RU104467U1 - AUTOMATIC FIRE EXTINGUISHING INSTALLATION - Google Patents

Abstract

 1. An automatic fire extinguishing installation, comprising at least one extinguishing aerosol generator, a thermal ignition detection sensor and an electric start source, characterized in that a thermal cable consisting of two or three conductors is used as a heat sensor, and an electric start source a battery of cells is used. ! 2. Installation according to claim 1, characterized in that all its elements are mounted on a single platform, which also serves as a mounting device for the installation on the protected object. ! 3. Installation according to claim 1 or 2, characterized in that as the battery of galvanic cells any battery of galvanic cells with voltage from 4.5 to 12 V. is used! 4. Installation according to claim 1, characterized in that any thermal cable of acceptable length with a response temperature from 54 to 138 ° C is used as a thermal cable. ! 5. Installation according to claim 4, characterized in that its start-up inside the facility is carried out autonomously without being connected to power supply networks and without human intervention. ! 6. Installation according to claim 1, characterized in that the safety and availability of its electrical circuit is monitored by measuring the voltage at the free ends or terminals of the thermal cable.

Description

The utility model relates to fire fighting equipment used to eliminate fires in closed and semi-closed volumes.

Known automatic autonomous fire extinguishing system (RF patent No. 2115451, class A62C 37/00, 1998), including several interconnected fire extinguishing devices, each of which contains an electric igniter and made in the form of a heat sensor device for detecting fire and a device for initiating the extinguishing process characterized in that each of the fire extinguishing devices is equipped with an aerosol-forming pyrotechnic composition and a pyrotechnic electric current generator, each pyrotechnic g an electric current generator is connected to all electric igniters of other fire extinguishing devices by an electric circuit. The sensitive element of the heat sensor is made of fusible material or of a material with shape memory.

The main disadvantages of this system and fire extinguishing devices are the inability to control the readiness and safety of the electrical circuit of the system, the relatively high inertia and limited monitoring zone of the point thermal sensor, as well as the need to use extended electrical wiring to connect the system elements. For effective protection of an object by this system, it is necessary to use not one or two, but a whole group of point thermal sensors installed in places of the likely occurrence of a flame or thermal effect of combustion products.

The closest technical solution to this invention is an automatic aerosol fire extinguishing system (RF patent No. 2001646, class A62C 35/00, 1993), including a fire extinguisher connected to the power source via a temperature sensor, an ignition system connected to the temperature sensor and source power supply, into which a protective diode and capacitor are introduced, and the fire extinguisher is made in the form of several aerosol generators connected by a fire-resistant cord. The cord also serves as a linear, self-contained ignition sensor that triggers generators. The main disadvantages of automatic installation are:

- high inertia and limited control zone of the point temperature sensor;

- a relatively rapid decrease in energy potential over time and the need for periodic recharging of the capacitor and battery;

- relatively short service life of the flame-retardant cord (1-2 years) due to the volatilization of the plasticizer and the loss of mechanical and energy properties by the cord;

- the inability to control the suitability of the fire wire to start the installation.

The objective of the utility model was the creation of an automatic fire extinguishing installation, which would not contain the above disadvantages.

Solving the tasks, the technical result is achieved, which consists in the creation of an autonomous automatic fire extinguishing installation with full autonomy with the ability to monitor serviceability (if necessary), reliability of detection (control of fire hazard zones) and suppression of fire, which is compact and simple to place on the site, while ensuring long terms of its operation (up to 25 years) without periodic recharging.

The specified technical result is achieved when creating and using an automatic fire extinguishing installation, including at least one extinguishing aerosol generator, a thermal ignition detection sensor and an electric start source. According to the proposed, a thermal cable consisting of two or three conductors is used as a thermal sensor, and a battery of galvanic cells is used as an electric trigger source.

Preferably, all the elements of the installation are mounted on a single platform, which also serves as a device for mounting the installation on the protected object.

As a battery of galvanic cells, any battery of galvanic cells with voltage from 4.5 to 12 volts is used.

As a thermal cable, any thermal cable of acceptable length with a response temperature from 54 to 138 ° C is used.

Launching the installation inside the facility is carried out autonomously without connecting to power networks and without human intervention.

The safety and availability of the electrical circuit is monitored as necessary by measuring the voltage at the free ends or terminals of the thermal cable.

A self-contained automatic fire extinguishing installation contains at least one extinguishing aerosol generator with an electric start, which is connected to the electric start circuit using a thermal cable consisting of two or three conductors, which is a thermal ignition detection sensor.

When ignited, the polymer insulation of the thermal cable cores heats up / melts, the conductive elastic cores of the thermal cable are closed to each other and send a response signal to the extinguishing aerosol generator, which is launched from the battery of galvanic cells.

A thermal cable of sufficient length, being not a point, but a linear (multipoint) sensor, provides full coverage and control of fire hazard zones inside the object. In addition, the high resistance of the thermal cable to the effects of thermal and mechanical stresses, in contrast to the flame-retardant cord, ensures long-term operation (up to 25 years).

A battery of galvanic cells with a voltage of 4.5 to 12 Volts was selected as the electrical source for starting the installation, which, unlike the battery and capacitor, loses its energy potential much more slowly and does not require periodic recharging.

In the military and civilian fleet, galvanic batteries with a service life of at least 10 years in the operating temperature range from minus 40 to plus 80 ° C are successfully used.

As a fire extinguisher, a fire extinguishing aerosol generator was selected, which in terms of fire extinguishing efficiency, compactness, simplicity and reliability of electric start significantly exceeds other fire extinguishing means.

All elements of the installation are mounted on a single platform, which also serves as a device for mounting the installation at the facility, which allows:

- provide full autonomy of the installation;

- to quickly move and fasten the installation inside the protected object, without significant costs for placement and installation;

- simplify the control and replacement of installations.

The safety and readiness of the electrical circuit of the installation can be controlled as necessary by measuring the voltage at the free ends (terminals) of the thermal cable. The installation passed fire tests and found application in electrical control cabinets of the SHRU-M type.

Claims (6)

1. An automatic fire extinguishing installation, comprising at least one extinguishing aerosol generator, a thermal ignition detection sensor and an electric start source, characterized in that a thermal cable consisting of two or three conductors is used as a heat sensor, and an electric start source a battery of cells is used. 2. Installation according to claim 1, characterized in that all its elements are mounted on a single platform, which also serves as a mounting device for the installation on the protected object. 3. Installation according to claim 1 or 2, characterized in that as the battery of the galvanic cells is used any battery of galvanic cells with voltage from 4.5 to 12 V. 4. Installation according to claim 1, characterized in that any thermal cable of acceptable length with a response temperature from 54 to 138 ° C is used as a thermal cable. 5. Installation according to claim 4, characterized in that its start-up inside the facility is carried out autonomously without being connected to power supply networks and without human intervention. 6. Installation according to claim 1, characterized in that the safety and availability of its electrical circuit is monitored by measuring the voltage at the free ends or terminals of the thermal cable.