RU2407571C1 - Dry chemical fire fighting unit - Google Patents

Abstract

FIELD: fire fighting equipment.

SUBSTANCE: unit comprises a two-filler body with a chemical powder, a gas generator mounted in the second filler and gas-dynamically connected through a truncated cone with an aerator equipped with apertures with opening elements. The module body is connected with a reflector cone-concave towards the first filler. A gas powder regulating element represents an annular space between the case and reflector provided with washers in the attachment point of the body and reflector.

EFFECT: unit enables higher effectiveness of fire extinguishing, enhanced performance and convenience, extended range of application according to the current demands, minimised residual weight of the fire-fighting powder in the unit case after being actuated regardless of spatial arrangement thereof, provided universality of the unit due to the possibility of using both automatic, and manual start-up for throwing in a fire zone due to elimination of unidirectional gas powder discharge from the unit case and enabled complete fluidisation of fire-fighting powder combined with higher reliability and portability of the structure.

2 cl, 2 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 extinguishing local fires and for extinguishing indoors by area or volume. The powder fire extinguishing module is designed for fire protection in industrial, public, basement, technical, basement and attic rooms, electrical rooms (switchboards, control rooms, substations and distribution devices, machine rooms, battery rooms, cable tunnels, underground and channels, cable mezzanines, etc. .), garages, covered garage boxes, etc. Structurally and by the nature of the distribution of the gas-powder mixture in the volume, the module can be equipped with a manual start-up device and can be used for casting into a burning room.

Modules of powder fire extinguishing according to the patents of the Russian Federation No. 2276614 (publication date 05/20/2006), 2283153 (publication date September 10, 2006), 2297261 (publication date April 20, 2007), 2314135 (publication date 10.01 .2008), 2336920 (date of publication October 27, 2008), each of which contains a body with fire extinguishing powder, has a nozzle element on one side that determines the flow of the gas-powder mixture, and on the opposite side, a bottom in which the gas generator is fixed with for fluidization of extinguishing powder.

A common disadvantage of the known modules is the constructive implementation of the element that determines the flow of the gas-powder mixture, causing the release of extinguishing powder in the form of a jet. At the same time, for the spreading of the extinguishing powder throughout the volume, it is necessary that the gas-powder jet reaches an obstacle, for example, the floor for modules supplying the gas-powder jet vertically downward (patents Nos. 2276714, 2283153), and the ceiling for modules supplying the extinguishing powder vertically upward (patent No. 2314145), walls or floors - for modules providing the supply of extinguishing powder from a vertical direction down to horizontal (patents No. 2297261, 2336920). When a gas-powder jet is reflected from an obstacle, large energy losses occur due to the impact of powder particles on a fixed surface, changes in direction of motion, i.e. the speed of the gas-powder cloud when filling the protected volume decreases, which affects the fire extinguishing ability of the module.

In addition, due to the location on one side of the module of the nozzle element that determines the flow of the gas powder jet, and on the other side of the attachment point of the gas generator, uniform fluidization of the extinguishing powder is not provided in the entire volume of the module, which creates the conditions for its release when triggered with a powder residue of not more than 15% for any orientation of the module in space. That is why the known modules of powder fire extinguishing, there is a strictly limited orientation of the release of fire extinguishing powder: either vertically down, or vertically up, or horizontally.

The powder fire extinguishing module according to the patent of the Russian Federation No. 2314135 (publication date 01/10/2008), adopted for the prototype, comprising a body with a fire extinguishing powder, a mouth for discharging a gas-powder mixture, placed coaxially with the body in its lid and covered by a self-cutting membrane, preloaded to the outer end of the neck by means of a washer with a cap nut, an element that determines the flow of the gas-powder mixture, a gas generator fixed with the possibility of replacement in the second neck of the module housing and connected to the means m, providing fluidization of the extinguishing powder, the bore holes of which are blocked by opening elements.

The disadvantages of the prototype should include the fact that the element that determines the flow of the gas-powder mixture is made in the form of a pipe, providing a powder discharge in the form of a narrow jet vertically upward. The spread of the extinguishing powder in volume occurs after reaching the ceiling gas stream. When a gas-powder jet is reflected from the ceiling, large energy losses occur due to the impact of powder particles on a fixed surface, changes in direction of movement, i.e. the speed of the gas-powder cloud when filling the protected volume decreases, which affects the fire extinguishing ability of the module.

The element that determines the flow of the gas-powder mixture is a pipe whose length is commensurate with the vertical size of the internal volume of the module casing. Such a structural embodiment of the indicated element ensures the release of the gas-powder jet vertically upward. The coaxial arrangement of the element that determines the flow of the gas-powder mixture with the module housing leads to the creation of stagnant zones in the lower part of the housing, which creates conditions for an increased mass of powder residue after the module is activated. In the case of inclined placement of the module, the volume of stagnant zones increases; consequently, the mass of the remaining powder increases, i.e. the known module in an inclined position is ineffective.

When using an element that determines the flow of the gas-powder mixture, located coaxially with the body, without deepening into the inside of the body, it will lead to a large mass of the remainder of the extinguishing powder when it is released vertically upward. In this case, the extinguishing powder placed below will remain in the module case due to its ineffective fluidization. In this case, an effective discharge of the extinguishing powder is possible only vertically downward.

The objective of the present invention is to provide a powder fire extinguishing module, which allows to increase fire extinguishing efficiency, expand operational capabilities and amenities, the range of applications in accordance with the existing need, to minimize the mass of the remainder of the fire extinguishing powder in the module case after its operation, regardless of the module’s location in space, to ensure the universality of the module by achieving the possibility of using the design of the module with both automatic and manual start-up for casting into the fire zone by eliminating the unidirectional discharge of the gas-powder mixture from the module housing and ensuring full fluidization of the extinguishing powder while increasing the reliability and compactness of the design.

The problem is solved by the proposed design of the powder fire extinguishing module, comprising a body with a fire extinguishing powder, a neck for discharging a gas-powder mixture, placed coaxially to the body in its cover and covered by a self-cutting membrane, pressed against the outer end of the neck with a washer with a union nut, an element that determines the flow of the gas-powder mixture , a gas generator, fixed with the possibility of its replacement in the second neck of the module housing and connected to a fluidizing means fire extinguishing powder, the bore holes of which are blocked by opening elements. The peculiarity lies in the fact that the casing of the module is equipped on the outside with a cone-shaped reflector for discharging the gas-powder mixture; the element determining the flow of the gas-powder mixture is an annular gap between the flanges of the module and the reflector, while the second neck of the casing is placed in its cover, and the gas generator fixed in it with the provision of the location of its axis of symmetry at an angle to the axis of symmetry of the module housing.

In particular, the means providing fluidization of the extinguishing powder is made in the form of a cup-shaped aerator, while the ratio of the distance from the projection onto the axis of symmetry of the module body to the bottom of the aerator end to the bottom of the module and the internal height of the module along its axis of symmetry is not more than 0.15 .

A comparative analysis shows that the inventive powder fire extinguishing module differs from the closest analogue in a different path design for the movement of the gas-powder mixture before it is released into the protected volume — the space between the module housing and the reflector (in the prototype — a vertical pipe), and a different geometry of the gas-powder mixture distribution outside the module - annular flow around the module (in the prototype - a narrow unidirectional stream), the presence of a reflector, otherwise the location of the mounting point of the gas generator and other ntation of the gas generator with respect to the axis of symmetry of the module housing, the possibility of any orientation of the module in space during its installation, the possibility of using the module as a manual tool suitable for casting it into the combustion zone.

It is a set of distinctive features from the prototype of the features of the proposed solution that allowed us to achieve the above technical result and solve the problem.

The proposed powder fire extinguishing module is illustrated by a graphic image:

Figure 1 is a longitudinal section of a module with a bracket for mounting to a bearing surface.

Figure 2 is a longitudinal section of a manual start module.

The powder fire extinguishing module (Fig. 1) contains a housing 1 equipped with two necks 2 and 3, in which a fire extinguishing powder 4 is placed, a gas generator 5 fixed in the neck 3 and gasdynamically connected through a truncated cone 6 with an aerator 7 equipped with holes 8 with opening elements (conditionally not shown). The neck 2 for discharging the gas-powder mixture from the housing 1 is covered by a self-cutting membrane 9, which is pressed by the nut 11 by means of the washer 10. On the washer 10, in particular, a trap-cylinder 12 is installed to catch the sheared part of the membrane. The housing 1 of the module is connected to the reflector 13, conically curved towards the neck 2 to release the gas-powder mixture with the formation of the protrusion 14. The element that determines the flow of the gas-powder mixture is an annular gap 15 between the housing 1 and the reflector 13, provided by washers 16 in the places of attachment of the housing 1 s reflector 13. On the reflector 13, a flange 17 is mounted, connected to the bracket 18, intended for mounting the module to the bearing surface. On the flange 17 there is an electric clamp 19 for connecting the electrical wires 20 of the gas generator 5 with the starting circuit of the module control system.

The manual start-up module (Fig. 2) does not differ in terms of the main structural elements and technical characteristics from the module intended for fastening to the bearing surface. It does not have an arm 18 (Fig. 1), a flange 17, and an electric clamp 19. For carrying and casting, the module is equipped with a handle 21 (Fig. 2), and for manual start-up it is equipped with an electric connector 22, through which the module is connected to the manual start-up device its launch. The electrical connector itself is connected to the electrical wires 20 of the gas generator 5. During storage and transportation, the electrical connector is closed by a plug 23.

The proposed module fire extinguishing works as follows.

When applying an electric pulse to the conductor terminals of the gas generator 5, it is triggered with subsequent generation of gas. The opening elements of the holes 8 of the aerator 7 are destroyed and gas enters the internal volume of the housing 1 of the module. Passing through the powder 4, the gas fluidizes it, preparing to be released into the protected space. When the gas pressure corresponding to the opening level of the membrane 9 is reached, the gas-powder mixture, moving inside the space between the reflector 13 and the housing 1, is cut into a conical protrusion 14 and uniformly enters the annular gap 15 between the housing 1 and the reflector 13, and a multidirectional flow is formed into a high-speed annular ejected from the module into the protected volume.

The tests showed that the inventive module, equipped with 4.4 kg of fire extinguishing powder ISTO-1, allows you to reliably extinguish the fires:

- for Class A fires when mounted on a ceiling, wall or floor in a volume of 100 m ³ for rooms and cable floors with a ceiling height of up to 6 m, on an area of 78 m ² with a ceiling height of 1 m, 50 m ² with a ceiling height 2 m and 40 m ² with a ceiling height of 2.5 m, also in channels or tunnels 3 m wide, 2.8 m high and 12 m long;

- for Class B fires when mounted on the ceiling in a volume of 40 m ³ , on a floor or wall in a volume of 27 m ³ in a room or cable underground with a ceiling height of up to 4 m, with floor mount on an area of 31 m ² with a ceiling height of 1 m and 20 m ³ with a ceiling height of more than 2 m, also in channels or tunnels with a width of 1.2 m, a height of 2.8 m and a length of 8 m when the module is mounted on a ceiling, wall or floor.

Additionally, fire tests of the manual start module were carried out, on which the fire extinguishing ability of the module is permanently fixed to the floor.

Tests of the manual powder fire extinguishing module with throwing it into a room with fires showed its fire extinguishing ability corresponding to the floor mounting modules.

In all tests of the module, the mass of the remainder of the extinguishing powder did not exceed 10% of its initial mass.

Thus, the proposed module of powder fire extinguishing is practically feasible, it allows to satisfy a long-standing need for solving the problem.

Claims (2)

1. A powder fire extinguishing module, comprising a body with a fire extinguishing powder, a neck for discharging a gas-powder mixture, placed coaxially to the body in its cover and covered by a self-cutting membrane, pressed against the outer end of the neck with a washer with a union nut, an element that determines the flow of the gas-powder mixture, gas generator, fixed with the possibility of its replacement in the second neck of the module housing and connected to the means providing fluidization of the extinguishing powder, the bore holes of which it is covered by opening elements, characterized in that the module casing is externally equipped with a reflector cone-shaped towards the neck for the release of the gas-powder mixture, the element that determines the flow of the gas-powder mixture is an annular gap between the flanges of the module and the reflector, while the second neck of the housing is located in its cover and the gas generator is fixed in it, ensuring the location of its axis of symmetry at an angle to the axis of symmetry of the module housing. 2. The module according to claim 1, characterized in that the means for fluidizing the extinguishing powder is made in the form of a cup-shaped aerator, wherein the ratio of the distance from the projection onto the axis of symmetry of the module body to the bottom of the aerator end to the bottom of the module and the internal height of the module along its axis of symmetry is not more than 0.15.

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