RU2603755C1 - Self-contained gas fire extinguishing box-type plant - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to self-contained gas fire extinguishing plant. Gas fire extinguishing self-contained box-type unit, made in form of housing, on front panel of which liquid crystal display is located, power switch buttons. Inside housing are rigidly mounted and connected to each other power supply unit, storage batteries, fire-fighting unit, comprising cylinder with fire-extinguishing substance, membrane safety device, consisting of self-destructing membrane and clamping bolt. Electromagnetic drive represents metal cylinder, inside of which spring-loaded rod is arranged, which in initial state is retained by permanent magnet. Aspiration chamber comprises laser smoke detectors, fan, replaceable filters, air flow rate monitoring sensor, relay board. Relay board comprises five signal relays "Fire", "Attention", "Accident", "Automatics off", "Fire extinguishing start", three power programmable relays, interface terminal, door control sensor flat cable terminal, external starting line flat cable terminal, microcontroller board.

EFFECT: technical result is fire detection and fire extinguishing system automatic activation over short period of time.

4 cl, 8 dwg

Description

The claimed invention relates to fire fighting equipment, namely to a stand-alone gas fire extinguishing installation mounted inside a 88 mm (2U) height enclosure, and is intended for early detection of fires and activation of an integrated gas fire extinguishing system based on fire extinguishing material in communication racks, floor (wall ) cabinets and similar equipment supporting the ability to install the device. The fire detection system is an aspiration smoke detection system. The built-in fire extinguishing system is designed to eliminate fire sources of Class A, B fires and live electrical equipment. The device is designed for round-the-clock operation.

An analogue of the claimed invention is a stand-alone robotic fire extinguishing installation, which contains mounted on the housing means for spraying a fire extinguishing medium in the form of a gun barrel, mounted to move by means of drive motors in two mutually perpendicular directions, a means of supplying a fire extinguishing medium to a gun barrel, a control unit, an output with drive motors and with the control input of the means for supplying the extinguishing medium into the gun barrel, on which is installed a flame detection sensor and a target sensor, the outputs of which are connected to the inputs of the control unit, while the working axis of at least the target sensor is parallel to the axis of the gun barrel oriented in the direction of fire (patent for utility model of the Russian Federation No. 63692, publication date: 10.06.2007) .

The disadvantages of the identified analogue are: firstly, the presence, for example, of a case in the form of a transported platform, a gun mount, which increases the dimensions of the device and eliminates the possibility of hidden installation in communication racks, floor cabinets, etc.

The prototype of the claimed technical solution is a department management system for creating a water mist of a fire extinguishing system. The utility model relates to a department control unit for a fine spray water fire extinguishing system. The main pipeline includes a water supply pipe I, a water pipe II at the water inlet and an outlet water pipe. Pipe fittings, a manual high-pressure ball valve and pressure gauge are installed at the inlet of pipe I. A high-voltage electric valve is installed between the outlet of water to the pipes I of tap water and the water at the inlet of water II. A pressure transmitter through a ball valve and water mist fitting is installed at the inlet of the water pipe II. The input end is connected to a sensitive dot-temperature sensors and a tracking device, in the dot-mode of smoke sensing and detection by the device and its infrared or ultraviolet flame detection device. The CPU 221 module is used to control the middle relay in the electrical element, and the middle relay is used to control the high voltage. The water mist control unit of the fire extinguishing system has several advantages: it accurately estimates the location of the fire in time, automatically extinguishes the fire, controls the amount of liquid supplied to the fire source (China Utility Model Patent No. CN203329252, publication date: 12/11/2013).

The disadvantage of this device is the possibility of functioning and maintenance of the device in different operating modes not provided for by the design: automatic, automatic start and remote shutdown mode, which in turn does not allow the installation to function effectively at all its stages, and also complicates and increases the service life.

The technical result consists in the manufacture of a complete enclosed autonomous device containing an early fire detection system, as well as a gas fire extinguishing system with a fire extinguishing agent, which is safe for humans, equipment, materials and the environment. The use of this device in communication cabinets will allow, in the shortest time, inaccessible to most point smoke detectors, detect fires and activate the fire extinguishing system without involving personnel and maintain the operability of the protected equipment.

The technical result is achieved due to the fact that the stand-alone gas cabinet fire extinguishing device consists of a housing with a display in which a power supply unit, a rechargeable battery, a power switch, a fire extinguishing module, an electromagnetic drive, an automatic start switch, a pressure sensor, an aspiration chamber, a relay board are mounted , microcontroller board electrically connected to each other.

In this case, the casing is made rectangular hollow, consisting of a bottom, a front panel, at least two panel handles, at least two symmetrically arranged brackets, a sight glass, with a system of holes, on the front panel there is a liquid crystal display, power switch buttons, switching of modes occurs using the key of the automatic start switch, switching the power of switching on the device occurs using the device control key, inside the case are rigidly mounted and connected between a cable line with connectors, a power supply unit, at least two rechargeable batteries, a fire extinguishing module containing a cylinder with an extinguishing agent, which is a dielectric, a membrane safety device, consisting of a self-destructive membrane and a pressure bolt connected to a nozzle, consisting of a housing with outlet holes, an electromagnetic actuator, which is a metal cylinder, inside of which is a spring-loaded rod, held in its original state by means of a constant a magnet, a pressure sensor for continuous monitoring of the pressure of the propellant in the cylinder, an aspiration chamber containing at least two laser smoke sensors, a fan, replaceable filters for coarse and fine air purification, a sensor for controlling the air flow rate, a relay board with Five alarm relays “Fire”, “Attention”, “Alarm”, “Automation off”, “Fire extinguishing start”, three power programmable relays, an interface terminal, a door sensor control loop terminal, an external start loop terminal, a mic controller, consisting of an alarm system, including a graphical indicator with backlight, LEDs and a sound piezo emitter, non-volatile memory and clock, tamper switch and control buttons.

In this case, the power supply provides the device with redundant DC voltage of 24 V.

At the same time, at least two lead-acid batteries with adsorbed electrolyte provide an autonomous mode of the device.

In this case, an environmentally friendly and safe fire extinguishing agent FK-5-1-12 is used.

The invention is illustrated by drawings.

In FIG. 1 shows a main view of the device with a cut in the housing.

In FIG. 2 shows a top view of the device.

In FIG. 3 shows a front view of the device.

In FIG. 4 shows a rear view of the device.

In FIG. 5 shows a main view of a suction chamber with a cut in the housing.

In FIG. 6 shows a top view of the suction chamber.

In FIG. 7 shows a front view of the suction chamber.

In FIG. 8 shows a rear view of the suction chamber.

Where:

1 - housing; 1b - housing of the suction chamber; 2 - aspiration chamber; 2b - fan grill; 3 - cylinder with a fire extinguishing agent; 3a - panel handle; 3b - input tube; 4 - locking and starting device; 4a - bracket; 4b - the base base of the illuminator; 5 - nipple for nozzles, 5b - laser-analog laser detector; 6 - nozzles; 6a - fixing screw; 6b - fan; 7 - electromagnetic drive; 7b - flange; 8 - pressure transducer; 8b - connector; 9 - pressure indicator; 9b - air flow rate sensor; 10 - cylinder bracket; 10b - mounting screw; 11 - rechargeable battery; 12 - an arm of the storage battery; 13 - power supply; 14 - control board; 15 - relay output board; 16 - perforated box; 17 - ground terminal; 18 - control key; 19 - LED indicators; 20 - graphic display; 21 - control keys; 22 - power connector; 23 - fixing screw; 24 - washer; 25 - a nut; 26 - air intake hole; 27 - terminal block block.

The membrane safety device is not indicated in the drawings.

An autonomous gas cabinet fire extinguishing device (hereinafter - AUSHT) is a component of fire detection and elimination equipment located inside a closed enclosure. The fire detection system is an aspiration smoke detection system. The principle of operation of the aspiration system is based on forced sampling of air and comparison with the control value of smoke in the chamber of the laser smoke detector. The fire extinguishing agent is a gas fire extinguishing module consisting of a cylinder with liquefied gas FK-5-1-12 (Novek 1230) with a gas propellant (Nitrogen) and a locking and starting device. The module is equipped with an electrotechnical start-up device (reusable electromagnetic drive), a pressure transducer and a nozzle for releasing a fire extinguishing substance into a protected volume. The electromagnetic drive activates the fire extinguishing system in the event of a signal from the controller. The pressure transmitter is designed to monitor the pressure of the propellant in the module. The pressure value in the fire extinguishing module is displayed on the LCD AUSHT in real time. Nozzles are manufactured in a special configuration to ensure the necessary spray of extinguishing agent in a protected volume.

Installation and connection of the device.

1) Mount the device in the upper part of the compartment with the protected equipment.

2) If necessary, install the door ends on the opening flaps and connect them to the connector on the rear panel.

3) If necessary, install external devices to activate fire extinguishing (button, fire detector, etc.) and connect them to the connector on the rear panel.

4) If you need to use the signals "Caution", "Fire", "Alarm", "Automation is disabled", "Start fire extinguishing", as well as programmable power relays, you must connect to their connectors on the rear panel of the device.

5) Connect 220V power to the device through the connector on the rear panel.

6) Turn on the power to the device with the key on the front panel.

7) Through the controls on the dashboard, reset the system and make sure that there are no errors or malfunctions on the display.

In standby mode, the device continuously monitors the smoke of the protected compartment by forcing air and passing it through the built-in suction chamber. If any malfunction occurs in the system, the "Alarm" indicator on the front panel lights up and the contacts of the relay of the same name switch. When one fire detector integrated in the suction chamber is triggered, the device switches to the “Attention” mode. At the same time, the corresponding indicator on the front panel lights up and the contacts of the relay of the same name switch.

To activate fire extinguishing, two modes are provided: automatic (activation is carried out from its own fire detection system) and remote (activation is carried out from an external start-up device).

With the automatic operation of the R-Line and the connected trailer door, opening the door of the protected compartment leads to the shutdown of the automatic activation of fire extinguishing. After closing the door, the device goes into automatic operation on its own.

Automatic fire extinguishing activation mode.

When two fire detectors are triggered, the device switches to Fire mode. At the same time, the corresponding indicator on the front panel lights up, the contacts of the relay of the same name switch, and the built-in siren is turned on. The user-programmed auto-start delay countdown begins. After the delay ends, fire extinguishing is activated and the extinguishing agent enters the protected volume through the exhaust nozzles located on the front panel. In the case of receiving confirmation from the pressure sensor on the start of the extinguishing agent, the “Fire extinguishing start” indicator on the front panel lights up and the contacts of the relay of the same name switch.

Remote fire extinguishing activation mode.

In this mode, fire extinguishing is activated by means of an external start device (manual fire detector, button, dispatch device, etc.). In this case, the fire control system immediately switches to the "Fire" mode and the fire extinguishing start algorithm is developed, similar to the automatic mode.

If the door of the protected compartment is in the open position at the time of extinguishing fire extinguishing, then the automation will begin to work out the set mode after the door is closed (valid only with installed door limit switches).

Service mode (service mode)

Switching modes is carried out using the key on the front panel. When switching to service mode (automatic shutdown), the “Automatic off” indicator on the front panel lights up and the contacts of the relay of the same name switch.

In this mode, the activation of the fire extinguishing system is not possible. The mode is used during installation maintenance.

Thus, the analysis and test of the prototype confirm the technical result of the claimed invention, which consists in the manufacture of a complete enclosed autonomous device containing an early fire detection system, as well as a gas fire extinguishing system with a fire extinguishing substance, which is safe for humans, equipment, materials and the environment. The use of this device in communication cabinets will allow, in the shortest time, inaccessible to most point smoke detectors, detect fires and activate the fire extinguishing system without involving personnel and maintain the operability of the protected equipment.

The claimed invention is new, since the entire set of features is unknown from the prior art described in the corresponding section of the description.

The claimed technical solution has an inventive step, since it does not explicitly follow from the prior art for a specialist.

It is industrially applicable, in relation to fire fighting equipment, namely to a stand-alone gas fire extinguishing installation mounted inside a 88 mm (2U) height enclosure, and is intended for early detection of fires and activation of an integrated gas fire extinguishing system based on fire extinguisher in communication racks , floor (wall) cabinets and similar equipment supporting the ability to install the device. The fire detection system is an aspiration smoke detection system. The built-in fire extinguishing system is designed to eliminate fire sources of Class A, B fires and live electrical equipment. The device is designed for round-the-clock operation.

Claims (4)

1. Autonomous gas cabinet fire extinguishing device, consisting of a housing with a display in which a power supply unit, a battery, a power switch, a fire extinguishing module, an electromagnetic drive, an automatic start switch, a pressure sensor, an aspiration chamber, a relay board, and a microcontroller board are connected electrically connected among themselves, characterized in that the casing is made rectangular hollow, consisting of a bottom, front panel, at least two panel handles, at least two symmetrically arranged mounted brackets, sight glass, with a system of holes, on the front panel there is a liquid crystal display, power switch buttons, mode switching is performed using the automatic start switch key, power switching (device turning on) is performed using the device control key, inside the case are rigidly mounted and connected between themselves by cable lines with connectors, a power supply unit, at least two rechargeable batteries, a fire extinguishing module containing a cylinder with a fire extinguishing agent an electric insulator, a membrane safety device consisting of a self-destructing membrane and a pressure bolt connected to a nozzle consisting of a housing with outlet openings, an electromagnetic actuator, which is a metal cylinder, inside of which there is a spring-loaded rod, held in its original state by a permanent magnet A pressure sensor for continuous monitoring of the pressure of the propellant in the cylinder, an aspiration chamber containing at least two laser fumes x sensor, fan, replaceable coarse and fine filters, air flow control sensor, relay board, which includes five signaling relays “Fire”, “Caution”, “Alarm”, “Automation off”, “Fire extinguishing” , three power programmable relays, an interface terminal, a door sensor control loop terminal, an external start loop terminal, a microcontroller board consisting of an alarm system that includes a graphic indicator with backlight, LEDs and a sound piezo emitter, non-volatile memory and a sy, tamper switch and control buttons. 2. An autonomous gas cabinet fire extinguishing device according to claim 1, characterized in that the power supply unit provides the device with redundant 24 V DC power. 3. The stand-alone gas cabinet fire extinguishing device according to claim 1, characterized in that at least two lead-acid rechargeable batteries with adsorbed electrolyte provide an autonomous mode of the device. 4. The stand-alone gas cabinet fire extinguishing device according to claim 1, characterized in that the environmentally friendly and safe fire extinguishing agent FC-5-1-12 is used.

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