RU2098157C1 - Independent heat starter - Google Patents

Abstract

FIELD: fire prevention for equipment of small-sized fire-extinguishing installations with a forced system of extinguisher expulsion, as well as due to generation of hot gas by installations of thermochemical operating principle. SUBSTANCE: at an origination of fire, when the ambient temperature attains the critical value, the heat fuse made of material possessing the effect of "shape memory" gets reset and takes the shape at actuation; tapered neck 1 of the spring-loaded needle gets disengaged from the heat fuse, and the primer cap is pierced. At burning of the solid-fuel charge the actuating systems of the fire-extinguishing installations are fed with working gas. Stabilization of burning and provision of the necessary flow rate of the gas generator occur by means of an orifice plate. EFFECT: enhanced reliability. 2 cl, 3 dwg

Description

 The invention relates to fire fighting equipment and can be used to equip automatic fire fighting installations, mainly for the forced release of a fire extinguishing agent at the initial moment of a fire.

 A starting device for a fire extinguisher (ed. St. 1353445, class A 62 C 35/34, dated 02/06/1986) is known, comprising a housing with a channel, the input and output sections of which are covered by a separation membrane installed in a plane perpendicular to the longitudinal axis of the channel, a gas generator with a gas tube fixedly mounted in the housing from the side of the outlet section of the channel, coaxially relative to it and in contact with the output end with a separation membrane.

 The main disadvantage of this device is that it is not autonomous. Those. it needs a trigger signal generator, a device that decides to activate the fire extinguisher and determines the timing of the trip.

 The closest in technical essence is the thermal lock of an automatic fire extinguishing installation [1] containing bushings made of insulating material mounted in the frame, 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 a fixed length, one end of which rests on frame, and the second to 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 with the formation of a transverse corrugation at the outer end of the tape, located between the parallel seams of fusible alloy, and in the cavity of the corrugation is placed a signaling device of a lock malfunction.

Significant disadvantages of this device are the following:
the impossibility of checking the operability of the castle due to the destructibility of the endless tape, as well as the non-repeatability of the characteristics of a particular product during repeated installations, determine a low "trust" in the castle;
both seams of an endless tape cannot collapse at the same time since only one of them perceives a mechanical load, therefore, the normal operation of the lock in case of fire will be preceded by a signal about its malfunction, which complicates the logic of operation of the entire device and also reduces the "trust" in it.

 The basis of the invention is the goal of creating a self-contained high-speed pressure generator that starts when the ambient temperature reaches a critical value. The device should be easy to handle with the ability to test in any conditions and technological in mass production.

 This goal is achieved by the fact that in an autonomous thermal starter containing a solid fuel gas generator and trigger mechanism; the trigger mechanism is made in the form of a spring-loaded needle placed in the guide sleeve, on the end of which a symmetrical groove is made, and on the conical neck of the needle there is a thermal fuse placed in the groove of the guide sleeve, the other end of which is detachable, for example, by thread, mounted on the gas generator housing is coaxial with the inductor, solid fuel charge and the igniter capsule of the gas generator. The thermal fuse is made in the form of a slotted ring with flats perpendicular to the slot of a material having a shape memory effect.

 In FIG. 1 shows a general view of the starter in "standby" mode; figure 2 is a General view of the starter during operation (thermal fuse is not shown); figure 3 mechanics of operation of the thermal fuse.

 Figure 1 shows the starter in "standby" mode and consists of a guide sleeve 1 in which the needle 2 is placed. By counteracting the spring 3, the thermal fuse 4 holds the needle 2 by its conical neck 5. The sleeve 1 is screwed onto the body 6 of the gas generator. In the housing 6, an igniter capsule 7, a solid fuel charge 8 and an inductor 9 are coaxially mounted. For accurate installation of the thermal fuse 4 in the sleeve 1, the flats 10 are cut on it, and a groove 11 is cut in the sleeve.

Thermal fuse 4 operates as follows:
made of a material having a shape memory effect, for example, of titanium nickelide, in a form called a “form upon actuation” in FIG.

 the workpiece is deformed by pulling through a calibration hole to give the “duty” shape.

when heated to a tripping temperature, for example 72 ^o C, the shape of the workpiece is restored with forces of about 80% of the yield strength.

 The number of cycles of such a change is almost unlimited, which makes it possible to 100% guarantee the fuse.

 When a fire occurs and the environment is heated to the temperature of the thermal fuse 4, the needle 2 is released and it is punctured by the action of the spring 3 of the igniter capsule 7. The force of the fire is transmitted to the solid fuel charge 8, and the gas generator is activated. The inductor 9 stabilizes the combustion process of the charge 8 and provides the necessary flow rate of the working gas.

The main advantages of the invention:
an unlimited number of checks of the thermal fuse in various operating conditions of the starter separately from the gas generator itself, which does not lead to changes in thermophysical characteristics and destruction of elements, significantly increases the probability of failure-free operation;
performance is ensured by the total operation of the spring wedging the fuse with its conical neck, and the actual operation of the thermal fuse:
simplicity of the device and manufacturability of structural elements.

 The proposed starter will find its application in equipping small-sized fire extinguishing installations with a forced displacement system of the extinguishing agent, as well as due to the generation of hot gas in installations with a thermochemical principle of operation.

Claims (2)

 1. An autonomous heat starter containing a solid fuel gas generator and a trigger mechanism, characterized in that the trigger mechanism is made in the form of a spring-loaded needle placed in a guide sleeve, the end of which has a symmetrical groove diameter, and is installed on the tapered neck of the needle thermal fuse located in the groove of the guide sleeve, the other end of which is detachable, for example, threadedly mounted on the gas generator housing coaxially with the inductor, solid fuel charge and ignition capsule Itel gasifier.  2. The starter according to claim 1, characterized in that the thermal fuse is made of a material having a shape memory effect, in the form of a cut ring with flats.

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