RU2101059C1 - Autonomous heat starter - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: the offered heat starter consists of solid fuel generator accommodating electrical percussion cap connected by conductors with piezoelectric generator. Screwed on piezoelectric generator is heat trigger and striking mechanism. Striking surfaces on striker of trigger and striking mechanism and on piezoelectric generator are made convex. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to fire fighting equipment and can be used to equip fire-fighting installations, mainly for the forced release of extinguishing agent, as well as to start hot-gas fire fighting installations with a thermochemical principle of operation at the initial moment of fire.

 Known thermal lock automatic fire extinguishing installation (ed. St. 1803156 from 12.29.90, A 62 C 35/00), containing mounted in the frame of the sleeve of insulating material, one of which is mounted with the possibility of movement along the frame and connected to a spring-loaded cable placed in a flexible tube of fixed length, one end of which rests on the frame, and the other on the body of the starting device of the fire extinguishing installation, and the bushings are covered by an endless foil tape, and the connection of the ends of the tape is overlapped transverse corrugation on the outer end of the tape, located between the parallel seams of low-melting alloy and in the cavity of the corrugation is placed a malfunction indicator of the lock.

 A significant drawback of this lock is the impossibility of checking the operability of the lock during installation and routine checks due to the destructibility of the endless belt.

 The closest in technical essence is an autonomous heat starter according to the application N 95108002 dated May 17, 1995 containing a trigger mechanism made in the form of a spring-loaded needle placed in a guide sleeve, on the end of which a groove symmetrical to the diameter is made, and a needle is installed on the conical neck a thermal fuse located in the groove of the guide sleeve, the other end of which is detachable, for example, by a thread, is mounted on the gas generator housing coaxially to the inductor, solid fuel charge and igniter caps ogeneratora.

 The disadvantage of this starter is as follows: the location of the starter is possible only directly on the fire fighting installation, the location of which determines the sensitivity of the starter to a possible source of fire in the protected volume, which in most cases is not appropriate. The specified starter is a safety device of the fire fighting installation from heating.

 The purpose of the invention is the creation of an autonomous starter of fire fighting installations installed in the optimum location for the protected object for “watch”, regardless of the location of the actual fire fighting installations. The starter device must provide the ability to verify performance during installation and routine maintenance.

 This goal is achieved by the fact that in an autonomous heat starter containing a solid fuel gas generator and a thermal trigger mechanism, the trigger mechanism is detachable, for example, by thread, connected to a piezoelectric generator, which is connected by conductors to an electric capsule igniter of the gas generator, and shock surfaces the piezoelectric generator and the striker of the trigger mechanism are made convex.

 In FIG. 1 shows a general view of the starter in "standby" mode; in FIG. 2 general view of the starter during operation.

 In FIG. 1 shows the starter in "standby" mode, it consists of a solid fuel gas generator 1, in which an electric igniter capsule 2 is placed, connected by conductors 3 to a piezoelectric generator 4. A thermal trigger mechanism 5 is screwed onto the piezoelectric generator 4. trigger 5 and on the piezoelectric generator 4, the shock surfaces 7 are convex.

 In the event of a fire and heating of the environment at a controlled point in the space of the protected object to the temperature of the thermal trigger mechanism 5, the striker 6 hits the piezoelectric generator 4. An electric pulse through the conductors 3 activates an electric igniter 2, and the solid-state gas generator is turned on. The convexity of the shock surfaces 7 of the striker 6 and the piezoelectric generator 4 are necessary to eliminate the influence of the "air cushion" during the collision and the formation of the shock wave in the piezoelectric generator.

The main advantages of the invention:
the installation of a thermal trigger mechanism of the starter at the optimal point for monitoring the temperature of the environment of the protected object, regardless of the location of the fire extinguishing installation, determines the timeliness of switching on the latter;
when switching the conductors of the piezoelectric generator to the technological equivalent of an electric igniter capsule, it becomes possible to check the operability of the starter during installation and routine maintenance. The probability of failure-free operation of the installation itself is determined by the reliability of the electric igniter capsule and is quite high.

 The proposed starter will find its application in equipping fire extinguishing installations with a forced extinguishing system, as well as due to the generation of hot gas in installations with a thermochemical principle of operation while providing fire protection for objects without energy sources, vehicles and other mobile rarely visited objects.

Claims (1)

 An autonomous heat starter comprising a solid fuel gas generator and a thermal trigger mechanism, characterized in that the trigger mechanism is detachable, for example, threaded, connected to a piezoelectric generator, which is connected by conductors to an electric igniter capsule of the gas generator, and the shock surfaces of the piezoelectric generator and the striker of the trigger mechanism is made convex.

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