RU2079314C1 - Powder-type fire extinguisher - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: fire extinguisher has cylindrical body containing fire- extinguishing powder, gas generator with starting system in the form of locking and starting device based on initiating element and insert with gas-generating compound and disintegration chamber with gas-generating charge and activating head piece. EFFECT: enhanced reliability and convenient servicing. 2 dwg

Description

 The invention relates to the field of fire fighting equipment, in particular to powder fire extinguishers equipped with gas generators, and can be used to extinguish fires to supply extinguishing powder compositions to a fire source.

 A powder extinguisher is known, comprising a body with an extinguishing powder composition and a gas generator, consisting of a shut-off-start head and a decomposition chamber located inside the fire extinguisher body, wherein the decomposition chamber is located in the central lower part of the fire extinguisher body, and perforation is performed on the upper part of the side surface of the decomposition extinguisher , in each hole of which a valve is installed (see AS USSR N 1431776).

 This fire extinguisher is designed to supply an extinguishing agent to the fire and is characterized by a sufficiently high impact on the fire. At the same time, it is relatively structurally complex, which is associated with the implementation of perforations and valve chambers in the holes, and is not reliable enough.

 The closest in technical essence to the invention is a powder fire extinguisher comprising a cylindrical body with an extinguishing powder composition, a gas generator comprising a starting system consisting of an initiating element in the form of a powder sample and a liner of a gas generating composition and located in the upper part of the body of the fire extinguisher, and a cylindrical decomposition chamber with gas generating composition installed with a gap relative to the walls of the chamber, while the decomposition chamber is made with a length of from 0.8 to 1.0 height fire extinguisher whiskers and holes are made on the lateral surface of its lower part (see AS USSR N 1637813, 1991).

 This fire extinguisher is also designed to supply extinguishing powder composition to the fire and is characterized by relatively high reliability.

 A significant drawback of a fire extinguisher is that, due to its design features, it does not provide a significant increase in reliability in operation and amenities during maintenance or recharging. This is due to the fact that making holes only in the vertical walls of the decomposition chamber provides aeration of the powder only in the horizontal direction, i.e. not achieved a higher degree of aeration of the powder and the completeness of its discharge on the fire. In addition, open holes in the walls of the decomposition chamber do not prevent powder from entering the decomposition chamber, which leads to partial sintering of the powder from the heat pulse of the initiating element, as a result of which the holes become clogged, the efficiency of gas entry into the fire extinguisher body and the degree of aeration of the powder are reduced. In this case, a decrease in the degree of aeration negatively affects the completeness of its ejection (supply) from the fire extinguisher, and the clogging of the holes with sintered powder requires their additional cleaning at the next recharge, which worsens the convenience of maintenance and, as a result, does not achieve the desired technical result.

 The proposed fire extinguisher eliminates the disadvantages of known fire extinguishers of a similar purpose and provides a higher technical result, which consists in improving the ease of maintenance and more significantly increasing the reliability of the fire extinguisher in operation by providing a higher degree of aeration of the powder and preventing coking of the substance and sintering of the powder in the holes of the decomposition chamber.

 The essence of the invention lies in the fact that in the inventive powder fire extinguisher containing a cylindrical body with an extinguishing powder composition, a gas generator comprising a trigger system in the form of a locking and starting device located in the upper part of the fire extinguisher body based on an initiating element and a liner of a gas generating composition, and a cylindrical decomposition chamber with a gas generating charge installed with a gap relative to the walls of the chamber, the above technical result is ensured by the fact that the chamber p The enclosure is equipped with a cylindrical activating nozzle installed in its lower part, on the side and end surfaces of which holes are made, and in the initial state they are closed with a thin layer of material that is easily destroyed in the working position by the pressure of the gas formed in the chamber.

 In this case, improving the serviceability and reliability of the fire extinguisher is achieved by the fact that the use of an activating nozzle with holes on the side and end surfaces provides aeration of the extinguishing powder both in the horizontal (from the holes of the side wall) and in the vertical (from the holes of the end surface), which, in turn, increases the degree of aeration and the greater completeness of the ejection of powder from the body to the fire. In addition, the overlapping in the initial (before starting) state of the openings of the nozzle of the decomposition chamber with a layer of thin material prevents the powder from entering the decomposition chamber, and therefore its partial sintering in the working state and the associated clogging of the openings of the decomposition chamber are eliminated, resulting in The gas flows freely into the chamber and increases the degree of aeration and the completeness of powder ejection. At the same time, the absence of burning and clogging of the holes with sintered powder increases the convenience of recharging the fire extinguisher, since there is no need for additional conditions and costs for cleaning the holes of the nozzle of the decomposition chamber.

 A comparative analysis of the inventive fire extinguisher with the prototype shows that it differs from the well-known equipment of the decomposition chamber with an activating nozzle, making holes in it in horizontal and vertical planes, as well as blocking these holes in the initial state with a thin layer of easily destructible material in the working position. Thus, the proposed fire extinguisher is new, since its structural elements and features are not known from the existing level of technology.

 Analysis of other technical solutions in the art, for example, by AS USSR N 1537279, 1540837 and 1780773, allows us to conclude that the proposed fire extinguisher has an inventive step, since its design features and significant differences do not explicitly follow from the prior art. In addition, a fire extinguisher is industrially applicable, which follows from the results of experimental verification, the achieved result and practical tasks in the field of fire fighting equipment.

 The possibility of carrying out the invention is confirmed by the following information relating to the design and operation of the fire extinguisher, as well as to the results of experimental verification.

 The technical essence of the invention is illustrated by the attached drawing, where in FIG. 1 shows a general sectional view of a fire extinguisher, and FIG. 2 shows a vertical section through an activating nozzle.

 The proposed fire extinguisher (see Figs. 1 and 2) consists of a cylindrical body 1 with an extinguishing powder composition, a gas generator, including a starting system in the form of a locking and starting device 3, a decomposition chamber 4 and an activating nozzle 5.

 The body 1 of the fire extinguisher is made in the form of a sealed metal cylinder of a container filled with an extinguishing powder composition 2, in the upper part of which an exhaust valve 6 is placed.

 The locking and starting device 3 is installed in the upper part of the extinguisher body 1, connected to the decomposition chamber 4 and includes an initiating element 7 in the form of a sample 8 of a powdered gas-generating composition and a liner 9 of a gas-generating composition.

 The decomposition chamber 4 interacts with the device 3, is placed inside the body 1 of the fire extinguisher, and a gas generating charge 10 made in the form of tablets is placed in it. On the bottom of the chamber 4 is placed a cylindrical activating nozzle 5.

 On the side and end surfaces of the nozzle 5 (see Fig. 2), openings 11 are made for exit to the bottom of the housing 1 of the gas formed in the chamber 4. In the initial (working) state, the holes 11 are blocked by a thin layer of protective material, for example, paper.

 The described fire extinguisher operates as follows.

 A fire extinguisher is preliminarily prepared for work, for which a fire extinguishing powder composition 2 is loaded into the housing 1, a gas generating charge 10 is placed in the chamber 4, and an initiating element 7 and an insert 9 of the gas generating composition are installed in the locking-starting device 3. In this initial state, the fire extinguisher is stored until the necessary time for its use.

 When applied using a locking-starting device 3, a gas generator is started. In this case, the pulse decomposition of the sample 8 of the powdered gas-generating composition in the initiating element 7 initially occurs. From the heat pulse from the sample 8 in the initiating element 7, the insert 9 begins to decompose, forming gas, which, under the influence of the pressure formed, leaves the element 7 and moves down to the chamber 4 and acts on the tablets of the gas-generating charge 10. When decomposed, the tablets of the charge 10 form gas, which, when accumulated, creates pressure in the chamber 4, and when the pressure is excessive, the gas through Hole 11, nozzle 5, destroying the protective partitions, enters the bottom of the body 1 of the fire extinguisher, creating working pressure in it. After a set of pressure, the powder 2 through the valve 6 enters the fire.

 After using the fire extinguisher for its intended purpose, it is recharged again and, if necessary, reused for its intended purpose.

 The practical use of a fire extinguisher in fire fighting equipment indicates a significant increase in the reliability of its operation and ease of maintenance, which is confirmed by the results of experimental verification.

 Currently, technical documentation has been developed, a prototype of a fire extinguisher has been made, and it has been tested in work, confirming the achievement of a higher technical result.

Claims (1)

 A powder extinguisher comprising a cylindrical body with an extinguishing powder composition, a gas generator, including a starting system in the form of a locking and starting device located in the upper part of the fire extinguisher body based on an initiating element and a liner of a gas generating composition, and a cylindrical decomposition chamber with a gas generating charge installed with a gap relative to the walls chamber, characterized in that the decomposition chamber is equipped with a cylindrical activating nozzle installed in its lower part, on b the casing and end surfaces of which are made holes, and in the initial state they are closed with a thin layer of material, easily destroyed in the working position by the pressure generated in the gas chamber.

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