RU203038U1 - AEROSOL FIRE EXTINGUISHING DEVICE - Google Patents

Abstract

The utility model refers to the means of extinguishing a fire using a gaseous aerosol and can be used for operational use in the elimination of flaming combustion of incorruptible objects, including electrical installations and electrical equipment under voltage. The required technical result, which consists in increasing the efficiency of fire extinguishing, is achieved in a device that is a cylindrical body, the open end of which is a nozzle for the outflow of an aerosol and inside which an igniter and a charge of an aerosol-forming composition are placed, while the device is additionally introduced into the body from the side nozzles aerosol jet splitter, cooler located behind the aerosol jet splitter before charging the aerosol-forming composition, and wad located behind the aerosol-forming composition charge in front of the blind end of the cylindrical body, equipped with a handle for controlling the direction of the aerosol jet when extinguishing a fire, made smoothly transitioning from the blind end of the cylindrical body ... 6 p.p. f-ly, 1 dwg.

Description

The utility model refers to the means of extinguishing a fire using a gaseous aerosol and can be used for operational use in the elimination of flaming combustion of incorruptible objects, including electrical installations and electrical equipment under voltage.

Known aerosol fire extinguisher [RU 2031671, C1, A62C 13/22, 16.12.1992], consisting of a body, an initiation unit and an aerosol-generating charge, moreover, the body consists of an outer and an inner half-body, made in the form of glasses, and the inner half-body located in with a charge it is installed coaxially in the outer floor of the body, and the annular gap between the shells of the half-shells has a length of 0.4-1.0 of the shell length of the inner half-shell and is equal to (0.1-0.3) ⋅ S / d, where S is the average surface area combustion of the charge, d is the diameter of the inner half-case.

The disadvantage of the device is the relatively low efficiency of extinguishing a fire.

In addition, a device for extinguishing a fire is known [RU 2452540, C2, A62C 3/00, 10.06.2012], containing group and individual fire extinguishing means, including water, while the group means have devices for the production and distribution of compressed air and hoses with valves for docking with individual fire extinguishing means, made with the possibility of creating and exhausting injections of fire extinguishing water-drop, powder, aerosol clouds, air-mechanical foam, characterized in that the group fire extinguishing means have devices for the production and distribution of explosive pulses of compressed air and hoses with valves for docking with individual fire extinguishing means in the form of fire extinguishers-atomizers, made with the possibility of issuing pulsed explosive exhausts of compressed air through their nozzles, as well as creating and exhausting, together with pulsed explosive exhausts of compressed air, fire extinguishing water-droplet, powder, aerosol injections clouds, air-mechanical foam, for which the device is equipped with a switching device made with the possibility, after selecting a suitable fire extinguishing agent for a given fire source, connecting the intake tube to the section of the fire extinguisher-spray gun body, which contains the substance necessary to create the required type of fire extinguishing injection ...

The disadvantage of the devices is its complexity.

The closest in technical essence to the proposed one is a device for aerosol fire extinguishing [RU 137958, U1, A62C 35/00, 02/27/2014], containing a housing, an ablation lining, a charge of an aerosol-forming composition, an igniter, a nozzle, a diaphragm, and the ablation lining is made from a 7-10% polyacrylamide gel contained in a highly porous cellular material made of corundum with a pentagondodecahedron cell size of 1-4 mm, a bridging thickness of 0.2-1.0 mm and an apparent material density of 0.10-0.70 g / cm ³ , while the ablation lining is located along the body and the outlet nozzle of the device.

The disadvantage of the closest technical solution is the relatively low efficiency of fire extinguishing, caused, in particular, by the relatively low directionality of the aerosol emanating from the outlet nozzle, which reduces the intensity of the impact on the burning object, as well as the fact that there are no technical means that ensure the exact direction of the aerosol on the burning object, which is important for small objects.

The problem to be solved in the utility model is to create a device that has a more high efficiency of extinguishing a fire by providing the possibility of accurately directing the aerosol to a burning object and increasing the intensity of impact on it.

The required technical result is to increase the efficiency of fire extinguishing.

The problem is solved, and the required technical result is achieved by the fact that, in the device, which is a cylindrical body, the open end of which is a nozzle for the outflow of aerosol and inside which an igniter is placed and a charge of an aerosol-forming composition, according to the utility model, is installed in the body from the side of the nozzle aerosol jet splitter, cooler located behind the aerosol jet splitter in front of the charge of the aerosol-forming composition and the wad located behind the aerosol-forming composition charge in front of the blind end of the cylindrical body, equipped with a handle for controlling the direction of the aerosol jet when extinguishing a fire, made smoothly transitioning from the blind end of the cylindrical body.

In addition, the required technical result is achieved in that the cylindrical body from the side of the nozzle is equipped with a cover with a gasket placed on the side of the open end of the cylindrical body.

In addition, the required technical result is achieved in that the aerosol jet divider is made in the form of a round plate 5 mm thick with a diameter corresponding to the inner diameter of the cylindrical body, and in which 4 holes with a diameter of 3 mm each are made, which are evenly spaced along the plane of the plate.

In addition, the required technical result is achieved by the fact that the igniter is made in the form of a grater igniter equipped with a grater, which is connected by a cord with an ignition ring placed in the cylindrical body from the side of the cover.

In addition, the required technical result is achieved by the fact that the cylindrical body has an outer diameter of 37 mm and an inner diameter of 28 mm.

In addition, the required technical result is achieved by the fact that the total length of the device with a lid and a handle is 226 mm.

In addition, the required technical result is achieved by the fact that the intensity of the aerosol supply is provided with a value of 0.0001 kg / m ³ s.

In addition, the required technical result is achieved by the fact that tablets pressed from ammonium oxalate are used as a cooler.

The drawing shows a device for aerosol fire extinguishing.

The drawing indicates:

1 - cover;

2 - cover gasket;

3 - ring;

4 - cord;

5 - aerosol jet divider;

6 - grater igniter;

7 - grater;

8 - cooler;

9 - charge of the aerosol-forming composition;

10 - insulating gasket;

11 - wad;

12 - cylindrical body;

13 - handle.

The device for aerosol fire extinguishing contains a cylindrical body 12, inside which there is a grating igniter 6 and a charge 9 of the aerosol-forming composition.

In the housing 12 from the nozzle side there is an aerosol jet splitter 5, a cooler 8 located behind the aerosol jet splitter 5 in front of the aerosol-forming composition charge 12 and the wad 11 located behind the aerosol-forming composition charge 12 in front of the blind end of the cylindrical body 12, equipped with a handle 13 to control the direction of the jet aerosol when extinguishing a fire, made smoothly transitioning from the blind end of the cylindrical body 12. Wad 11 from the side of charge 12 of the aerosol-forming composition is equipped with an insulating gasket 10, which prevents the ignition of the wad when burning the charge 12 of the aerosol-forming composition. The wad 11 itself can be made of polyethylene foam, and the insulating gasket 10 of electrical cardboard.

In the device, the cylindrical body 12 from the side of the open end is equipped with a cover 1 with a cover gasket 2 located on the side of the end of the cylindrical body 12.

In addition, the aerosol jet divider 5 is made in the form of a circular plate with a diameter corresponding to the inner diameter of the cylindrical body 12, 5 mm thick with a diameter corresponding to the inner diameter of the cylindrical body, and in which 4 holes with a diameter of 3 mm each are made, which are evenly spaced along plane of the plate.

In addition to the above, in the device, the grating igniter 6 is equipped with a grater 7, which is connected with a cord 7 to an ignition ring 3 located in the cylindrical body 12 from the side of the cover 1.

In a particular case, the cylindrical body 12 has an outer diameter of 37 mm, an inner diameter of 28 mm, the total length of the device with a lid and a handle is 226 mm, the aerosol supply rate is provided with a value of 0.0001 kg / m ³ s, tablets pressed from ammonium oxalate. When the charge 12 of the aerosol-forming composition is burned, the resulting aerosol passes through the cooler 8, which, decomposing, takes away heat and, thereby, reduces the temperature of the aerosol. Refrigerant 8 decomposes with the formation of non-toxic inert gases. To reduce the temperature of the fire extinguishing aerosol in the structures of fire extinguishers, special coolers are installed on the path of the hot gas-aerosol flow, which are divided into structural, heat exchange, chemical and combined.

Structural coolers provide cooling by turning and / or throttling the flow by installing a nozzle and / or orifice.

Heat exchange coolers provide cooling due to the transfer of heat from the gas-aerosol flow to the developed cold surface of the solid material. These can be granules, tubes, nets, fibers from metal, ceramics, natural materials (marble chips, gravel, etc.).

Chemical coolers provide cooling by removing the heat of the gas-aerosol flow for endothermic decomposition reactions of chemical substances (carbonates, hydrates and crystalline hydrates, oxalates of alkali, alkaline earth metals and ammonium). In this case, materials containing these substances are also given a shape with a developed surface (granules, tubes, plates, etc.).

Combined coolers combine blocks of the above-described coolers and are used for deep cooling of a gas-aerosol stream, for example, to create explosion-proof designs for fire extinguishers.

The main components of the coolers are:

oxidizing agents - oxygenated salts of alkali and alkaline earth metals, such as nitrates and perchlorates of potassium, sodium, barium and some others; combustible binders - organic polymers such as phenol-formaldehyde resin, iditol, epoxy (ED) and polyester (PE) resins, synthetic rubbers (SKN, DST), nitrocellulose plasticized with various plasticizers, etc .; target components: gas generators (dicyandiamide, etc.), coolants (carbonates, chlorides of alkali and alkaline earth metals, etc.), combustion modifiers (carbon), magnesium powder, potassium and ammonium chromates, iron and copper oxides, etc.), technological additives (liquid paraffin, stearates, etc.)

As an aerosol-forming charge, a charge from a pyrotechnic fire-extinguishing composition based on potassium nitrate can be used.

A device for aerosol fire extinguishing is used as follows.

When a burning object is detected, the cover 1 is removed and the ring 3 that falls out is pulled out in the direction of the cylindrical body 12, which leads to the movement of the grater 7 and the ignition of the charge 9 of the aerosol-forming composition. The aerosol in the diffuser is converted into intense jets, which are directed by manipulating the handle 13 in the direction of the flame. The action of the diffuser leads to a decrease in the possibility of aerosol entering outside the flame area and to an additional effect of knocking down the flame in addition to the action of the aerosol itself. Providing handle control to more accurately direct the jet towards the fire also results in more efficient extinguishing. The use of a wad to obturate the aerosol also leads to an increase in the efficiency of fire extinguishing due to ensuring the accuracy of setting the direction and increasing the aerosol jet.

Thus, due to the introduction of improvements in the device, the required technical result is achieved, which consists in increasing the efficiency of extinguishing a fire.

Claims (7)

1. A device for aerosol fire extinguishing, which is a cylindrical body, the open end of which is a nozzle for the outflow of an aerosol and inside which there is an igniter and a charge of an aerosol-forming composition, characterized in that an aerosol jet divider installed in the body from the nozzle side, a cooler located behind an aerosol jet splitter in front of the aerosol-forming composition charge and a wad located behind the aerosol-forming composition charge in front of the blind end of the cylindrical body, equipped with a handle for controlling the direction of the aerosol jet when extinguishing a fire, made smoothly passing from the blind end of the cylindrical body. 2. The device according to claim. 1, characterized in that the cylindrical body from the side of the nozzle is provided with a cover with a cover gasket located on the side of the open end of the cylindrical body. 3. The device according to claim 1, characterized in that the aerosol jet divider is made in the form of a round plate with a diameter corresponding to the inner diameter of the cylindrical body, 5 mm thick and in which 4 holes with a diameter of 3 mm each are made, which are evenly spaced along the plane of the plate ... 4. The device according to claim. 1, characterized in that the igniter is made in the form of a grater igniter equipped with a grater, which is connected by a cord with an ignition ring placed in the cylindrical body from the side of the cover. 5. The device according to claim. 1, characterized in that the cylindrical body has an outer diameter of 37 mm, an inner diameter of 28 mm. 6. The device according to claim 1, characterized in that the total length of the device with the lid and the handle is 226 mm. 7. The device according to claim 1, characterized in that the aerosol supply rate is provided with a value of 0.0001 kg / m ³ s.

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