1 presents a functional diagram of an aerosol fire extinguishing system.

The aerosol fire extinguishing system comprises at least one aerosol fire extinguishing device 1 with an electric launching unit, a control unit for the launching units (not shown in the drawing), a means for monitoring the integrity of the electrical circuits (not shown in the drawing), means

remote control (not shown), cable networks 2. A means of controlling the nodes of the launch, a means of monitoring the integrity of electrical circuits, a means of remote control are commutated in the control unit 3. The control unit 3 is made using the modular principle of composing the elements and contains a controller 4, an alert module 5, a start module 6, a connection board 7. The control unit 3 is connected to the aerosol fire extinguishing device 1 by a cable network 2 (1). The control unit 3 may include means for displaying information about the current state of the system (not shown in the drawing). Preferably, the control unit 3 was enclosed in a housing (not shown in the drawing) and had a dashboard (not shown in the drawing). Control unit 3 provides remote start-up of fire-extinguishing aerosol generators, integrity control of start-up electric circuits, automatic shutdown of ventilation in protected rooms, automatic control of technological equipment, protection of the system against overload and short circuit currents, functional self-monitoring of serviceability, operational monitoring of serviceability of warning alarms, ventilation shutdowns, control of technological equipment, displaying information about the current state of the system we. It is preferable that the aerosol fire extinguishing system additionally contains an intermediate relay unit 8, which provides ventilation shutdown, process equipment control, alarm activation, and a light-sound annunciator 9 generating light and / or sound signals. Block 8 of the intermediate relay is connected: with control unit 3 - cable network 2 (2), with light and sound annunciator 9 - cable network 2 (3), with ventilation system 10 - cable network 2 (4), with technological equipment (11) - cable network 2 (5).

The volumetric aerosol fire extinguishing system operates as follows.

Fire extinguishing aerosol generators 1 are installed directly in rooms protected from fires. The number of generators 1 is determined by calculation, depending on the volume and characteristics of the protected premises. When a fire is detected from the control unit 3 located outside the protected room, an electric pulse is supplied to the start-up nodes of the fire extinguishing aerosol generators 1. In the process of operation of generators 1

extinguishing aerosol aerosol is released, which has a strong inhibitory effect on the redox reactions of combustion of organic substances in atmospheric oxygen, which leads to the cessation of the fire. As aerosol fire extinguishing devices with an electric start-up unit, COT-M type fire-extinguishing aerosol generators manufactured by CASPAD NPF CJSC (St. Petersburg, Russia) can be used, including:

- fire extinguishing aerosol generators SOT -1M, designed to extinguish fires of liquid and solid substances and electrical equipment in machinery rooms of category A,

- and / or fire extinguishing aerosol generators SOT-2M, SOT-2MB, designed to extinguish fires of liquid and solid substances and electrical equipment in cramped machinery rooms of category A,

- and / or fire extinguishing aerosol generators SOT-2M-KV, SOT-2MB-KV, designed for installation in machinery rooms with the presence of flammable gases, vapors or flammable liquids with a flash point of vapor up to 60 ° C.

The system is started by the operator of the control unit 3. This may include alerts. After a period of time sufficient for people to be evacuated, a signal from the control unit 3 starts up the launch units igniting the aerosol forming composition in the generators 1, upon combustion of which an aerosol mixture of combustion inhibitors of organic substances in oxygen is formed. When an aerosol mixture is introduced into the combustion zone, the chain mechanism of the formation of active radicals breaks off due to their recombination, as well as due to their retention on the surface of the aerosol, each particle of which acts as an energy condenser - as a result, the fire is suppressed. Within 30-50 minutes after the end of the operation of the generators, the extinguishing aerosol is in suspension, which allows you to save the extinguishing concentration of the aerosol and exclude the possibility of re-ignition.

The volumetric aerosol fire extinguishing system has four operating modes: “standby”, “serviceability control”, “extinguishing”, “emergency extinguishing”.

Claims (10)

1. Volumetric aerosol fire extinguishing system, comprising at least one aerosol fire extinguishing device with an electric start-up unit, means for controlling the start-up units, means for monitoring the integrity of electric circuits, remote control means, cable networks, characterized in that the means for controlling the start-up units, means integrity control of electrical circuits, a remote control device is commutated into a control unit connected by a cable network to an aerosol fire extinguishing device I, while the control unit is made using the modular principle of composing the elements and contains a controller, a notification module, a start module, a connection board. 2. The volumetric aerosol fire extinguishing system according to claim 1, characterized in that the control unit comprises means for displaying information about the current state of the system. 3. The volumetric aerosol fire extinguishing system according to claim 1, characterized in that the control unit is enclosed in a housing and has a dashboard. 4. The volumetric aerosol fire extinguishing system according to claim 1, characterized in that it further comprises an intermediate relay unit that turns off the ventilation, turns on the alarm and controls process equipment, and a light and sound annunciator that generates light and / or sound signals. 5. The volumetric aerosol fire extinguishing system according to claim 2, characterized in that it further comprises an intermediate relay unit that turns off ventilation, enables an alarm, and controls process equipment and a light and sound annunciator that generates light and / or sound signals. 6. The volumetric aerosol fire extinguishing system according to any one of claims 4 and 5, characterized in that the cable networks connect the control unit to the intermediate relay unit, and the intermediate relay unit to the light-sound annunciator, with the ventilation system and processing equipment. 7. Volumetric aerosol fire extinguishing system according to any one of claims 1 to 5, characterized in that the SOT-M type fire extinguishing aerosol generators manufactured by ZAO KASKAD NPF, St. Petersburg, Russia are used as aerosol fire extinguishing devices with an electric start-up unit. 8. The volumetric aerosol fire extinguishing system according to claim 1, characterized in that the control unit provides remote start of the extinguishing aerosol generators, integrity control of the electric start circuits, protection of the system from overload and short circuit currents, functional self-monitoring of serviceability. 9. The volumetric aerosol fire extinguishing system according to claim 2, characterized in that the control unit provides remote start of the extinguishing aerosol generators, integrity control of the electrical start circuits, protection of the system from overload and short circuit currents, functional self-monitoring of serviceability, displaying information about the current state of the system. 10. Volumetric aerosol fire extinguishing system according to claims 4 and 5, characterized in that the control unit provides remote start of the extinguishing aerosol generators, monitoring the integrity of the electric start circuits, protecting the system from overload and short circuit currents, functional self-monitoring of health, automatic shutdown of ventilation in protected premises, automatic activation of warning alarms in protected premises; automatic control of technological equipment, operational monitoring of the serviceability of warning alarms, ventilation shutdowns, control of technological equipment, displaying information about the current state of the system.