RU2336920C2 - Module of dry chemical fire fighting - Google Patents

Abstract

FIELD: medicine, life saving equipment.

SUBSTANCE: module of dry chemical fire fighting can be used both at volume, and local suppression of fire at various objects, including motor transport, power (electrical cabinets, cable channels), also for manual and remote (to a semi- or automatic usage). The module contains tubular case 1 in which with replaceable gas generator 2 placed in it with a charge of the solid condensed substance 16. Membrane 7 is pressed to case 1 with cap nut 4 by means of washer 6. The case of gas generator 2 is equipped by cover 10 and ends with truncated cone 19 blocked by opening element 20. The distance between planes of an aperture of truncated cone 19 and apertures for emission of gas-powder admixture exceeds half of internal length of case 1. The relation of mass flow of the gas-powder admixture in a second to the volume of generated gas totals 0.05-0.1. The module provides increase of efficiency of suppression, operational convenience, safety, expansion of area of application.

EFFECT: increase of efficiency of suppression, operational convenience, safety, expansion of area of application.

12 cl, 3 dwg

Description

The invention relates to fire fighting equipment, namely, powder fire extinguishing modules, which are universal fire extinguishing agents and can be used both for volumetric and local suppression of unauthorized fires in automobile transport, energy facilities (electrical cabinets, cable ducts), industrial and public buildings, storage facilities, garages, offices, etc., both with manual and remote (semi- or automatic) autonomous use.

The prior art design of the device adopted for the prototype, according to the patent of Russian Federation №2127622 (publication date 03/20/1999), containing a tubular housing with a fire extinguishing powder placed in it, having on one side an opening for ejecting a gas-powder mixture, covered with a membrane, tightened with a union nut to the casing, and on the opposite side, the bottom, in which a gas generator is fixed, the casing of which has an outlet part made internally in the form of a hollow truncated cone, the smaller base of which forms the outlet of the gasogen casing Ator.

The disadvantages of the prototype should include the implementation of the housing of the device with a variable length of the inner diameter between the membrane and the bottom, the presence of the grid after the membrane. An analysis of the known constructive solution shows that it is not possible to ensure uniformity of atomization of the gas-powder mixture. Gas through a narrow hole in the truncated cone of the combustion chamber, coinciding with the hole in the bottom of the device’s body, impulses to the conical part of the internal volume of the body, a gas bubble is shod; under the shock of the gas flow, the part of the powder adjacent to the bubble (compared to that located on the periphery) is compacted, the gas velocity decreases, not providing high-quality aeration (until the membrane is opened), which is aggravated when the device, which is assembled under the influence of operational vibration loads, is launched. Since there is a lot of powder and little gas (the ratio of the mass of the powder to the mass of the powder or pyrotechnic charge is from 500 to 3000), there is a displacement towards the membrane of an uneven concentration of the gas-powder flow as an elastic body, and not as a gas-powder aerated mixture; further, after opening the membrane, the gas-powder flow moves in the cylindrical part of the union nut (the membrane and the mesh must be spaced relative to each other), then, breaking the mesh, it additionally loses speed when the uniformity of the spray pattern is doubtful (the mesh becomes clogged with membrane particles, which interferes for efficient flow control of a gas-powder mixture). The gas-powder flow, having lost speed when moving, leaves the internal volume of the casing with an extremely uneven concentration of powder over its cross section (the lower the speed, the stronger the influence of gravity on the flow configuration and emission range, depending on the orientation of the device in the gravity field), which ensuring stability, repeatability of the results of suppression of the source of ignition, which limits the operational capabilities of the known device and, therefore, leads to a decrease in the efficiency of fire fighting. In the extreme case, to the point that some part of the continuous focus of the fire may not be extinguished.

In addition, the description of the invention clearly does not imply the possibility of using a device for suppressing fires at objects of large relative lengths located horizontally or vertically (for example, cable channels). To suppress ignitions at such objects, it is necessary not only to throw out the gas-powder mixture with a high speed, but also to ensure the range of its discharge into the protected space, which cannot be achieved using the prototype design.

Thus, the known device has limitations in scope.

The prototype uses a gas generator with a powder charge, which increases the risk of regular operations on assembly, reloading and maintenance.

In addition, the gas generator in the prototype is moved outside the device body, which worsens the overall mass characteristics, reduces the compactness of the device as a whole and the operational convenience in the process of transportation, storage and use for its intended purpose.

From the description of the invention according to the prototype it clearly does not follow how the stability (reproducibility) of pressure is constructively ensured at which the membrane is destroyed to release the gas-powder mixture (there is no washer or notches on the membrane), which, under certain conditions, can reduce fire fighting efficiency, to the maximum case up to the point that some part of the continuous focus of the fire may not be extinguished due to the fact that the destruction of the membrane will occur before the necessary pressure for high-quality air is set powder, and the gas-powder mixture, without gaining the necessary speed, freely leaves the internal volume of the device casing without fulfilling its functions.

In addition, the presence of a large number of assembly units, including a nozzle for filling the housing with powder, openings in the wall of the housing for air outlet when charging the device with powder, the overlapping of which must be ensured when the powder is ejected, reduces the reliability of the structure as a whole.

The objective of the present invention is to provide a powder fire extinguishing module, which can increase the extinguishing efficiency while simplifying the design, expand the range of applications by optimizing the process of controlling the flow of the gas-powder mixture, increasing the uniformity of the concentration of the gas-powder mixture in the cross section of its spray torch regardless of the vertical or horizontal placement of the module or the presence of external a source of vibration in the protected space while increasing operational functional conveniences, excluding damage to the equipped module, ensuring the safety of regular operations with it and the reliability of the structure as a whole.

The problem is solved by the proposed design of the powder fire extinguishing module, containing a tubular body with a fire extinguishing powder placed in it, having a hole for ejecting the gas-powder mixture on one side, covered by a membrane pressed by a union nut to the body, and on the opposite, the bottom, in which the gas generator is fixed, the body which has an output part made in the form of a hollow truncated cone, the smaller base of which forms the outlet of the gas generator housing. According to the invention, the module housing is made with a constant inner diameter between the membrane and the bottom, the gas generator is placed inside the module housing, made in the form of a replaceable gas source with a charge of solid condensed matter, while the distance between the planes of the outlet opening of the gas generator housing and the hole for ejecting the gas-powder mixture exceeds half the internal the length of the module housing, the gas generator housing is a thin-walled cylindrical shell closed on one side and rigidly connected with a lid equipped with a coaxially mounted fitting with a central through hole and, on the other hand, equipped with an opening element that covers the outlet of the gas generator housing, the union nut pressing the membrane to the module housing using a figured washer, and the ratio of the second mass flow rate of the gas-powder mixture to the volume the generated gas is 0.05-0.1.

In particular, the end face of the module housing on the side of the gas generator is flush with the bottom of the housing or extends beyond it.

In particular, the ratio of the length of the module housing and its diameter is 3.0-4.0, and the ratio of the diameter of the module housing and the diameter of the gas generator housing is 1.1-1.7.

In particular, the opening element is made of a sticky film, or rubber, or paper.

In particular, the ratio of the diameter of the outlet opening of the gas generator housing to the diameter of the gas generator housing is 0.5-0.6, and the ratio of the diameter of the outlet of the gas generator housing to the diameter of the module housing is 0.35-0.45.

In particular, in the case of the gas generator between the cover and its output part, an initiator, a process gasket, an elastic gasket, each with a central opening, a charge of solid condensed matter, a second elastic gasket made of a continuous, perforated bottom, the initiator consisting of an electroactivator and igniter, placed in the through channel of the charge, and the wiring of the activator is hermetically removed through the opening of the cover and protected from static electricity nature.

In particular, the holes of the perforated bottom of the gas generator are arranged in rows, while the ratio of the diameter of each of the holes and the diameter of the body of the gas generator is 0.06-0.07.

In particular, the ratio of the charge length of the solid condensed substance and its diameter is 0.4-0.5, and the ratio of the diameter of the through channel to the diameter of the charge is 0.13-0.14.

In particular, the washer is made in the form of a ring with a central hole, the ratio of the diameter of which and the diameter of the corresponding seat is 0.71-0.73, the ratio of the total height of the washer and its diameter is 0.07-0.08, the ratio of the outer diameter of the washer and the diameter of the undercut thread of the union nut is 0.97-0.98, while the end face of the washer adjacent to the housing has a profiled surface formed from the side of the central hole of the washer with a pointed protrusion, the height of which is 0.2-0.23 of the height of the washer, but from the side Editin the module housing groove, wherein the ratio of groove depth and height of the washer is 0,09-0,12.

In particular, the end face of the module housing, facing the ejection of the gas-powder mixture, is made with a profiled surface, the corresponding profile of the washer groove.

In particular, the washer is equipped with a membrane catcher.

In particular, the module is equipped with a bracket for horizontal or vertical mounting or mounting at an angle.

The analysis of the prior art shows that the powder fire extinguishing module differs from the closest analogue in a different internal form of execution of the body - a pipe of constant diameter (in the prototype the body has an internal diameter that is variable in length), another type of gas generator used is a replaceable gas source with a charge of solid condensed matter (in prototype - a combustion chamber, one-piece fastened to the bottom, with a replaceable standard powder cartridge installed in it); a different location of the gas generator is fully located in the module case (in the prototype, it is moved outside the device case); other structural embodiment of the path for the movement of the gas-powder mixture; the presence of the washer; another functional result - a stream of gas-powder mixture that is continuous over the cross section is pulsed from the module (in the prototype, the mixture stream has sections weakened by concentration).

It is the combination of the features distinctive from the prototype of the proposed solution with the remaining essential features that made it possible to achieve the above technical result, which cannot be obtained when implementing the invention according to the prototype due to the design features of the known device, and to solve the problem. In addition, the inventive module can be used both with manual and remote (semi- or automatic) autonomous operation, and the known device can be activated only manually.

The proposed powder fire extinguishing module is illustrated in the drawings.

Figure 1 is a longitudinal section of a module;

Figure 2 - node a in figure 1;

Figure 3 is a longitudinal section of a gas generator.

The powder fire extinguishing module contains a housing 1, in which a gas generator 2, a fire extinguishing powder 3 are placed. A self-cutting membrane 7 is clamped to the housing 1 with a union nut 4 with a thread undercut 5 by means of a washer 6. The washer 6, in particular when using the module in electrical equipment, is equipped with a membrane trap 8 7 (made, for example, in the form of a rod or rod) and has a protrusion 9, on which the membrane 7 lies freely. The gas generator 2 is equipped with a cover 10, firmly fastened to its body 11 and equipped with a fitting 12, in the central hole of which o the initiator 13 is located. The gasket 14, the elastic gasket 15, each with a central hole, a solid fuel charge in the form of a checker 16, the second elastic gasket 17, the perforated bottom 18 are sequentially placed in the gasifier body 11, the gas generator body 11 ends with a truncated cone 19, overlapped opening element 20.

The proposed module fire extinguishing works as follows.

When an electrical impulse is applied, the initiator 13 fires and ignites the condensed charge material 16 generating gas, which flows through the lateral gap formed when the charge gas generator 16 is placed in the housing 11, to the truncated cone 19 and opens the element 20. Through the opening of the truncated cone 19, gas enters internal volume of the housing 1 of the module. Passing through the powder 3, the gas aerates it, preparing to throw into the focus of ignition. When the gas reaches a pressure of the appropriate level on the protrusion 9 of the washer 6, the membrane 7 is cut off, and the gas-powder mixture in a harmoniously organized flow is pulsed into the protected volume.

Tests for extinguishing foci of tanning showed that the inventive module, equipped with 0.5 kg of fire extinguishing powder ISTO-1:

- in a chamber with a base of 0.6 m × 2.0 m and a height of 2.0 m for any orientation in space, it is possible to reliably suppress a Class A fire in an area of up to 1.2 m ² and in a volume of 2.4 m ³ ;

- in a chamber with a base of 0.6 m × 1.0 m and a height of 2.0 m for any orientation in space, it is possible to reliably suppress a Class B fire in an area of up to 1.2 m ² and in a volume of 1.2 m ³ ;

- allows you to reliably suppress the fire of rank 8 V from a height of 3 m

The proposed powder fire extinguishing module is simple to manufacture, provided with a wide domestic raw material base, preparations are underway for its use in serial production.

Claims (12)

1. A powder fire extinguishing module, comprising a tubular body with a fire extinguishing powder placed in it, having an opening for ejecting a gas-powder mixture on one side, covered by a membrane, a sleeve nut pressed against the body, and on the opposite, a bottom in which a gas generator is fixed, the body of which has an outlet a part made in the form of a hollow truncated cone, the smaller base of which forms the outlet of the gas generator housing, characterized in that the module housing is made with a constant inner diameter between near the membrane and the bottom, the gas generator is placed inside the module housing, made in the form of a replaceable gas source with a charge of solid condensed matter, while the distance between the planes of the outlet opening of the gas generator housing and the hole for ejecting the gas-powder mixture exceeds half the internal length of the module housing, the gas generator housing is thin-walled a cylindrical shell closed on one side by a cover rigidly connected to it, equipped with a coaxially mounted fitting with a central through miles, and on the other hand provided with a shred element, which blocked the outlet of the gas generator housing, the union nut presses the membrane to the module housing by means of shaped washers, and the ratio of the mass flow second powder mixture to the volume of generated gas is 0.05-0.1. 2. The module according to claim 1, characterized in that the end of the module housing from the side of the gas generator is flush with the bottom of the housing or extends beyond it. 3. The module according to claim 1, characterized in that the ratio of the length of the module housing and its diameter is 3.0-4.0, and the ratio of the diameter of the module housing and the diameter of the gas generator housing is 1.1-1.7. 4. The module according to claim 1, characterized in that the opening element is made of an adhesive film, or rubber, or paper. 5. The module according to claim 1, characterized in that the ratio of the diameter of the outlet of the gas generator housing to the diameter of the gas generator housing is 0.5-0.6, and the ratio of the diameter of the outlet of the gas generator housing to the diameter of the module housing is 0.35-0.45 . 6. The module according to claim 1, characterized in that the initiator, the process gasket, an elastic gasket, each with a central hole, a charge of solid condensed matter, a second elastic gasket made of a continuous, perforated bottom are sequentially placed in the body of the gas generator between the cover and its output part in this case, the initiator, consisting of an electroactivator and an ignition hinge, is placed in the through charge channel, and the wires of the electroactivator are hermetically removed through the opening of the cover and protected from impact i am static electricity. 7. The module according to claim 6, characterized in that the holes of the perforated bottom of the gas generator are arranged in rows, while the ratio of the diameter of each of the holes and the diameter of the gas generator housing is 0.06-0.07. 8. The module according to claim 6, characterized in that the ratio of the charge length of the solid condensed substance and its diameter is 0.4-0.5, and the ratio of the diameter of the through channel to the diameter of the charge is 0.13-0.14. 9. The module according to claim 1, characterized in that the washer is made in the form of a ring with a central hole, the ratio of the diameter of which and the diameter of its corresponding seat is 0.71-0.73, the ratio of the total height of the washer and its diameter is 0.07 -0.08, the ratio of the outer diameter of the washer and the diameter of the undercut thread of the union nut is 0.97-0.98, while the end face of the washer adjacent to the housing has a profiled surface formed from the side of the central hole of the washer with a pointed protrusion, the height of which is 0 , 2-0.23 height ayby, and the side contacting with the module housing groove, wherein the ratio of groove depth and height of the washer is 0,09-0,12. 10. The module according to claim 9, characterized in that the end face of the housing of the module facing the ejection of the gas-powder mixture is made with a profiled surface corresponding to the profile of the washer groove. 11. The module according to claim 9, characterized in that the washer is equipped with a membrane catcher. 12. The module according to any one of claims 1 to 11, characterized in that it is provided with a bracket for horizontal or vertical mounting or mounting at an angle.

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