RU2127623C1 - Device for addressed warning of autonomous fire-extinguishing system - Google Patents

Abstract

FIELD: fire extinguishing systems used in fire protection of objects with numerous and different spaces of protection. SUBSTANCE: device consists of autonomous proper fire-extinguishing system. It includes autonomous starter connected with generator of fire-extinguishing substance, and it is installed in the protected space; addressed warning circuit installed outside of the protected space and consisting of matching devices, addressed equivalent and fire-protection panel. Autonomous heat starters of protected spaces are connected with respective matching devices. Addressed equivalent is made in the form of resistor. Autonomous heat starter includes permanent magnets installed on striker of heat firing mechanism and connected by like pole, and inductance coils in magnetic circuit. EFFECT: full complex of devices and measures in fire protection of high-fire-hazard objects. 2 cl, 4 dwg

Description

 The invention relates to fire fighting equipment and can be used for fire protection of high fire hazard facilities.

 Known autonomous thermal starter according to the application N 95117398 class. A 62 C 35/00, 1997, in which the thermal trigger mechanism is detachable, for example, threadedly connected to a piezoelectric generator, which is connected by conductors to an electric igniter capsule of the gas generator, moreover, the shock surfaces of the piezoelectric generator and the hammer trigger mechanism made convex.

 The disadvantage of the starter is that the conversion of the mechanical energy stored in the starter (the potential energy of the compressed spring) into electrical energy to carry out work to detonate the electric igniter capsule of the gas generator is performed at the moment the striker of the trigger mechanism hits the piezoelectric generator. In this case, the parameters of the generated electric pulse are about 2000 V in amplitude of voltage, and about 5 - 10 ns in duration.

The high-frequency signal of the starter requires restrictions on the capacitance and inductance of the connecting conductors. The specified starter, together with the fire extinguishing installation, autonomously provides fire protection of a volume of up to about 20 m ³ . The number of starters on the volume can reach several hundred when some are removed from the fire alarm panel about 1 km. However, for the sufficiency of measures for fire protection of the facility, it is necessary to determine the place, the moment of ignition (autonomous fire extinguishing system). Thus, the authors argue that it is almost impossible to use the specified starter at the same time as launching fire extinguishing means in the fire zone and transmitting the address signal to the fire alarm panel.

 Known automatic installation of aerosol fire extinguishing (RF patent N 2001646, class A 62 C 35/00, 1993), including a fire extinguisher connected to the ignition system to the power source through a temperature sensor, an activation system associated with the temperature sensor and the power source into which a protective diode and a capacitor connected to the temperature sensor and through a protective diode connected in parallel with the power source, and the fire extinguisher is made in the form of at least one aerosol generator with an aerosol forming bomb extinguishing composition and is connected with the ignition system by means of a checker, in which the generator is equipped with a fire-resistant cord connected to the checker.

 The disadvantages of this installation are the lack of indication of the readiness of the installation and its operation, as well as the sufficiency of email. energy supply el. power supply and protection object, i.e. to the temperature sensor (manual start button) and to the aerosol generators themselves, it significantly limits the use of the installation to protect objects of increased fire and explosion hazard, for example, fuel and lubricant, fuel and fuel warehouses and their production, woodworking and dyeing, etc. Closest to this invention is an addressable alarm device of an autonomous fire extinguishing system, comprising a fire extinguishing agent generator, an autonomous heat starter and a fire alarm panel connected to a power source (US Pat. No. 5,105,371, class G 08 B 17/10, 1992).

 A disadvantage of the known device is the lack of a full range of devices and measures for fire protection of high fire hazard facilities.

 The basis of the present invention is the goal of creating a full range of devices and measures for fire protection of objects of increased fire hazard, in addition, devices installed in a protective volume must be de-energized so that the system itself could not become a source of fire, explosion. Separation of the starting circuits of the autonomous fire extinguishing system (autonomous thermal starter and fire extinguishing agent generator) and the signal-address circuit of the fire alarm panel must be such that no accidents on the panel, power supply, interference, or interference should cause the fire extinguishing system to operate. Extinguishing solution to trigger fire extinguishing system. The decision to extinguish should be made only by the starter, on the remote control, only the operation should be recorded.

 This goal is achieved by the fact that in the addressable alarm device of an autonomous fire extinguishing system containing an extinguishing agent generator, an autonomous heat starter and a fire alarm panel connected to a power source, an autonomous heat starter and an extinguishing agent generator installed in a protected volume are parallelly connected by conductors to each other and to matching device installed outside the protected volume, which is parallel connected by conductors with the address equivalent and fire a remote control, and the matching device is made in the form of a resistor and relay, the winding of which is connected by conductors to an autonomous heat starter, and the resistor is connected by conductors in series with the address equivalent and the fire alarm panel, and the normally open relay contacts are connected in series with the resistor and the fire alarm panel, and the address the equivalent is made in the form of a resistor. An autonomous thermal starter is made in the form of permanent magnets connected by the same pole mounted on a striker made of non-magnetic material, a thermal trigger mechanism and an inductor installed in a magnetic conductor, with the output of the coil connected to the diode and the height of the coil not exceeding the height of the permanent magnet.

The device and advantages of the present invention will become apparent from the following detailed description of examples of its implementation in the accompanying drawings, in which:
FIG. 1 is a block diagram of a device,
FIG. 2 is a diagram of a matching device and its connection,
FIG. 3 - General view of an autonomous heat starter,
FIG. 4 is a diagram of an autonomous heat starter.

 The address signaling device of an autonomous fire extinguishing system consists of parallel connected conductors 1 of FIG. 1 generator 2 extinguishing agent, autonomous heat starter 3 installed in the protected volume 4, and the relay coil 5 of FIG. 2 of the matching device 6, the resistor 7 of which, in turn, is connected by the conductors 8 of FIG. 1 sequentially to the address equivalent 9 and the fire alarm panel 10, which is powered by a power source 11. Normally open contacts 12 of FIG. 2 are connected in series with a resistor 7 and a fire alarm panel 10 of FIG. 1.

 The stand-alone thermal starter 3, the device of which is shown in FIG. 3 generate email. a pulse with an amplitude of about 10. In a load of 2 cm for a duration of 5 ms. What is enough to trigger the generator 2 of the extinguishing agent and relay 5. The low-frequency pulse is obtained by converting the mechanical energy stored in the compressed spring into electrical energy during the passage of the magnets 14 through the inductor 15, which is much longer in duration than the impact of the striker and the piezoelectric generator.

 The stand-alone thermal starter 3 consists of a thermal trigger mechanism, on the striker 13 of FIG. 3 of which permanent magnets 14 are installed, and inductors 15 in the magnetic casing. The height H of the coil 15 is not greater than the length of the permanent magnet 14. The output of the coil 15 is connected to the diode 16 of FIG. 4.

 Depending on the protected volumes 4 of FIG. 1 the number of autonomous thermal starters 3 in them can be different. The starters are connected in parallel with one 2-wire communication line with the generator 2 and the relay coil 5 of FIG. 2 observing the polarity of FIG. 4. The diode 16 is necessary so that when one of the starters is activated in the amount of 4 of FIG. 1 em generated by it. energy was not consumed by the rest of the starters, but was directed to the operation of the generator 2 extinguishing agent and relay 5 of FIG. 2.

 As can be seen in FIG. 1, the address signaling device of an autonomous fire extinguishing system can be installed on objects with a significant number of protected objects 4, while matching devices 6 from these volumes are connected in parallel with one two-wire communication line 8 to the fire alarm control panel 10.

 As a fire alarm control panel 10, for example, an electric circuit resistance meter with digital indication and storing of measured values is used.

 The device operates as follows. In case of fire in any of the protected volumes 4 of FIG. 1, when the air temperature reaches the set value, the thermal trigger mechanism of the autonomous thermal starter 2 closest to the focus occurs. The permanent magnets 14 of FIG. 3 pass through an inductor 15 in which an induction current is sufficient to drive the generator 2 of FIG. 1 extinguishing agent and relay 5 of FIG. 2 of matching device 6. In volume 4, the fire is extinguished, and closed contacts 12 change the value of the electrical resistance of circuit 8 of FIG. 1, which is registered at the fire control panel. Measures are taken to localize a fire and bring the device into "standby" mode.

 When a device protects an object having, for example, 225 protected volumes with resistors 7 of FIG. 2 in 225 matching devices 6 and the address equivalent with a value of 1 kOhm, the resistance measured by the remote control circuit will be 226 kOhm, respectively, a constant indication in the "standby" mode on the remote control will be "226". When decreasing from this value, an audible and light alarm is triggered on the remote control, which indicates the triggering of an autonomous fire extinguishing system in some volume, the number (address) of which will be displayed in order on the remote. An increase in the “standby” value indicates a signal circuit 8 failure. A variable resistor is used as the address equivalent to compensate for the variation in the parameters of the resistors of the matching devices. The invention improves the creation of a full range of devices and measures for fire protection of high fire hazard facilities.

 This device will find its application for the protection of objects of fire hazardous production, special purpose, as well as rolling stock of railway transport, for the protection of sea and river vessels, which is confirmed by the pilot operation of the addressable alarm device of an autonomous fire extinguishing system.

Claims (2)

 1. The addressable alarm device of an autonomous fire extinguishing system, comprising a fire extinguishing agent generator, an autonomous heat starter and a fire alarm panel connected to a power source, characterized in that the autonomous heat starter and extinguishing agent generator installed in the protected volume are parallelly connected by conductors to each other and to the matching a device installed outside the protected volume, which is parallelly connected by conductors with the address equivalent and the fire alarm panel, moreover, the matching device is made in the form of a resistor and relay, the winding of which is connected by conductors to an autonomous heat starter, and the resistor is connected by conductors in series with the address equivalent and fire alarm panel, and normally open relay contacts are connected in series with the resistor and fire alarm panel, and the address equivalent is made in form of a resistor.  2. The device according to claim 1, characterized in that in it an autonomous thermal starter is made in the form of permanent magnets connected by the same pole mounted on a striker made of non-magnetic material, a thermal trigger mechanism and an inductor installed in a magnetic casing, the output of the coil is connected to the diode, and the height of the coil is not greater than the height of the permanent magnet.

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