RU2191054C1 - Powder fire-extinguisher and method for assembling thereof - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: powder fire-extinguisher has casing, locking-starting head with siphon tube and fire- extinguishing powder charge. Siphon tube has diameter making 0.03-0.13 the casing inner diameter, thickness at least equal to 0.3 the thickness of casing wall. Siphon tube lower section is spaced from casing bottom by distance below 3.0 of siphon tube inner diameter. Volume of accumulating cavity is at least 10% of casing volume. Method involves mounting locking-starting apparatus with siphon tube; drawing in rubber sealing ring at torque moment of 1.5-4.0 kg/m; introducing fire-extinguishing powder via charging opening and creating working pressure in accumulating cavity of fire-extinguisher. Method and construction allow fire-suppressing capacity to be increased by optimal throwing time and amount of remaining fire-extinguishing powder charge to be reduced. Technical characteristics are increased by 10-15% due to reduced dimension and weight characteristics. Siphone tube resistance to longitudinal and transverse loads is increased. Also, locking-starting apparatus and casing junction is hermetically sealed to resist force acting upon it under cyclic loads during charging-discharge of fire-extinguisher. EFFECT: increased efficiency, simplified construction and wider operational capabilities. 32 cl, 2 dwg

Description

 The invention relates to fire fighting equipment, in particular to the design of fire extinguishers, and can find wide application in the development and production of fire extinguishing means, in particular powder fire extinguishers.

 The peculiarity of powder fire extinguishers is that they are a highly effective extinguishing agent and are used to eliminate fires and fires of all classes (A, B, C, D, E).

 Known air-foam fire extinguisher (see Ya. Ya. Scherbina. Fundamentals of fire fighting equipment. Head publishing house of the publishing house Vishka Shkola, Kiev, 1977, p. 190-191), containing a body, a neck, a carbon dioxide cylinder, a cover with locking trigger device, siphon tube and nozzle.

 Such fire extinguishers are widely used in many areas of the national economy.

The disadvantages of air-foam fire extinguishers include a narrow temperature range of use (only in the temperature range above 0 ^o C), high corrosivity of the charge, and the impossibility of use in the elimination of fires and fires of electrical installations and other objects under electrical voltage.

 The objective of this technical solution is to create a fire extinguisher, used mainly for extinguishing fires of solid materials of organic origin, without presenting requirements for the elimination of fires of objects under electric voltage.

 Common signs with the design of the fire extinguisher proposed by the authors is the presence of a housing, a neck, a locking and starting device and a siphon tube.

 The closest in technical essence and the achieved technical result is a powder fire extinguisher, comprising a housing with bottoms, a neck, a locking and starting device with a siphon tube, an accumulating cavity and a charge of a fire extinguishing powder, also a method of assembling it, including introducing a fire extinguishing powder, installing a locking and starting device with a siphon tube, preloading the rubber seal and creating working pressure (see Ya. Shcherbin. Fundamentals of fire fighting equipment. Head office of the publishing house Vishka Shko and ", Kiev, 1977, 27, str.190-194), adopted by the authors as the prototype.

 The reasons that impede the achievement of the technical result indicated below when using a well-known fire extinguisher adopted by the authors as a prototype include the fact that fire extinguishing and suppression of the source of fire is provided mainly due to the volume of the extinguishing powder supplied from the fire extinguisher, and not due to its optimal distribution over the surface of the fire source during the discharge time of the fire extinguisher, while, as practice shows, the required discharge time of the fire extinguisher, the mass of the remaining charge non-extinguishing powder and tightness of the connection between the housing and the locking-starting device during production, operation and storage.

 Thus, the objective of this technical solution (prototype) is to suppress the source of ignition without meeting the requirements for the duration of the fire extinguisher and the remaining charge of the fire extinguisher powder after the discharge of the fire extinguisher.

 Common signs with the design of the powder fire extinguisher proposed by the authors are the presence of a body with bottoms, a neck, a locking and starting device with a siphon tube, an accumulating cavity and a charge of the fire extinguisher powder.

 Unlike the prototype, in the fire extinguisher proposed by the authors, the internal diameter of the siphon tube is 0.03-0.13 of the inner diameter of the body, the wall thickness of the tube is not less than 0.3 of the wall thickness of the body, and the lower section of the tube is placed from the bottom of the body at a distance of no more than 3, 0 the inner diameter of the tube, while the volume of the accumulating cavity is at least 10% of the volume of the housing.

 Common signs with the method of assembling a fire extinguisher proposed by the authors are the introduction of a fire extinguishing powder, installation of a locking and starting device with a siphon tube, preloading of the rubber seal and the creation of working pressure.

 Unlike the prototype, in the method of assembling a fire extinguisher proposed by the authors, a locking and starting device with a siphon tube is first installed, a rubber seal is pressed with a torque of 1.5-4.0 kg • m, then fire extinguishing powder is introduced through the filling hole, and then in the accumulating cavity a fire extinguisher creates operating pressure.

 In contrast to the prototype, the method of assembling a fire extinguisher proposed by the authors simultaneously with the introduction of a fire extinguisher powder creates a working pressure in the accumulating cavity of the fire extinguisher.

 Unlike the prototype, in the method of assembling a fire extinguisher proposed by the authors, fire extinguishing powder is first introduced, then a locking and starting device with a siphon tube is installed and a rubber seal is pressed with a torque of 1.5-4.0 kg • m.

 In contrast to the prototype, the fire extinguisher assembly method proposed by the authors first introduces a fire extinguisher powder, then a locking and starting device with a siphon tube is installed and a rubber seal is pressed with a torque of 1.5-4.0 kg • m, after a rubber seal is pressed in the accumulating cavity of the fire extinguisher create working pressure.

In special cases, that is, in specific forms of execution, the invention is characterized by the following features:
- the bottom is welded together,
- between the bottoms placed a cylindrical shell, bonded with them by welding,
- the charge of the extinguishing powder is based on ammonium sulfate,
- the charge of the extinguishing powder is based on monoammonium phosphate,
- the charge of the extinguishing powder is based on ammonium sulfate and monoammonium phosphate,
- the charge of the extinguishing powder is based on potassium chloride,
- the neck is bonded to the body by welding,
- at least three stamped convexes are made on the bottom bottom,
- the housing of the locking and starting device is made of brass,
- the housing of the locking and starting device is made of aluminum alloy,
- the housing of the locking and starting device is made of a polymer material,
- the material of the housing of the locking and starting device contains at least 15% fiberglass filler,
- the siphon tube is made of aluminum alloy,
- the siphon tube is made of plastic,
- the housing is made of steel with a mechanical strength of at least 30.0 kg / mm ² ,
- the fire extinguisher is equipped with a filling hole,
- a pressure gauge is placed on the housing of the locking-starting device,
- the locking trigger is equipped with a sprinkler,
- the sprinkler is equipped with a removable protective cover,
- the sprinkler is equipped with an electric heater,
- the fire extinguisher is equipped with a gas generating device,
- one or more handles are welded to the upper bottom,
- a hose holder is placed on the housing,
- a drainage device is placed at the bottom bottom,
- on the bottom bottom placed emphasis and wheelset,
- on the side surface of the housing posted instructions for use,
- on the body of the fire extinguisher is coated on epoxy, pentaphthalic, glyphthalic, polyvinyl butyral bases or on the basis of powder compositions.

 It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical results.

 The indicated features, distinctive from the prototype and to which the requested scope of legal protection applies, are sufficient in all cases.

 The objective of the invention is the creation of a powder fire extinguisher, providing increased fire extinguishing ability due to the optimal discharge time and a reduced charge balance of the fire extinguishing powder, increasing technical and economic indicators by reducing the overall mass characteristics and ensuring the stability of the siphon tube to the effects of longitudinal and transverse loads, as well as tightness of the connection of the locking-starting device with the housing under the influence of cyclic loads during charging -razryadke extinguisher.

 The specified technical result during the implementation of the invention is achieved by the fact that in a known powder fire extinguisher containing a housing with bottoms, a neck, a locking and starting device with a siphon tube, an accumulating cavity and a charge of the fire extinguishing powder, the feature is that the internal diameter of the siphon tube is 0, 03-0.13 of the inner diameter of the casing, the wall thickness of the tube is not less than 0.3 of the wall thickness of the casing, and the lower cut of the tube is placed from the bottom of the casing at a distance of not more than 3.0 of the inner diameter of the tube, when ohm accumulating cavity volume is at least 10% of the volume of the housing.

A new set of structural elements, as well as the presence of connections between them, allow, in particular, due to:
- execution of the inner diameter of the tube 0.03-0.13 of the inner diameter of the housing - to provide the optimal discharge time of the fire extinguisher needed to eliminate the source of ignition. When the ratio of the inner diameter of the tube to the inner diameter of the casing is less than 0.03, a slow expiration of the powder occurs, while the stream of extinguishing powder does not have time to completely cover the source of ignition. When the ratio of the inner diameter of the tube to the inner diameter of the casing is more than 0.13, an intensive and non-uniform release of the powder occurs during a time shorter than the specified one, while the gas-powder jet does not have the required range, which greatly complicates the process of extinguishing the source of ignition,
- performing a wall thickness of the tube of at least 0.3 of the wall thickness of the casing - to ensure the constancy of the cross-sectional shape of the siphon tube in the process of starting and operation of the fire extinguisher. When the wall thickness of the tube is less than 0.3 of the wall thickness of the body at the initial moment of starting the fire extinguisher due to a significant pressure drop inside the tube and in the body cavity under the action of transverse loads, longitudinal folds form on the walls, which leads to a significant decrease in the flow of extinguishing powder,
- placement of the lower cut of the tube from the bottom of the casing at a distance of not more than 3.0 of the inner diameter of the tube - to organize an intensive approach of the peripheral layers of the extinguishing powder to the zone of its entry into the siphon tube, thereby ensuring a minimum mass of the charge extinguishing powder in the extinguisher. Placing the lower cut of the tube from the bottom of the housing at a distance of more than 3.0 of the inner diameter of the tube leads to the formation of stagnant zones in the peripheral layers of the fire extinguisher powder and a sharp increase in the mass of the remaining charge of the fire extinguisher powder after the discharge of the fire extinguisher,
- performing the accumulating cavity of the fire extinguisher with a volume of at least 10% of the body volume - create the necessary supply of displacing gas to ensure the required length of the jet of fire extinguishing powder and the minimum mass of charge remaining. A decrease in the volume of the storage cavity of less than 10% of the volume of the body will require a significant increase in the working pressure of the displacing gas, which will inevitably lead to the need to increase the wall thickness of the body (to ensure the strength characteristics of the structure).

The signs characterizing the invention in specific forms of execution, allow, in particular, due to:
- fastening the bottoms and neck with the body by welding - to achieve the required tightness and strength of the connection,
- the presence of a cylindrical shell between the bottoms and fastening them by welding - to produce fire extinguishers of any standard size,
- performing a charge of a fire extinguishing powder based on ammonium sulfate, ammonium phosphate, a composition of ammonium sulfate and monoammonium phosphate or potassium chloride - to increase the technical and economic characteristics of the fire extinguisher due to the optimal choice of the raw material base, as well as the peculiarity of their use in eliminating specific types of fire sources and a large range sizes of fire extinguishers (from 1 to 100 or more liters),
- the presence on the lower bottom of three or more stamped convexes - to increase the rigidity of the fire extinguisher body, and they serve as its support,
- implementation of a locking and starting device made of brass, aluminum alloy or polymer material - to realize the technological capabilities of a particular production and provide the required technical and economic characteristics in relation to various operating conditions,
- introducing at least 15% fiberglass filler into the polymer material of the housing of the locking and starting device — to increase the structural strength of the device,
- implementation of a siphon tube made of plastic or aluminum alloy - to improve the technical and economic characteristics of a fire extinguisher through the use of cheaper and corrosion-resistant materials,
- execution of the housing made of steel with a mechanical strength of at least 30.0 kg / mm ² - to ensure the operating parameters of the fire extinguisher with high technical and economic characteristics,
- equipping the fire extinguisher with a filling hole and a drainage device - greatly facilitate the process of filling and recharging it,
- placement of a manometer on the fire extinguisher body - to monitor the operability during operation,
- equipping the locking and starting device with a sprinkler - start the fire extinguisher in automatic mode, for example, at night, in the absence of personnel (without human intervention),
- equipping the sprinkler with a removable protective cover - eliminate unauthorized operation of the fire extinguisher during operation and in official use,
- supplying the sprinkler with an electric heater - start the fire extinguisher in automatic mode from fire detectors,
- equipping the fire extinguisher with a gas generating device - refuse to create a constant excess pressure in the accumulating cavity and thereby relieve the body and the locking and starting device during storage, and also lengthen the cycle between scheduled inspections and reloading of the fire extinguisher,
- equipment of a fire extinguisher with one or more transport handles, an emphasis, a pair of wheels and instructions for use - to significantly expand its operational capabilities,
- applying a protective coating to the casing of the fire extinguisher on epoxy, pentaphthalic, glyphthalic polyvinyl butyral substrates or on the basis of powder compositions - protect the casing material from the effects of corrosive environmental agents and the charge of the fire extinguishing powder.

A new set of techniques and operations characterizing the assembly method, as well as the presence of connections between them, allow, in particular, due to:
- preloading the rubber seal with a torque of 1.5 ... 4.0 kg • m - ensure the tightness of the connection of the locking-starting device with the housing during operation and storage. At the moment of tightening the seal less than 1.5 kg • m, the required degree of deformation of the seal is not provided to obtain a tight connection. An increase in the torque of more than 4.0 kg • m leads to a sharp increase in the deformation of the seal, which causes a loss of elastic properties of the seal material, accompanied by the formation of cracks and delaminations, and, as a result, the tightness of the joint,
- installation of a locking and starting device before introducing a fire extinguishing powder through a filling hole - to reduce the complexity of charging, assembling fire extinguishers with a volume of 25-100 l or more, since installing a locking and starting device with a siphon tube of considerable length after introducing a fire extinguishing powder will require significant axial forces, which can lead to flattening, kinking of the siphon tube, and consequently, to a reduction in the area of the passage section or the dismantling of the connection with the locking-starting device,
- creating working pressure in the accumulating cavity of the fire extinguisher at the same time as the introduction of the fire extinguishing powder - to increase the level of automation of the assembly and refueling of fire extinguishers with a volume of less than 5 liters,
- introducing fire extinguishing powder before installing the locking and starting device and preloading the rubber seal and then creating working pressure in the accumulating cavity of the fire extinguisher - accelerate the assembly and charging of fire extinguishers with a volume of 5-10 l of gas-generating type,
- introducing fire extinguishing powder after installing the locking and starting device and preloading the rubber seal, creating working pressure in the accumulating cavity of the fire extinguisher - accelerate the assembly and charging of fire extinguishers with a volume of 5-10 liters of injection type.

 Signs that distinguish the proposed technical solution from the prototype are not identified in other technical solutions and are not known from the prior art in the process of conducting patent research, which allows us to conclude that the invention meets the criterion of "novelty."

 Studying the level of technology during the patent search on all types of information available in the countries of the former USSR and foreign countries, it was found that the proposed technical solution does not explicitly follow from the prior art, therefore, we can conclude that the criterion of "inventive step" "

 The essence of the invention lies in the fact that a powder fire extinguisher containing a housing with bottoms, a neck, a locking and starting device with a siphon tube, an accumulating cavity and a charge of a fire extinguishing powder, in contrast to the prototype according to the invention, has an inner tube diameter of 0.03-0, 13 of the inner diameter of the casing, the wall thickness of the tube is not less than 0.3 of the wall thickness of the casing, and the lower cut of the tube is placed from the bottom of the casing at a distance of not more than 3.0 of the inner diameter of the tube, while the volume of the accumulating cavity is at least 10% of the volume of the housing.

 The invention is illustrated in the drawing, where Fig. 1 shows a section of a powder fire extinguisher, Fig. 2 is a general view of a powder fire extinguisher with design features depending on the size and design.

The proposed powder fire extinguisher comprises a housing 1 (made of steel with a mechanical strength of at least 30.0 kg / mm ² (294 MPa) with bottoms (upper 2 and lower 3), neck 4, locking and starting device 5, siphon tube 6, rubber seal 7, charge of extinguishing powder 8, storage cavity A, inner diameter of the casing - D, inner diameter of the siphon tube - d, height of the siphon tube - N, distance from the lower cut of the siphon tube to the bottom of the casing - h, M _cr - torque, thickness the walls of the siphon tube are t, the wall thickness of the casing is T.

 In particular cases, that is, in specific embodiments, the fire extinguisher is equipped with a cylindrical shell 9, stamped bullets 10, a filling hole 11, a drainage device 12, a pressure gauge 13, a gas generating device 14, transport handles 15, a stop 16, a wheel pair 17, a hose holder 18, instructions for use 19, sprinkler 20, the sprinkler is equipped with a removable protective casing 21 and an electric heater 22.

 The above device operates as follows.

 After starting the fire extinguisher (manual or automatic), the displacing gas located in the accumulating cavity A (tightness is ensured by a rubber seal 7 between the housing 1 and the locking and starting device 5) displaces the fire extinguishing powder 8, which flows up the siphon tube 6 and through the locking the starting device 5 is fed into the extinguishing zone of the fire source. At the same time, high fire extinguishing efficiency is ensured due to the constancy of the range of the gas-powder jet, the optimal ejection time and the minimum mass of the charge extinguishing powder after a complete discharge of the fire extinguisher.

 The implementation of the assembly method (depending on the selected option or the size of the fire extinguisher applies a different sequence of techniques and operations) is as follows.

 For example, for a large-capacity fire extinguisher, first, a locking and starting device 5 with a siphon tube 6 is installed on the housing 1, a rubber seal 7 is pressed with a torque of 1.5-4.0 kg • m (14.7-39.2 N • m) and then, extinguishing powder 8 is introduced through the filling hole 11, after which working pressure is created in the accumulating cavity A of the fire extinguisher.

 The implementation of the powder fire extinguisher in accordance with the invention allows for increased fire extinguishing ability due to the optimal discharge time and reduced charge extinguishing powder, increase technical and economic indicators by 10-15% by reducing the overall mass characteristics and ensuring the stability of the siphon tube to longitudinal and lateral loads, as well as the tightness of the connection of the locking-starting device with the housing under the influence of cyclic loads when charging fire extinguisher

 The invention can be used in the development of various fire extinguishing means, including powder fire extinguishers.

 The specified positive effect is confirmed by testing prototypes of fire extinguishers made in accordance with the invention.

 At present, design documentation has been developed, state tests have been carried out, and mass production is scheduled.

Claims (32)

 1. A powder extinguisher comprising a housing with bottoms, a neck, a locking and starting device with a siphon tube, an accumulating cavity and a charge of a fire extinguishing powder, characterized in that the inner diameter of the siphon tube is 0.03-0.13 of the inner diameter of the housing, and its thickness walls of at least 0.3 thickness of the wall of the body, the lower section of the tube is placed from the bottom of the body at a distance of not more than 3.0 of the inner diameter of the tube, and the volume of the accumulating cavity is at least 10% of the volume of the body.  2. Fire extinguisher according to claim 1, characterized in that the bottom is welded together.  3. Fire extinguisher according to claim 1, characterized in that between the bottoms there is a cylindrical shell, bonded with them by welding.  4. The fire extinguisher according to claim 1, characterized in that the charge of the fire extinguishing powder is based on ammonium sulfate.  5. Fire extinguisher according to claim 1, characterized in that the charge of the fire extinguishing powder is based on monoammonium phosphate.  6. The fire extinguisher according to claim 1, characterized in that the charge of the fire extinguishing powder is based on ammonium sulfate and monoammonium phosphate.  7. Fire extinguisher according to claim 1, characterized in that the charge of the extinguishing powder is based on potassium chloride.  8. The fire extinguisher according to claim 1, characterized in that the neck is bonded to the housing by welding.  9. The fire extinguisher according to claim 1, characterized in that at least three stamped convexes are made on the lower bottom.  10. Fire extinguisher according to claim 1, characterized in that the housing of the locking and starting device is made of brass.  11. Fire extinguisher according to claim 1, characterized in that the housing of the locking and starting device is made of aluminum alloy.  12. The fire extinguisher according to claim 1, characterized in that the housing of the locking and starting device is made of polymer material.  13. The fire extinguisher according to claim 1, characterized in that the material of the housing of the locking-starting device contains at least 15% fiberglass filler.  14. The fire extinguisher according to claim 1, characterized in that the siphon tube is made of aluminum alloy.  15. The fire extinguisher according to claim 1, characterized in that the siphon tube is made of plastic. 16. The fire extinguisher according to claim 1, characterized in that the casing is made of steel with a mechanical strength of at least 30.0 kg / mm ² .  17. The fire extinguisher according to claim 1, characterized in that the fire extinguisher is equipped with a filling hole.  18. A fire extinguisher according to claim 1, characterized in that a pressure gauge is placed on the housing of the locking-starting device.  19. A fire extinguisher according to claim 1, characterized in that the locking and starting device is equipped with a sprinkler.  20. A fire extinguisher according to claim 19, characterized in that the sprinkler is equipped with a removable protective casing.  21. A fire extinguisher according to claim 19, characterized in that the sprinkler is equipped with an electric heater.  22. The fire extinguisher according to claim 1, characterized in that it is equipped with a gas generating device.  23. The fire extinguisher according to claim 1, characterized in that one or more handles are welded to the upper bottom.  24. A fire extinguisher according to claim 1, characterized in that a hose holder is placed on the housing.  25. A fire extinguisher according to claim 1, characterized in that a drainage device is placed on the lower bottom.  26. A fire extinguisher according to claim 1, characterized in that on the lower bottom there is a stop and a wheelset.  27. A fire extinguisher according to claim 1, characterized in that instructions for use are placed on the side surface of the housing.  28. The fire extinguisher according to claim 1, characterized in that the body of the fire extinguisher is coated on epoxy, pentaphthalic, glyphthalic, polyvinyl butyral bases or on the basis of powder compositions.  29. A method of assembling a powder fire extinguisher, including introducing a fire extinguishing powder, installing a locking and starting device with a siphon tube, compressing the rubber seal and creating a working pressure, characterized in that first installing the locking and starting device with a siphon tube, compress the rubber seal with a torque of 1 , 5-4.0 kg • m, then fire extinguishing powder is introduced through the filling hole, after which working pressure is created in the accumulating cavity of the fire extinguisher.  30. A method of assembling a powder fire extinguisher, including introducing a fire extinguishing powder, installing a locking and starting device with a siphon tube, compressing the rubber seal and creating a working pressure, characterized in that the locking and starting device is first installed, the rubber seal is pressed with a torque of 1.5- 4.0 kg • m, then simultaneously with the introduction of the extinguishing powder create a working pressure in the accumulating cavity of the fire extinguisher.  31. A method of assembling a powder fire extinguisher, including introducing a fire extinguishing powder, installing a locking and starting device with a siphon tube, preloading the rubber seal and creating a working pressure, characterized in that the fire extinguishing powder is first introduced, then a locking and starting device with a siphon tube is installed and the rubber is pressed seal with a torque of 1.5-4.0 kg • m.  32. The assembly method according to p. 31, characterized in that after preloading the rubber seal in the accumulating cavity of the fire extinguisher create operating pressure.

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