RU2103042C1 - Powder-type fire-extinguisher - Google Patents

Abstract

FIELD: fire-extinguishing equipment. SUBSTANCE: fire-extinguisher has body with fire-extinguishing powder and gas generator with locking-starting device and decomposition chamber with gas generating charge. Decomposition chamber end is provided with slit-type openings and restrictor-retainer above openings. EFFECT: increased efficiency by effective and complete removal of powder from fire-extinguisher body, simplified maintenance and recharging procedures and enhanced reliability in operation. 2 dwg

Description

 The invention relates to the field of fire fighting equipment, in particular to powder fire extinguishers 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 head and a decomposition chamber located in the central lower part of the extinguisher body, and perforation is made on the upper part of the side surface of the decomposition chamber, a valve is installed in each hole (automatic St. 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 installation of perforation valves 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 based on an initiating element and a liner of a gas composition, located in the upper part of the body of the fire extinguisher, and a cylindrical decomposition chamber with a gas generating charge installed with a gap relative to the walls of the chamber, while the decomposition chamber is made in the length from 0.8 to 1.0 of the height of the body of the fire extinguisher and on the side rhnosti its lower part provided with holes (SU, USSR N 1637813).

 This fire extinguisher is quite simple in design and has a fairly high reliability.

 A significant disadvantage of a fire extinguisher is that, due to its design features, it does not provide a significant increase in reliability in operation, a more complete ejection of powder from the housing and simplification of the recharge and maintenance of the fire extinguisher. This is due to the fact that the holes are made on the side surface of the chamber with the axes directed perpendicular to the side wall of the body, which practically does not allow aerating the powder in the bottom of the body (under the gas generator), and therefore, to produce a more complete discharge of the powder from the fire extinguisher body. In addition, the gas-generating charge is placed at the same level with the gas outlet openings, and when the charge is burned, coking substances are formed that burn to the walls of the holes and clog them, as a result, the efficiency of gas entry into the housing and the degree of aeration of the powder are reduced. With open holes, the powder from the housing can enter the holes and into the decomposition chamber, which leads to its partial runoff from the heat pulse of the initiating element, as a result, the holes can also become clogged, the efficiency of gas entry into the housing and the degree of aeration of the powder may decrease. Reducing the degree of aeration adversely affects the completeness of powder ejection and reliability, and the clogging of the holes requires additional cleaning when recharging, which worsens the service conditions and complicates the process of recharging a fire extinguisher.

 The proposed fire extinguisher eliminates the disadvantages of known fire extinguishers of a similar purpose and ensures a higher technical result, which consists in a more significant increase in the reliability of the fire extinguisher in operation, providing a more complete ejection of powder from the casing and simplifying the process of servicing and recharging a fire extinguisher by aerating the powder and preventing its sintering in holes of the decomposition chamber.

 The essence of the invention lies in the fact that in the inventive powder fire extinguisher containing a body with an extinguishing powder composition and a gas generator, including a locking-starting device and a decomposition chamber with a gas generating charge and openings for the outlet of the generated gas, the above technical result is ensured by the fact that the decomposition chamber is equipped with a limiter -fixer of the position of the lower part of the gas-generating charge relative to the end surface of the chamber, and the holes for the output of the generated gas They are located on the end surface of the decomposition chamber in the form of slotted slots, one of the edges of each of which is deflected relative to the plane of the chamber’s end surface towards the bottom of the fire extinguisher body, while in the initial state the slotted slots are blocked by material that is easily destroyed in the working position by the pressure of the gas formed in the chamber .

 In this case, the increase in reliability, the completeness of powder discharge and the simplification of the process of servicing and reloading the fire extinguisher is achieved by the fact that when the holes are made in the form of slotted slots on the end surface of the decomposition chamber, the generated gas does not enter the housing perpendicular to its side walls, but with a certain deviation in the bottom part (under the gas generator), which provides aeration of the powder over almost the entire volume of the body, increases the completeness of its discharge and reliability in operation. In addition, the overlapping of the chamber openings in the initial state prevents the powder from entering the decomposition chamber, thereby excluding partial sintering in the working position and possible clogging of the chamber openings. As a result of this, the gas generated in the chamber effectively enters the housing and increases the degree of aeration and the completeness of the ejection of powder from the housing. In turn, the absence of clogging of the holes with sintered powder increases the convenience of recharging the fire extinguisher, since there is no need for additional effort and cost to clean the holes and the chamber.

 A comparative analysis of the inventive fire extinguisher with the prototype shows that it differs from the known one by making holes in the form of slotted slots on the end surface of the chamber and blocking them in the initial state with a layer of material that is easily destroyed in the working position by the pressure of the gas formed in the chamber. Thus, the proposed fire extinguisher is new, since its structural elements and features are not known from the prior art.

 Analysis of other technical solutions in the art, for example by author. St. 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 technical result and practical problems 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.

 In FIG. 1 shows a fire extinguisher, a section; in FIG. 2, section AA in FIG. 1 related to the end surface of the decomposition chamber.

 The proposed fire extinguisher consists of a cylindrical body 1 with an extinguishing powder composition 2 and a gas generator, including a locking-starting device 3 and a decomposition chamber 4 with a gas-generating charge 5.

 The body 1 of the fire extinguisher is made in the form of a sealed metal cylinder-container, filled with an extinguishing powder composition 2, in the upper part of which an exhaust valve 6 is placed and there is a window for installing a gas generator along the axis of the cylinder-container.

 The locking and starting device 3 of the gas generator is installed in the upper part of the housing 1, interacts with the decomposition chamber 4 and includes an initiating element 7 in the form of a weight 8 and a liner 9 of the gas generating composition.

 The decomposition chamber 4 is placed inside the housing 1 and interacts with the device 3, a gas generating charge 5 is placed in it, installed with a gap relative to the walls of the chamber 4, on the end surface of which holes 10 are made in the form of slotted slots, one of the edges of each of which is deflected relative to the end surface chamber 4 in the direction of the bottom of the fire extinguisher body, while the slotted slots 10 in the initial state are blocked by material that is easily destroyed in the working position by the pressure generated in the gas chamber 4. In addition, on the end surface of the chamber 4 and above the holes 10, a limiter-latch 11 of the position of the lower part of the charge 5 in the decomposition chamber 4 is installed.

 The described fire extinguisher operates as follows.

 The fire extinguisher is preliminarily prepared for work, for which a fire extinguishing powder composition 2 is loaded into the housing 1, tablets of a gas-generating charge 5 are placed in the decomposition chamber 4, the lower part of which rests on the stopper-clamp 11 and forms some space in front of the slotted slots 10. Then the chamber 4 is connected to the locking-starting device 3 and the assembled gas generator is placed in the housing 1, after having previously closed the openings 10 with a layer of material that is easily destroyed in the working position by the pressure generated in the gas chamber 4.

 When using a fire extinguisher using a locking and starting device 3 start the gas generator. In this case, the pulse decomposition of the sample 8 of the initiating element 7 initially occurs and the liner 9 decomposes, forming a gas that moves into the chamber 4 and acts on the tablets of the gas-generating charge 5. Decomposing, the charge 5 forms gas and coking substances (the latter are delayed by the stop-clamp 11) . The gas creates pressure in the chamber 4, destroys the overlap of the slots of the slots 10 and through them goes to the bottom of the body 1 of the fire extinguisher, creating a 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, a more complete displacement of the powder from the housing and simplification of the reloading process.

 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 fire extinguisher comprising a housing with an extinguishing powder composition and a gas generator, including a shut-off device and a decomposition chamber with a gas generating charge and openings for the output of the generated gas, characterized in that the decomposition chamber is equipped with a limiter-fixator for the position of the lower part of the gas generating charge relative to the end surface of the chamber, and the openings for the outlet of the generated gas are made on the end surface of the chamber in the form of slotted slots, one of the edges of each of which is off it is relative to the plane of the end surface of the chamber towards the bottom of the fire extinguisher body, while in the initial state the slotted slots are blocked by a layer of material that is easily destroyed in the working position by the pressure of the gas formed in the chamber.

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