RU2464081C1 - Pressure source - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to gas generators to be used in firefighting devices, for example, for inflation of rescue means. Proposed source comprises case with cover, bottom and gas outlets on side surface. Working and initiating charges are mad from pyro compositions. Filter is arranged on working charge side and face surfaces. Initiating charge is arranged along working charge axis and made up of axially symmetric layer with layers extending therefrom toward periphery. Working charge surface is armored by metal sleeve with perforated edges on gas outlet side. Initiating charge axially symmetric layer is arranged between two sleeves. One of the latter, perforated sleeve, is arranged on working charge side. Case cover and bottom are coupled by axial rod with other sleeve fitted thereon. Gas outlets are plugged by readily collapsible notched metal caps. Corrugated spreader is arranged around case side surface to makes gas outlets located opposite channels formed by crimps.

EFFECT: better performances, higher safety.

6 cl, 2 dwg

Description

The invention relates to a means of generating gas to create operating pressure, for example, to pressurize rescue equipment used in displacement, displacement, separation, separation systems, etc. items; in fire fighting devices as a means of displacing powder from containers in the bodies of fire extinguishers, etc.

The pressure source ("Gas Generator", a description of the invention to JP patent No. 2847659, publication of 01.20.99) is one of the analogues of the claimed design. This source contains an inner tube with radial holes, in which the working gas-generating charge is placed, and from the end, an initiating charge (igniter), which is electrically activated. The tube is installed in the housing with a gap in which the filter is placed. Filtration of the generated gas along the lateral surface of the working charge is more effective than only at the end. Radial outlet openings are made in the housing, which allows to increase the gas outlet area. The working charge consists of a set of pyrotechnic checkers with an axial channel, the presence of which provides volumetric ignition of the working charge, and the placement of the checkers in the tube makes assembly easier. The disadvantage of this design, in addition to electrical activation, is that the tube is made with radial openings that correspond to the openings of the housing, therefore the path of the generated gas to the outlet openings is short, which reduces the effect of gas cooling, and there is no insulation from the atmosphere (there are no membranes on the openings of the tube )

There are known gas generators of a fire extinguisher (descriptions of utility models for certificate No. 7885 of 10.16.98 and RF patent No. 43666 of 01.27.05), which are similar in construction and each contains a tubular combustion chamber in which a working gas-generating charge is installed with a gap relative to the walls, from one of the ends there is an igniter and an initiating charge, which is a powdery sample of a gas-generating composition, which is separated from the gas-generating charge by a membrane. The operation of the pressed gas-generating charge from the pyrotechnic composition is carried out from the end over a relatively small area, while the working charge burns in layers and with a relatively large time. Closer to the bottom, radial holes are made in the chamber. The camera is installed in a housing in which in the upper part there are made radial outlet openings blocked by valves (rubber tube of the “nipple” type). However, the design lacks filtration and cooling of the generated gas.

Known gas generator used as a means of creating pressure (according to the patent for the invention RU 2286844, the description was published on 10.11.06) and selected as a prototype as the closest analogue in the number of similar features and the problem to be solved. The design of the known device is a housing with a lid, a bottom and gas outlets on the side surface, with working and initiating charges made of pyrotechnic compositions, and a filter mounted on the side and end surfaces of the working charge, while the initiating charge is placed inside the working charge along the axis of the gas generator and made in the form of an axisymmetric layer with layers extending from it to the periphery, and the surface of the working charge from the gas outlet side is armored with a metal sleeve, and on the side the surface of the housing opposite the gas outlet mounted gas flow divider, made in the form of a screen with holes.

The disadvantages of the known prototype device are:

- the danger of manufacturing and assembling an initiating charge, which is performed in the form of a hollow cylinder;

- insufficient structural rigidity;

- at the required high values of pressure and temperature of the generated gas, a relatively long response time.

The technical result of the claimed device is to improve performance and increase the safety of handling during manufacture, transportation, storage, operation.

The specified technical result is achieved due to the fact that in the pressure source, which includes a housing with a cover, a bottom, gas outlets on the side surface and a gas flow divider, with working and initiating charges made of pyrotechnic compositions, and a filter installed on the side and end surfaces of the worker charge, while the initiating charge is placed along the axis of the working charge and is made in the form of an axisymmetric layer and layers extending from it to the periphery, and the surface of the working charge is on the gas outlet side of the armor a metal sleeve, it is new that the axisymmetric layer of the initiating charge is enclosed between two bushings, one of which, located on the side of the working charge, is perforated, and the lid and bottom of the housing are pulled together by an axial rod, on which the other sleeve is worn, the gas outlets are closed easily destructible caps, the divider is made corrugated and installed in such a way that the gas outlets are located opposite the channels formed by the corrugations.

Armor metal sleeve can be made with double-sided perforation on the periphery.

The axial shaft may be hollow.

Caps can be made metal and with a weakening notch, in the form of at least three radial rays.

The divider can be attached to the housing using punching.

The tightening of the lid and the bottom of the body with an axial rod allows to increase the strength of the gas generator, which in turn allows to increase the working pressure of the gas generator.

The conclusion of the axisymmetric layer of the initiating charge between two bushes, one of which is perforated, improves the safety of manufacturing and assembly of the initiating charge, while maintaining its ignitory ability with respect to the working charge, as well as using the internal cavity of the initiating charge to tighten the lid and the bottom of the source housing pressure, which in turn increases the strength of the structure.

The use of easily destructible caps makes it possible to protect the internal cavity of the gas generator from moisture, dirt, dust, etc., as well as to create the required pressure in a free volume in a shorter time and to ensure the fastest possible pressure release inside the gas generator body.

The execution of the divider corrugated, with the installation of corrugations opposite the gas outlet, eliminates the direct effect of the combustion products of the working charge on other components of the system, which includes the pressure source, and also increase the cooling of the outgoing gas stream.

The execution of the axial rod hollow allows you to use this hole to mount the pressure source in the applicable system.

Performing notches on the caps in the form of at least 3 radial rays allows you to adjust the pressure of the breakthrough of the caps and provide the maximum opening area when triggered without the formation of fragments of the cap.

Performing double-sided perforation on the armor sleeve allows you to simultaneously direct the gas flow both through the upper and lower filters, and immediately through the lateral one, which makes it possible to more quickly pass gas flows through the filters to the gas outlets and entails a faster decrease in pressure inside the housing and, as a result , reduced requirements for the strength of the body.

The use of punching to attach the divider to the housing allows the divider to be fixed without the use of fasteners that increase the dimensions and reduce the strength of the housing.

In Fig.1, 2 shows a General view of the inventive device, where 1 is a housing; 2 - Cover; 3 - Bolt; 4 - Screw; 5 - Adapter for installing means for activating the initiating charge; 6 - Sleeve; 7 - Perforated sleeve; 8 - initiating charge; 9 - working charge; 10 - Armor sleeve; 11 - Top filter; 12 - Side filter; 13 - bottom filter; 14 - lower collector; 15 - Upper collector; 16 - cap; 17 - Divider; 18 - Grid; 19 - Place of punching.

An example of a specific implementation of the claimed device is a pressure source used to create pressure in a closed volume by burning the working charge from the gas-generating composition 9. The pressure source is used to actuate the mechanisms and consists of a housing 1, which is a glass with a hollow protrusion in the center, made from steel 30HGSA, which is closed by a lid 2 of the same material. In the upper part of the protrusion on the inner surface there is a thread for tightening the cover and the housing with a screw 4 with a central hole, which gives structural strength and optimizes installation in the product used. Additionally, the housing 1 and the cover 2 are pulled together by 12 bolts 3 made of steel 60C2A. Thus, the hollow protrusion of the housing 1 with a thread and the screw 4 form a hollow pull rod. The walls of the glass are made with a thickening around the periphery and in the center. A means for activating an initiating charge is attached to the lid 2 — a fire wire screwed into the internal thread of the adapter 5, on the bottom of which a bronze mesh 18 is installed, which prevents the ignition composition from falling out into the pressure source. A sleeve 6 and a perforated sleeve 7 are installed on the protrusion inside the housing 1, between which a fast-burning pyrotechnic composition is pressed in, forming an initiating charge 8 in the form of an axisymmetric layer. Inside the housing 1 are also placed the layers of the initiating charge 8, extending from its axisymmetric layer to the periphery, made of the same quick-burning pyrotechnic composition, and the layers of the working charge 9, pressed in series with the layers of the initiating charge 8 into the armor 10, having perforation at two ends ( 72 holes with a diameter of 2 mm). The armor sleeve is made of structural steel 20. At the bottom of the housing 1, under the cover 2, as well as between the body and the armor sleeve 10, filters 11, 12, 13 are made, made of winding copper wire. Under the filter 13 and above the filter 11 are collectors 14, 15, respectively. In the thickening of the housing 1, 12 gas outlet openings were made, which were closed for sealing with caps 16 made of aluminum foil. A cruciform notch is made at the bottom of the caps to reduce the breakthrough pressure by gas. To set the direction of the gas flow and its additional cooling, a divider 17, made of a sheet of AMts and having a corrugated surface, is attached to the housing 1 by means of punching 19.

The pressure source operates as follows. When a fire pulse is supplied through a fire wire docked to the adapter 5 through a bronze grid 18, the upper layer of the initiating charge 8, which is located in the housing 1, is ignited and the axisymmetric and other peripheral layers of the initiating charge 8 are almost immediately formed, forming the required combustion front of the working charge 9. Combustion the working charge 9, pressed into the armor sleeve 10, occurs in the axial and radial directions, and the resulting gas passes through the collectors 14, 15, then through the end filters 11, 13 and the sides e filters 12 through which gas is purified and cooled, acquiring the required direction. Perforation in the armor sleeve 10 allows you to direct the gas flow directly through the side filter, which makes it possible to more quickly pass gas flows through the filters to the gas outlets, this entails a more rapid decrease in pressure inside the housing and, as a result, lower requirements for the strength of the housing. When a certain pressure is reached in the housing 1, the caps 16 installed in the gas outlet openings are destroyed (gas) and gas through them begins to flow into the free volume in a given direction thanks to a divider 17, which, in addition, eliminates the direct effect of the combustion products of the working charge on other nodes of the system , which includes a pressure source, and also increase the cooling of the outgoing gas stream.

Thus, when using the inventive pressure source, it is possible to improve performance compared to the prototype, which is expressed in reducing the time to reach maximum pressure (not more than 1 s) and maintaining the required pressure for 3 s. A prototype was made, which was successfully tested. It should also be noted that the inventive pressure source is safe to handle, in particular during manufacture, transportation, storage and operation, due to the sealing of the housing, pressing the compounds into bushings and the use of a corrugated divider, two-sided perforation of the armor sleeve in the caps design.

Claims (6)

1. A pressure source, including a housing with a lid, a bottom, gas outlets on the side surface and a gas flow divider, with working and initiating charges made of pyrotechnic compositions, a filter installed on the side and end surfaces of the working charge, and collectors placed on the end surfaces between the housing and the filter, while the initiating charge is placed along the axis of the working charge and is made in the form of an axisymmetric layer and layers extending from it to the periphery, and the surface of the working charge is on the gas side of the leads is armored with a metal sleeve, characterized in that the cover and the bottom of the housing are pulled together by an axial rod, an axisymmetric layer of the initiating charge is enclosed between two bushings, one of which, located on the side of the working charge, is perforated, and the other sleeve is dressed on a tightening cover and the bottom of the rod , the gas outlets are closed by easily destructible caps, the divider is made corrugated and installed in such a way that the gas outlets are located opposite the channels formed by the corrugations. 2. The device according to claim 1, characterized in that the axial rod is made hollow. 3. The device according to claim 1, characterized in that the caps are made of metal. 4. The device according to claim 1, characterized in that the caps are made notches in the form of at least three radial rays. 5. The device according to claim 1, characterized in that the armor metal sleeve is made with bilateral perforation on the periphery. 6. The device according to claim 1, characterized in that the divider is attached to the housing using punching.

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