RU2115448C1 - Firing mechanism for gas-generating device - Google Patents

Abstract

FIELD: fire-extinguishing equipment, more specifically, firing mechanisms for initial of gas-generating devices in starting of fire extinguishers. SUBSTANCE: mechanism consists of body, firing pin including triggering head, disc-pin with working boss and retainer in the form of cotter pin based on split pin and ring. EFFECT: higher efficiency and safety of fire extinguisher, simplified and reliable firing mechanism. 1 dwg

Description

 The invention relates to fire fighting equipment, in particular to trigger mechanisms for gas generating devices, and can be used to activate gas generating devices, mainly powder fire extinguishers.

 Known trigger mechanism for a gas generating device of fire extinguishers, comprising a housing consisting of two parts, located in the body of the firing pin, having a cone-shaped working part (protrusion), a spring, a hammer, a working spring, a latch and a trigger rod interacting with the drummer, while the latch is made in the form of a ball lock integrated in the striker and interacting with the body, a blind hole is made in the striker on the side of the striker, and on the outer surface there is a groove for the lock balls, a spring and the end facing the striker arnica arranged in the blind hole of the striker, and the operating spring is mounted between the trigger and the striker rod (see. auth. binding. 405853).

 This mechanism is characterized by satisfactory reliability and is relatively simple to implement. At the same time, the implementation of the working part of the striker in the form of a pointed protrusion does not exclude the possibility of a through breakdown of the capsule, which leads to leakage of the generated gas under the striker and from the fire extinguisher body, thereby reducing the working pressure for ejecting the extinguishing agent and reducing the efficiency of the fire extinguisher. In addition, the design features of the mechanism do not provide further simplification.

 The closest in number of common features to the invention is the fire extinguisher trigger mechanism, comprising a head, a hammer, an elastic element, capsules, a pin and a nut for preloading the mechanism, while serving as its body [1].

 This mechanism is quite simple and helps to increase the reliability of the fire extinguisher.

 A significant drawback of the mechanism is that, due to its design features, for example, a pointed firing pin and the absence of sealing elements for the firing pin rod relative to the nut body and the latter relative to the neck of the fire extinguisher, it does not eliminate the possibility of through breakdown of the capsule, leakage of the generated gas and lowering the working pressure, which adversely affects the efficiency and safety of the fire extinguisher.

 The proposed trigger mechanism eliminates the disadvantages of the known solutions of a similar purpose and ensures a higher technical result, which consists in further improving the efficiency and safety of the fire extinguisher by eliminating the leakage of the generated gas and reducing the working pressure for the release of the fire extinguisher as a result of reliable sealing of the mechanism relative to the fire extinguisher body and exceptions for breakdown capsule.

 The essence of the invention lies in the fact that in the proposed trigger mechanism for a gas-generated device of fire extinguishers, comprising a housing and a trigger striker placed therein, made in the form of a cylindrical rod, the upper part of which is equipped with a spherical head, and the lower part is equipped with a working disk protrusion, trigger striker-striker and pyrotechnic cartridge with capsule, the above technical result is ensured by the fact that the working protrusion of the striker-disk is made of a spherical shape and placed on the center of the surface of the striker disk facing the pyrotechnic cartridge with the capsule, and in the middle part of the trigger striker drum, an annular groove for the sealing ring is made and a through diametrical hole for the clamp is made above it, while the clamp is made in the form of a check consisting of a cotter pin and an exhaust ring connected to it, and the casing is made in the form of a continuous cylinder of different diameters with sealing elements relative to the neck of the extinguisher casing.

 In this case, increasing the efficiency and safety of the fire extinguisher is achieved by sealing the mechanism housing relative to the neck of the fire extinguisher, the trigger striker relative to the mechanism body, performing the working protrusion of the disk-striker of a spherical shape and the design of the latch. At the same time, giving the working ledge a spherical striker eliminates the possibility of a through piercing of the capsule and loss of working pressure as a result of the generation of gas under the striker and from the fire extinguisher, which improves the efficiency of the fire extinguisher as a result of a more complete use of the working pressure to eject the extinguishing agent and reduce the safety of working with it . In addition, simplifying the design of the mechanism increases the reliability of its operation.

 A comparative analysis of the proposed mechanism with the prototype shows that the mechanism differs from the known structural design of the working protrusion of the striker, the sealing of the trigger striker and the body, as well as the execution of the latch and the body. Thus, the proposed inventive mechanism is new, because its structural elements and their implementation are not known from the existing level of technology.

 Analysis of other technical solutions in the art, for example by author. St. USSR 126622 and 1217429 and RF patent 2018332, allows us to conclude that the proposed mechanism has an inventive step, because its structural elements and significant differences do not explicitly follow from the prior art. In addition, the mechanism is industrially applicable, which follows from the results of experimental verification, the achieved technical result and practical tasks in the field of fire fighting equipment.

 The possibility of carrying out the invention is confirmed by the following information relating to the design and principle of operation of the mechanism, as well as to the achieved technical result and the result of experimental verification.

 The drawing shows the trigger mechanism, section.

 The trigger mechanism for a gas generating device for fire extinguishers, comprises a housing 1, a trigger striker 2, a retainer 3 and a pyrotechnic cartridge with a capsule 4 of a gas generating device.

 The housing 1 is made in the form of a continuous cylinder of different diameters with a central hole for placement of the trigger striker 2 and sealing elements in the form of an annular protrusion 5 and a sealing ring 6 for sealing the neck 7 of the fire extinguisher body.

 The trigger striker 2 is made in the form of a cylindrical rod, the upper part of which is equipped with a spherical launch head 8, in the middle part there is a cylindrical groove for the sealing ring 9 and a through diameter hole (not shown) for the retainer 3 is made over it, and the lower part is provided with a disk -bolk 10 with a working protrusion 11 of a spherical shape in the center of the surface of the disk-striker 10, facing the squib 4.

 The latch 3 is designed to hold the trigger striker 2 in the idle state of the fire extinguisher and consists of a check containing a cotter pin and ring 12.

 The trigger mechanism works as follows.

 First, a sealing ring 9 is installed in the annular groove, then the firing pin 2 is installed in the central hole of the mechanism housing 1 and the position of the firing pin 2 is fixed in it by means of a retainer 3, inserting its hole above the sealing ring 9. The assembled mechanism is installed in the neck 7 the body of the fire extinguisher, sealing the connection through the annular protrusion 5 and the sealing ring 6.

 If necessary, work with a fire extinguisher using a ring 12 pull the pin of the latch 3 from the hole of the trigger striker. Then, by pressing (blow) the spherical launch head 8 of the striker-head 2, the latter is moved towards the squib 4 of the gas generating device. In this case, the striker disk 10 with the working protrusion 11 hits the capsule of the pyro cartridge 4, causing a spark and a gas-generating charge in the decomposition chamber of the fire extinguisher (not shown). The generated gas creates the necessary working pressure in the fire extinguisher, which displaces the extinguishing agent (powder) to the source of ignition.

 For reuse of the fire extinguisher, the gas generating charge is reinstalled in it and the extinguishing agent is loaded and the trigger mechanism is assembled and installed in the manner described above (if necessary, they are put into operation in a known manner).

 The practical use of the mechanism in a fire extinguisher indicates a significant increase in its reliability and simplification, as well as an increase in the efficiency and safety of the fire extinguisher in operation, which is confirmed by the results of experimental verification.

 Currently, documentation has been developed, samples of mechanisms have been made, and tests have been carried out to confirm the achievement of a technical result.

Claims (1)

 Trigger mechanism for a gas generating device of fire extinguishers, comprising a housing and a trigger striker placed therein, made in the form of a cylindrical rod, the upper part of which is equipped with a spherical head, and the lower striker disk with a working protrusion, trigger striker striker and pyrotechnic cartridge with a capsule, characterized in that the working protrusion of the disk-striker is made of a spherical shape and is located in the center of the surface of the disk-striker, facing the pyrotechnic cartridge with the capsule, and in an annular groove for the sealing ring is made of a part of the trigger striker rod, and a through diameter hole for the lock is made above it, the lock is made in the form of a check, consisting of a cotter pin and an exhaust ring connected to it, and the body is made in the form of a different diameter cylinder with elements sealing against the neck of the fire extinguisher body.