RU2691267C1 - Pressure accumulator - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to military equipment, and more specifically to design of powder pressure accumulator intended for actuation of aerodynamic surfaces of aircrafts. Pressure accumulator consists of igniter 2 arranged sequentially in housing 1, of combustion chamber 3 with powder charge 4, of detonation unit with initiating suspension 5 and working suspension 6, pressed into blind hole of housing 1, wherein initiation portion 5 adjoins igniter 2. Igniter charge 7 is located coaxially to detonating unit with weights 5 and 6 in blind hole of housing 1, made on the side of combustion chamber 3 and adjoining it. Initiating charge 5 and working suspension 6 are made of secondary explosive, and ignition charge 7 is made of explosive material. Blind hole with ignition charge 7 located in it has diameter d. Distance S (thickness of the pressure wall) along the axis between the detonating unit with initiating weighed portion 5, operating weight 6 and ignition charge 7 is determined from ratio (0.3⋅d + 1.6)≤S <(0.3⋅d + 1.6)⋅1.5.EFFECT: proposed device allows improving performance characteristics, namely, increasing operating temperature range, increasing response speed of pressure accumulator, improving operating safety of this device, improving weight and size characteristics.6 cl, 1 dwg

Description

The invention relates to military technology, and more specifically to the design of a powder pressure accumulator, designed to actuate the aerodynamic surfaces of aircraft.

A device described in the book of A.P. Vasil'eva et al., Entitled “Fundamentals of the Theory and Calculation of Liquid Rocket Engines”, Vysshaya Shkola Publishing House, Moscow, 1967, p. 567. The known technical solution contains a combustion chamber, a powder charge, an igniter, a gas path with a throttle and a filter.

However, the described construction has a number of disadvantages, the main of which are insufficient reliability of ignition of the powder charge at subzero temperatures, a large variation of pressure in the combustion chamber at subzero and positive temperatures.

The closest and selected as a prototype is a powder pressure accumulator, described in the patent of the Russian Federation No. 2122133 IPC F02K 9/00, publ. 11/20/1998, under the name "Powder Pressure Accumulator", designed to power the steering gears in the steering gear units and consists of a casing with a sequential igniter and a combustion chamber with a powder charge.

However, the described construction has a number of drawbacks, which include:

- the complexity of the design, significant weight and size characteristics, high cost and complexity of manufacturing the device;

- a narrow temperature range of the working application;

- analysis of the structure of the powder pressure accumulator allows to judge about the small value of the maximum developed pressure.

The objective of the invention is to improve the performance, namely the creation of a pressure accumulator resistant to various kinds of pressure, developing pressures up to 1500 atm, with a short response time and a wide operating temperature range from minus 60 ° С to plus 100 ° С, small-sized, inexpensive and more simple to manufacture the device.

The technical result of the present invention is the ability to develop high pressures in various pneumatic systems, with proven reliability, resistance to various influences and a wide temperature range of operation, due to the transfer of the firing impulse from the igniter to the igniting charge through the wall of the body formed between the deaf hole of the body and the detonation a knot and a blind hole of the case with the igniting charge and using only heat-resistant mat in the device episodes.

This is achieved by the fact that the pressure accumulator, consisting of a body and successively located in it an igniter and a combustion chamber with a powder charge, according to the invention, is provided with a detonation unit located in a deaf hole of the body and made in the form of at least two weights of secondary explosive, one of which the initiator is bordered by the igniter, and the other one is located between the initiating hinge plate and the body, the igniting charge, made of an explosive material and located coaxially with the detonating Evil in the blind hole of the housing with a diameter d, made from the side of the combustion chamber and adjacent to it, and the distance along the S axis between the detonating node and the igniting charge is determined from the relation (0.3⋅d + 1.6) ≤S <(0, 3⋅d + 1.6) ⋅1.5.

In addition, the powder charge is made of heat-resistant powder.

In addition, the initiating sample of the detonation unit is made of cobalt (III) pentaamine diperchlorate (5-nitrotetrazolato), and the working sample is made of octogen.

In addition, the powder charge is made of granulated powder or in the form of solid blocks.

In addition, the igniting charge is made of secondary explosives.

In addition, the igniting charge is made of pyrotechnic composition.

New signs (pressure accumulator is provided with a detonation unit located in a deaf hole in the body and made up of at least two hinges from secondary explosives, one of which is initiating borders on the igniter, and the other working is located between the initiating part and the body igniting charge made from an explosive material and located coaxially to the detonating node in a blind hole of the housing with a diameter d, made from the side of the combustion chamber and adjacent to it, while the distance along the S axis between detonating The unit and the igniting charge is determined from the ratio (0.3⋅d + 1.6) ≤S <(0.3⋅d + 1.6) ⋅1.5) not identified in the technical solutions for a similar purpose. On this basis, it is possible to draw a conclusion on the compliance of the claimed invention with the term “inventive step”.

The invention is illustrated in the drawing, which shows a General view of the pressure accumulator and marked the following positions:

1 - case;

2 - igniter;

3 - combustion chamber;

4 - powder charge;

5 - initiating attachment of the detonation unit;

6 - working attachment of the detonation unit;

7 - igniting charge.

Igniter 2, combustion chamber 3 with powder charge 4, detonation unit with initiating attachment 5 and working attachment 6 pressed into the blind hole of housing 1 are sequentially located in case 1, while initiating attachment 5 borders with igniter 2 and igniting charge 7 located coaxially to the detonating node with hinges 5 and 6 in a blind hole of the housing 1, made from the side of the combustion chamber 3 and adjacent to it. The initiating hitch 5 and the working hitch 6 are made of secondary explosives, and the firing charge 7 is made of explosive material (pyrotechnic composition or secondary explosives). The blind hole, with the igniting charge 7 located in it, is made with a diameter d. The distance S (thickness of the wall walls) along the axis between the detonating node with the initiating sample 5 and the working sample 6 and the igniting charge 7 is determined from the relation (0.3⋅d + 1.6) ≤S <(0.3⋅d + 1.6 ) ⋅1.5.

The pressure accumulator operates as follows. When an electric pulse is applied to the electric igniter of the igniter assembly 2 (not shown in the drawing), it triggers with simultaneous disconnection from the current source. The force of the flame of the electric igniter 2 activates a detonation node with an initiating link 5 and a working link 6. The shock wave generated by the detonation node, passing through the hermetic wall of the housing 1, between the blind holes with the detonation node and the firing charge 7, initiates its explosive transformation, the flame of which ignites powder charge 4, located in the combustion chamber 3.

Depending on the conditions of use in the design of the pressure accumulator, the geometry and material of the ignition charge 7 can be changed. At the same time, the pressure accumulator operability is ensured by a properly selected distance S (thickness of the wall wall) along the axis between the detonating node and the ignition charge 7 determined from the ratio (0.3 ⋅d + 1.6) ≤S <(0.3⋅d + 1.6) ⋅1.5, where d is from 2.5 to 3.5 mm. The ratio is determined by the results of the experiments, shown in Table 1, where the initiating sample 5 is made of tubing, and the working sample 6 is made of HMX. Initially, the minimum values of the distance S (thickness of the wall walls) were determined, ensuring the integrity of the wall of the housing 1 when the detonation node is triggered.

Based on the results shown in Table 1 for diameters d of the firing charge 7, equal to 2.5 and 3.5 mm, the lower limits of the intervals of the values of distance S are chosen to be 2.4 and 2.8 mm, respectively.

The upper limit of the interval in the expression that determines the value of S is limited to the value at which the material of the ignition charge 7 ceases to be initiated. The corresponding results for the composition of the SC used for the igniting charge 7, as the most sensitive of those tested, are shown in Table 2.

The upper bounds for the interval S are chosen equal: for the firing charge 7 of diameter d = 2.5 mm - 3.6 mm, for the firing charge 7 of diameter d = 3.5 mm - 3.9 mm.

The intervals obtained are summarized in the expression above.

An example of a specific implementation may be a pressure accumulator, designed to actuate the aerodynamic surfaces of aircraft. In this pressure accumulator, the steel case 1 is pressed in: successively initiating sample 5 from an explosive substance Diperchlorate (5-nitrotetrazolato) cobalt (III) pentaamine (NDT), which provides a rapid transition to detonation, working suspension 6 from HMX, and burning charge 7 of pyrotechnic composition of SC or secondary explosives with diameter d equal to 2.5 mm. The housing 1 is made of a specially selected steel grade that ensures the transmission of a detonation impulse (while preserving the integrity of the wall S of the housing 1) between the detonation unit and the igniting charge 7 of the pyrotechnic composition or secondary explosives. The value of S on the basis of the ratio (0.3⋅2.5 + 1.6) ≤S <(0.3⋅2.5 + 1.6) ⋅1.5, 2.35≤S <3.525, is selected equal to 3.0 mm.

Various embodiments of the powder charge 4, placed in the combustion chamber 3, from granulated powder or in the form of solid blocks made of a special heat-resistant mixture composition, the combustion products of which contain the minimum amount of condensed particles.

The use of this invention will allow:

- to expand the temperature range of operation of the pressure accumulator;

- reduce the time from the moment of submitting an electrical command to issuing the working pressure to the consumer;

- significantly increase the value of the maximum pressure developed in the pneumatic system.

Thus, the above information indicates that the following cumulative conditions are fulfilled when using the invention:

- in the pressure accumulator intended for use in pneumatic actuators, the operational characteristics were improved, namely the temperature range of operation was expanded, the response speed of the pressure accumulator was increased, the safety of operation of this device was improved, the weight and size characteristics were improved;

- for the claimed invention in the form as it is described in the claims, the possibility of its implementation is confirmed by using the above-described constructive solutions, namely, a pressure accumulator with improved characteristics was obtained.

Thus, the pressure accumulator embodied in the claimed invention, in its implementation, is capable of ensuring the achievement of a technical result perceived by the applicant.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (6)

1. A pressure accumulator consisting of a case and successively located in it an igniter and a combustion chamber with a powder charge, characterized in that it is provided with a detonation unit located in a deaf hole in the case and made in the form of at least two weights of secondary explosive, one of which, the initiator, borders the igniter, and the other, the worker, is located between the initiating hinge and the body, the ignition charge, made of explosive material and located coaxially to the detonating node in a deaf hole the body diameter d, made from the side of the combustion chamber and bordering it, the distance along the S axis between the detonating node and the igniting charge is determined from the relation (0.3⋅d + 1.6) ≤S <(0.3⋅d +1.6) ⋅1.5. 2. Pressure accumulator according to claim 1, characterized in that the initiating attachment of the detonation unit is made of diperchlorate (5-nitrotetrazolato) pentaamine cobalt (III), and the operating portion is made of octogen. 3. Pressure accumulator according to claim 1, characterized in that the ignition charge is made of a pyrotechnic composition. 4. Pressure accumulator according to claim 3, characterized in that the ignition charge is made of secondary explosives. 5. The pressure accumulator under item 1, characterized in that the powder charge is made of heat-resistant powder. 6. The pressure accumulator according to claim 5, characterized in that the powder charge is made of granulated powder or in the form of solid blocks.

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