RU187576U1 - IGNITER - Google Patents

Abstract

The utility model relates to the field of pyrotechnic means of initiating the executive bodies of various functions and purposes by igniting the force of fire of their pyro-powder charges. The igniter contains a tubular body equipped with drainage windows and an axial threaded hole for securing the safety-starting device, the coaxial igniter is rigidly fixed coaxially to the longitudinally projected hammer, which communicates with the multilayer pyrotechnic equipment of the temporary retarder, the end of which is equipped with an outlet nozzle. New is the fact that the thickness of the igniter, main and reinforcing layers of the pyrotechnic equipment of the moderator, having a diaphragm coefficient in the range of 0.61-0.66, are made in the ratio of 1: 8: 1. The proposed technical solution provided differentiated parameters and the nature of the combustion of the pyrotechnic equipment of the moderator along its length, with the flow dynamics of the moderator charge optimized by the gas dynamics of the gas dynamics of the moderator to ensure the required time pause for transmitting the calibrated fire pulse to the pyro-powder Executive body of the main product from its safety- starting device. 1 ill.

Description

The utility model relates to the field of pyrotechnic means of initiating the executive bodies of various functions and purposes by igniting the force of fire of their pyro-powder charges.

The level of this technical field is characterized by the device according to the patent RU 2275957, F42C 9/10, B01J 7/00, 2004, comprising a housing in which the triggering element is arranged in series, a pyrotechnic time delay system and a main gas-generating charge forming at the exit of the nozzle working high temperature torch.

A feature of the known device is that nozzle openings are made in the housing for independent gas removal of the generated combustion products of the channel charge checkers, which are used to pressurize the working cavity.

The pyrotechnic delay system is equipped with an autonomous executive charge that works after the deceleration time and forms an igniter flame force through a calibrated outlet.

The value of the time delay is determined by the properties of the pyrotechnic compositions of the moderator, their temperature and burning rate, the total length of the charges.

In the described moderator, the problem of stable operation of two or more actuators from one initiating device is fundamentally solved.

The disadvantage of this igniter is the increased bearing strength of a thick-walled case, in which the generated gases are accumulated, designed to pressurize the working capacity of the device until the additional membrane covering the gas ducts is mechanically destroyed.

In this case, the pyrotechnic moderator is compelled to be isolated from the combustion chamber of the gas-generating charge, which complicates the design, increasing dimensions, which limits the scope, in particular, for ammunition, the functioning of which is not associated with high pressure.

More perfect is the device according to the patent RU 101539 U1, F42C 19/08, B01B 3/10, 2010, which is selected according to the technical nature and the number of matching features as the closest analogue to the proposed igniter.

The known igniter contains an igniter capsule as an initiating device mounted in an axial sleeve rigidly connected to the housing and communicating with a central fire transfer channel with a coaxial pyrotechnic end-combustion moderator mounted above the outlet nozzle.

A feature of the known igniter is that the housing is made in the form of a threaded mounting tube having drainage windows communicating via longitudinal communication channels with a receiver adjacent to the pyrotechnic moderator in the axial sleeve, which is geometrically closed on the ledge of the housing by rolling its open end onto the moderator flange, which leans on the axial sleeve.

The shock type igniter capsule is placed on the opposite side of the sleeve to interact with the striker of the external impact mechanism, while the ratio of the end-combustion area of the pyrotechnic moderator to the total channel area of the axial sleeve is limited to 3-4.

In the known igniter, functional reliability is ensured and the accuracy of operation of the compact igniter is increased, of a simple and technologically advanced design.

The execution of the body in the form of an assembly threaded tube ensured the autonomy of the igniter as an assembly unit, manufactured and stored separately from the ammunition, which increases the safety in official handling and mobility of the assembly.

Equipping the casing with drainage holes expands the technological capabilities for varying various pyrotechnic compositions of the moderator, adapting the modes and parameters of their combustion to the design features of the initiated ammunition.

The communication connection of the drainage holes of the housing through the longitudinal channels of the axial sleeve with the receiver associated with the pyrotechnic moderator is designed to control the gas-dynamic regime inside the product within a wide technological range, which creates its versatility in use.

The receiver in the volume of the axial sleeve serves as a damping element, in which the fluctuations in the working pressure of the gases at a variable volume of the gas outlet are compensated and the gas flow through the drainage holes is stabilized to maintain gas-dynamic resistance in the housing.

An axial sleeve mounted inside the housing is mounted on its ledge and rigidly connected to the housing by rolling its open end onto the adjacent flange of the coaxial shell of the moderator.

The limitation of the ratio of the end face area of the pyrotechnic moderator to the total channel area of the axial sleeve is selected from the condition of ensuring stable operation in various products, provided that the pyrotechnic charge of the moderator is burned for the necessary time delay until the working force of the flame is transmitted to the pyro-powder structural elements of the main product.

The disadvantages of the known igniter include the not optimized ratio of the thickness of the layers of pyrotechnic equipment of the moderator, sequentially igniter, the main incendiary and amplification as 1: 12: 0.6, because the increased time delay formed by burning an extended igniter layer increases the linear dimension of the igniter, reducing a hinge of the reinforcing layer in the given dimensions of the moderator, while the latter generates a short focus of fire force, which creates constructive restrictions on joining the igniter to the executive body of the initiate.

In addition, the orifice of the outlet nozzle is not functionally related to the end-face area of the pyrotechnic equipment of the moderator; therefore, its effect is not effective when, due to over-compaction of the generated gases in the receiver, they are unproductively diverted through the drainage openings of the housing into the atmosphere, or when the diameter of the outlet nozzle is large a compact extended fire force is formed, as a result of which the ignition of the initiated element of the main product is not stable and is possible only for a short distance ii.

The technical problem to which the present utility model is directed is to increase the functional reliability of the moderator and the universal ignitor as a whole.

The required technical result is achieved by the fact that in a known igniter containing a tubular body equipped with drainage windows and an axial threaded hole for securing a safety-starting device, a coaxial igniter is rigidly fixed to its longitudinally coaxial projectile, communicating with a multilayer pyrotechnic equipment of a temporary moderator, the end of which equipped with an output nozzle, at the suggestion of the authors, the thickness of the igniter, main incendiary and reinforcing layers The technical equipment of the moderator, having a diaphragm coefficient in the range of 0.61-0.66, is made in the ratio of 1: 8: 1.

Distinctive features of the proposed technical solution provided the differentiated parameters and the nature of the combustion of the pyrotechnic equipment of the moderator along its length, with the flow dynamics of the moderator charge optimized by the gas dynamics of the gas dynamics to ensure the required time pause for the transfer of the calibrated fire pulse to the pyro-powder executive body of the main product from it safety starting device state.

The selected aperture coefficient of 0.61-0.66, as a function of the ratio of the passage section of the outlet nozzle of the end face to the area of end combustion of the pyrotechnic charge of the moderator, determines the limits of the acceptable range of the diameter of the outlet nozzle of the shell of the moderator, which, for example, for a charge with a diameter of 6.4 mm is 4 , 0-5.0 mm, when a stable and reliable operation of the igniter as intended is guaranteed to be achieved.

The functional purpose of the adjoining layers of pyrotechnic equipment of the moderator is determined according to the scheme adopted in the industry:

- igniter from a composition sensitive to thermal energy for transmitting an initiating pulse from the igniter capsule;

- main incendiary, the combustion of which provides a temporary delay in the transfer of a thermal pulse to start systems and mechanisms, engines and ammunition, necessary according to the conditions of their functional interaction;

- amplifying, which forms a fire force, guaranteed to trigger actuating pyropohovoi devices.

The ratio of the thicknesses of the adjacent functional layers of pyrotechnic equipment of the moderator as 1: 8: 1 was chosen experimentally, based on the technical tasks performed by it, sequentially changing the parameters of layer-by-layer combustion of pyrotechnic compositions.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of a quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new effect of the sum of the attributes.

The essence of the utility model is illustrated by the drawing of an example of the implementation of the igniter, its design in the relationship of structural elements, which has a purely illustrative purpose and does not limit the scope of claims of the set of essential features.

The igniter is mounted in a tubular housing 1, which has an open threaded hole 2 at the open end for installing a standard safety start-up device with a longitudinally projected hammer (conditionally not shown).

On the opposite side of the housing 1 is placed the igniter capsule 3. which is rigidly fixed in the axial channel 4 of the sleeve 5.

The sleeve 5 is equipped with longitudinal channels 6 communication with drainage windows 7 of the housing 1.

The sleeve 5 rests on the flange 8 of the shell 9 of the moderator 10, which are geometrically closed when adjacent to each other by means of a rolled lower edge of the tubular body 1 according to the drawing.

The shell 9 of the moderator 10 is equipped with pyrotechnic end-burning equipment made of adjoining functional layers: 11 - igniter 1.5 mm thick, 12 - main incendiary 12 mm thick and 13 - reinforcing 1.5 mm thick, the thickness of which is in the stated ratio as 1: 8: 1 respectively.

At the same time, the ratio of the end-face area of the pyrotechnic equipment 11-12-13 of the moderator 10 to the total passage area of the channels 4 and 6 of the axial sleeve 5 is maintained in the range of 3-4 for the stability of the gas-dynamic regime in the structure of various initiated devices, ensuring the universality of the igniter.

At the end of the shell 9, an output nozzle 14 is made, the diameter of which is 4.0-5.0 mm, selected from the condition of diaphragmation of the generated gaseous products of combustion with a coefficient in the range of 0.61-0.66.

In the sleeve 5 above the igniter charge 11 of the pyrotechnic moderator 9, a receiver 15 is formed by a groove, which is connected by longitudinal channels 6 to the free volume of the housing 1 and its drainage windows 7.

The ratio of the total area of the drainage windows 7 of the housing 1 to the area of the end surface of the combustion equipment of the moderator 9 is maintained in the range of 0.6-0.7 to provide a gas damper inside the tubular housing 1.

The proposed igniter operates as follows. When the safety-starting device is triggered, its firing pin punches the igniter 3, which when triggered gives a fire pulse to the axial channel 4 of the sleeve 5, which ignites the pyrotechnic composition of the layer 11 of the moderator 9.

The resulting gaseous combustion products with a temperature of 1200 ° C accumulate in the receiver 15, where they are mixed, equalizing the pressure.

Excess gaseous products through communication channels 6 and open by that time, after combustion of the igniter 3, the axial channel 4 enter the free volume of the housing 1, filling it.

Next, the front combustion front of the retarder equipment 10 ignites the pyrotechnic composition of the layer 12, the gaseous products formed during combustion of which fill the shell 9 of the retarder 10 and the receiver 15, and the excess through channels 6 enters the housing 1, where a gas shutter is formed, damping pressure inside the shell 9 of the moderator 10 and stabilizing the combustion mode of the pyrotechnic incendiary layer 12.

The excess gas in the housing 1 is automatically discharged through the drainage windows 7 into the atmosphere, preventing the breakdown of the frontal combustion front of the layer 12 and its possible attenuation.

After a specified period of time, when the combustion of the pyrotechnic composition of the main incendiary layer 12 ends, a flash of the reinforcing pyrotechnic composition of the layer 13 occurs with the formation of a long-focus fire force at a temperature of 1800 ° C, aimed at the executive body of the main product to initiate its pyropochus charge.

A comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical coincidence of the aggregate of essential features of the utility model.

Differences of the igniter, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in pyrotechnic automation of processes and mechanisms.

Industrial implementation of the proposed igniter according to a utility model is possible in the existing pyrotechnic production in series.

From the foregoing, we can conclude that the utility model meets the patentability conditions.

Tests of prototypes of the igniter of the proposed design confirmed the functional reliability of its simple and technologically advanced design and the achievement of new performance indicators for the accuracy of operation of all structural elements in a given sequence and the stability of technical characteristics, which allows it to be recommended for mass production on customer orders.

Claims (1)

An igniter comprising a tubular housing equipped with drainage windows and an axial threaded hole for securing a safety-starting device, an igniter caps rigidly fixed to the longitudinally projected hammer of which is connected to a multilayer pyrotechnic equipment of a temporary retarder, the end of which is provided with an output nozzle, characterized in that the thickness igniter, main incendiary and amplification layers of pyrotechnic equipment of a moderator having a diaphragm coefficient tion in the range of 0,61-0,66 are formed on both the 1: 8: 1.

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