RU2804887C2 - Gas fire extinguishing device with adapter and its applications - Google Patents

Abstract

FIELD: firefighting equipment.

SUBSTANCE: invention can be used in industrial and civil facilities, including those with increased fire hazard for localizing fires, as well as for effective fire extinguishing in rooms using automatic fire extinguishing systems. The gas fire extinguishing device comprises a container for a gas fire extinguishing agent, which is connected through an outlet to an adapter for a gas fire extinguishing device. The adapter comprises a passage channel coupled with the outlet, containing a branch connected to a fitting with a check valve. The outlet of the passage channel is provided with a locking element and is connected to the locking and starting device of the gas fire extinguishing device. The non-return valve has a cone-shaped part that enters the cavity of the fitting. The fitting is configured to be connected to a pressure control device. The adapter is connected through the passage channel to the locking and starting device of the gas fire extinguishing device, consisting of a housing for a pusher, on one side connected to the adapter locking element, and on the other side connected to the atomizer. The housing for the pusher is a hollow rod with a mounting hollow base. In the lower part of the rod and partially in the mounting hollow base, coaxial grooves for the mounting pin are made. A spring-loaded pusher with a through passage channel is fixed inside the rod, comprising a mounting base. The mounting base has a through hole coaxial with the grooves, through which the pusher is fixed in a spring-loaded position through the grooves by means of a mounting pin. The atomizer is a hollow cylindrical cap, strung on the housing for the pusher and fixed through the holes in its lower part by means of the the pin through the grooves and hole. In the upper part of the atomizer there is a cavity for placing a lock. In the upper part of the atomizer, spray holes are made on the sides. The lock forms a stop for the rod and prevents the spring from expanding. The destruction of the lock leads to the decompression of the spring. The decompression of the spring leads to the movement of the pin along the grooves in the direction of the locking element. The pusher is placed in such a way that when the pin is moved, it moves in the direction of the locking element, pierces the locking element and releases the fire extinguishing agent. A gas fire extinguishing device is used to protect the protected volume from fire inside the protected volume. A gas fire extinguishing device is used to extinguish a fire in the protected volume.

EFFECT: 1) expanding the functionality of the gas fire extinguishing device; 2) ensuring the alternate possibility of alternately filling the gas fire extinguishing device with different substances, for example, without being limited to gas fire extinguishing agent and propellant gas, as well as providing the possibility of refuelling, replacing the fire extinguishing agent or gas in the tank of the gas fire extinguishing device without the need to disconnect it components; 3) providing the possibility of connecting pressure control devices and other suitable devices to a gas fire extinguishing device that does not have such functionality without using an adapter, as well as disconnecting these devices if it is necessary to check their operability or verify them.

5 cl, 3 dwg

Description

[0001] TECHNICAL FIELD

[0002] The technical solution relates to fire-fighting equipment and can be used in industrial and civil facilities, including those with increased fire danger, to localize fires, as well as for effective fire extinguishing in premises using automatic fire extinguishing systems.

[0003] BACKGROUND OF THE ART

[0004] A device for extinguishing a fire is known, described in application US2017036048A (D1). A known device for extinguishing a fire consists of a cylinder and a shut-off and starting device containing a thermal lock, which is destroyed when a threshold temperature is reached, which actuates a spring-loaded pusher in the form of a hollow needle, which pierces the membrane of the cylinder and releases a gaseous fire extinguishing agent (GFA) coming out under pressure through the nozzle holes.

[0005] The disadvantages of the device known from D1 are the impossibility of controlling the pressure inside the cylinder, the impossibility of alternately filling with different substances, in particular, a gas fire extinguishing agent and a propellant gas.

[0006] DISCLOSURE OF THE INVENTION

[0007] The technical problems solved by the proposed technical solution is the creation of a universal device that can be used in conjunction with gas fire extinguishing devices to expand their functionality, in particular, to provide the ability to control the pressure inside the cylinder with fire extinguishing agent and to provide the possibility of alternate refilling cylinder with various substances, for example, but not limited to, gas extinguishing agent and propellant. At the same time, when implementing the pusher described in this application, the following technical problems are solved: 1) creating an easy-to-manufacture pusher in the form of a piercing needle for a shut-off and starting device for a gas fire extinguishing device; and, as a consequence, the creation of an easy-to-manufacture (in comparison with analogues) locking and starting device for a fire extinguishing device; 2) creating a pusher in the form of a piercing needle for a shut-off and starting device for a gas device for extinguishing a fire, which does not have a passage channel and is thus freed from the possibility of clogging the passage channel of the needle with parts of the membrane, freed from the likelihood of narrowing the passage channel of the needle due to icing and, thus freed from the possibility of increasing the release time of the extinguishing agent; and, as a consequence, the creation of a shut-off and starting device for a fire extinguishing device of increased reliability. Another technical problem solved by the proposed technical solution is the expansion of the arsenal of technical means for a specific purpose, namely gas fire extinguishing devices.

[0008] The technical results achieved by implementing the proposed technical solution, in addition to the implementation of its purpose, are: 1) expanding the functionality of the gas fire extinguishing device; 2) ensuring the alternate possibility of alternately filling a gas fire extinguishing device with different substances, for example, but not limited to, a gas fire extinguishing agent and a propellant gas, as well as ensuring the possibility of filling, refueling, replacing a fire extinguishing agent or gas in the container of a gas fire extinguishing device without the need to disconnect it components; 3) ensuring the possibility of connecting pressure control devices and other suitable devices to a gas fire extinguishing device, which does not have such functionality without the use of an adapter, as well as disconnecting these devices if it is necessary to check their functionality or verification.

[0009] The above technical results are achieved by the following set of essential features: a gas device for extinguishing a fire, containing a container for a gas extinguishing agent, which is connected through an outlet hole to an adapter for a gas device for extinguishing a fire, containing a passage channel mating with the said outlet hole, containing a branch , connected to a fitting with a check valve, wherein the outlet of said passage channel is equipped with a shut-off element and is connected to a shut-off and starting device of a gas fire extinguishing device, wherein the check valve has a cone-shaped part extending into the cavity of the fitting, and the fitting is configured to be connected with a pressure control device, wherein the adapter is connected through a passage channel to the said shut-off and starting device of the gas fire extinguishing device, consisting of a housing for the pusher, on one side connected to the locking element of the adapter, and on the other side connected to the sprayer; the body for the pusher is a hollow rod with a fastening hollow base, in the lower part of the rod and partially in the fastening hollow base there are coaxial grooves for the fastening pin, while inside the rod a spring-loaded pusher with a through passage channel is fixed, containing a fastening base, and in the fastening base , a through hole is made, coaxial with the mentioned grooves, through which, by means of a fastening pin, the pusher is fixed in a spring-loaded position through the mentioned grooves, and the sprayer is a hollow cylindrical cap, threaded onto the housing for the pusher and fixed through the holes in its lower part by means of the said pin through the mentioned grooves and a hole, while in the upper part of the nozzle there is a cavity for placing a lock, while in the upper part of the nozzle there are spray holes on the sides, and the lock forms a stop for the said rod and prevents the spring from being decompressed, and the destruction of the lock leads to the spring being decompressed, and the decompression the spring causes said pin to move along said grooves in the direction of the locking member, wherein said pusher is positioned so as to move the pin in the direction of the locking member, pierce the locking member and release the extinguishing agent.

[0010] BRIEF DESCRIPTION OF THE DRAWINGS

[0011] Illustrative embodiments of the claimed technical solution are described in detail below with reference to the accompanying drawings, which are incorporated herein by reference, and in which:

[0012] In FIG. 1 shows an exemplary embodiment of a gas fire extinguishing device with a shut-off and starting device and the claimed adapter.

[0013] In FIG. Figure 2 shows an approximate general view of the components of a gas fire extinguishing device.

[0014] In FIG. Figure 3 shows an exemplary version of the pusher of the shut-off and starting device for extinguishing a fire.

[0015] IMPLEMENTATION OF THE INVENTION

[0016] The possible implementations of the variants of the claimed technical solution described in this section are presented in non-limiting examples of the scope of legal protection, in relation to specific embodiments of the claimed technical solution, which in all their aspects are intended to be illustrative and non-limiting. Alternative options for implementing the claimed technical solution, which do not go beyond the scope of legal protection, are obvious to specialists in the field with ordinary qualifications for whom this technical solution is designed.

[0017] A suitable gas fire extinguishing device is any of the following: described in patent application US2017036048A, the materials of which are hereby incorporated by reference; described in RF patent No. 2667881, the materials of which according to RF application 2017135603 dated July 20, 2017 are thus included in this description by reference; as well as any other similar device, the operating principle of which is based on the use of a shut-off and starting device with a piercing needle to pierce the membrane of a cylinder with a gas extinguishing agent. An exemplary embodiment of such a gas fire extinguishing device 100 is shown in FIG. 1.

[0018] As shown in FIG. 1, in general, a fire extinguishing device is a container 1 filled with a gaseous fire extinguishing agent, with a locking nut 2, wherein the locking nut 2 is connected to the outlet of the container and contains a locking element that holds the fire extinguishing agent inside the container under pressure; and a locking and triggering device 300, wherein the locking and triggering device 3 consists of a housing 31 for the pusher 4, on one side connected to the lock nut 2, and on the other side connected to the sprayer 32; the housing 31 for the pusher 4 is a hollow rod with a mounting hollow base 33, in the lower part of the rod and partially in the mounting hollow base 33 there are coaxial grooves 34 for the mounting pin 5, while a pusher 4, spring-loaded with a spring 37, containing a mounting base 41 is fixed inside the rod and an oblong truncated cylindrical tip 42, on two surfaces of which flats 421, 422 are made, and in the mounting base 41, a through hole 43 is made, coaxial with the mentioned grooves 34, through which, by means of a fastening pin 5, the pusher 4 is fixed in a spring-loaded position through the mentioned grooves 34 , moreover, the sprayer 32 is a hollow cylindrical cap, strung on the housing 31 for the pusher 4 and fixed through the holes 35 in its lower part by means of the mentioned pin 5 through the mentioned grooves 34 and hole 43, while in the upper part of the sprayer there is a cavity to accommodate the lock 6, while in the upper part of the sprayer on the sides there are spray holes 36, and the lock 6 forms a stop for the said rod and prevents the spring from being decompressed, and the destruction of the lock 6 leads to the decompression of the spring, and the decompression of the spring leads to the movement of the mentioned pin 5 along the mentioned grooves 34 in the direction of the lock nut 2, and said pusher 4 is placed in such a way that when the pin 5 moves in the direction of the lock nut 2, pierces the said lock element and releases the fire extinguishing agent. In this case, the mentioned lock 6 is a thermal lock, that is, as a rule, a glass flask containing a heat-sensitive liquid, which, when a certain temperature is reached, expands, creating excess pressure inside the flask and leading to its destruction, or can be any other known (or created in the future) and a suitable element configured to break, such as, but not limited to, when heated to a certain temperature, or in response to the detonation of an explosive within the lock, or when subjected to mechanical stress on the lock, such as, but not limited to, kinetic impact on the lock . It is preferable, but not limited, that the operating temperature of the lock 6 ranges from 57 to 93+/- 3 degrees Celsius. In this case, it should be obvious to a specialist in the field of technology with ordinary knowledge for whom the claimed technical solution is designed that another device can be used as lock 6, for example, a metal rod or strip, the elasticity or fragility of which increases when heated to certain temperatures, which will also lead to the termination of their action as a stop for the spring 37. Alternatively, the pusher 4 can be made in the form of a conventional hollow needle with a through hole for the exit of a gas extinguishing agent. Such a pusher is known from the prior art and accordingly will not be described in detail further.

[0019] Preferably, but not limited to, the container 1 may be a cylinder or any other container containing a pressurized gas extinguishing agent. In this case, it is preferable that the volume of the container 10 be from 0.08 to 0.67 liters, the overall dimensions of the container 1 are, respectively, from 210 to 440 mm in length and from 35 to 60 mm in width, and the container 1 itself can accommodate , respectively, from 60 to 500 g of fire extinguishing agent. Such characteristics of the container 1 make it possible to ensure sufficient manufacturability and operational safety, since in combination with other parameters of the device, the safe retention of the gas fire extinguishing agent inside the container 1 is ensured. The gas fire extinguishing agent in this case is any gaseous fire extinguishing agent known from the prior art, for the release of which a propellant is required, preferably carbon dioxide.

[0020] Preferably, but not limited to, the closure element may be, but is not limited to, a metal membrane or a membrane of any other material capable of withstanding a working pressure of 250 bar at 20 degrees Celsius. In this case, it is preferable, if the membrane is metal, that its thickness is not less than 0.2 mm and not more than 1 mm. It will be apparent to one of ordinary skill in the art, for whom the present technical solution is intended, that if the membrane is made of a different material, it may need to have a different thickness without losing its ability to withstand the specified operating conditions. pressure, and the pusher 4 must be able to break through such a membrane.

[0021] Preferably, without limitation, the grooves 34 in which the pin 5 moves are made symmetrically to each other in the walls of the housing 31 for the pusher 4. This allows the pusher 4 to be placed along the axis of the outlet opening of the container and eliminates the possibility of it jamming or breaking through the locking element under wrong angle. Preferably, without limitation, the length of the grooves 34 in which the pin 5 moves, the length of the release of the spring 37, which ensures the movement of the pusher 4, approximately corresponds to half the length of the lock 6, which makes it possible to provide a stroke of the pusher 4 sufficient to reliably break through the locking element, but not block the spray holes 36 in the activated state of the locking and starting device 3. The pusher 4 contains a mounting base 41 and an elongated truncated cylindrical tip 42, on two surfaces of which flats 421, 422 are made, and in the mounting base 41, a through hole 43 is made, coaxial with the mentioned grooves 34, through which, by means of a fastening pin 5, the pusher 4 is fixed in a spring-loaded position through the mentioned grooves 34. By means of the same pin 5, the pusher 4, the housing 31 for the pusher 4 and the nozzle 32 are fixed in relation to each other. Preferably, without limitation, the total area the cross-sectional area of the flats 421, 422 is selected to be larger or at least equal to the cross-sectional area of the passage channel of a classic pusher, known from patent application US2017036048A, the materials of which are incorporated herein by reference; or known from RF patent No. 2667881, the materials of which according to RF application 2017135603 dated July 20, 2017 are thus included in this description by reference. However, it should mainly be assumed that the total cross-sectional area of the flats 421, 422 is selected such as to ensure free exit of the fire extinguishing agent from the outlet along the flats 421, 422 in the direction of the inner walls of the spray cap 32 in the direction of the holes 36; that is, one should mainly proceed from the fact that the radii of the flats 421, 422 are chosen significantly less than the distance between the inner wall of the spray cap 32 and the outer wall of the housing 31 for the pusher 4. In this case, by the cross sections of the flats 421, 422, by their radii, we mean the values , calculated in relation to the cylinder in which these flats 421, 422 are made. The pusher 4 is preferably, without limitation, made from a cylindrical rod made of stainless steel by cutting off a cylinder of the required length from it and then in any order of performing the steps: performing truncation from one of the ends, making a transverse hole 43 for the pin 5, performing from two of the ends sides of flats 421, 422; which is a simpler and faster manufacturing method compared to the manufacturing process of a classic hollow needle pusher. In this case, without limitation, a pusher 4 can also be provided, made of a cylindrical rod made of stainless steel by cutting off a cylinder of the required length from it and then in any order of performing the stages: partial or complete milling of the cylinder to obtain a blank for the pusher in the form of a parallelepiped, execution truncating one of the ends of the parallelepiped, making a transverse hole 43 for the pin 5 from the other end; which is a simpler and faster manufacturing method in comparison with the manufacturing process of a classic pusher with a hollow needle, but more complicated in comparison with the above-described manufacturing process of a pusher with flats 421, 422, although it makes it possible to obtain a pusher that is more efficient in terms of overall dimensions, half-width dimensions parallelepiped of which are selected, preferably, significantly smaller in comparison with the distances between the inner wall of the nozzle cap 32 and the outer wall of the housing 31 for the pusher 4. Moreover, without limitation, if a suitable rectangular rod is provided, the manufacturing method can be reduced to cutting the parallelepiped to the required length, making a transverse hole 43 for the pin 5 at one end and truncating the parallelepiped at the other end, which will further simplify and speed up the manufacturing process of the pusher 4. In the absence of a rectangular rod of the required dimensions, a milling step can also be provided to ensure the required dimensions of the parallelepiped. It should be obvious to a person skilled in the art, having ordinary knowledge, for whom the present invention is intended, that the pusher 4 can be made of the above-described shapes and sizes from any other suitable material, the choice of which should mainly be based on the fact that that such a material must have a high melting point, as well as high hardness and low brittleness.

[0022] Preferably, but not limited to, the spray cap 32 may include multiple spray holes 36. In the case of two spray holes 36, it is preferable that such holes 36 be placed symmetrically with each other. In the case of three spray holes 36, it is preferable that such holes 36 be placed at an angle of 120 degrees with respect to each other. In the case of providing four spray holes 36, it is preferable that such holes 36 be placed at an angle of 90 degrees with respect to each other and so on. The lock 6, for example, without limitation, is a device known from the prior art, which is a glass flask with a substance, when heated, the glass breaks and the lock 6 is destroyed, however, a specialist in the field of technology, having ordinary knowledge, for whom the claimed technical solution is designed, It should be obvious that the operability of the device does not depend on the method of destruction of the lock 6, which in this way can be destroyed forcibly. It is preferable, but not limited, that the operating temperature of the lock 6 ranges from 57 to 93+/- 3 degrees Celsius. In this case, it should be obvious to a specialist in the field of technology with ordinary knowledge for whom the claimed technical solution is designed that another device can be used as lock 6, for example, a metal rod or strip, the elasticity or fragility of which increases when heated to certain temperatures, which will also lead to the cessation of their action as a stop for the spring 37.

[0023] To enable control of the pressure inside the container 1, it may be provided with an inventive adapter 200. The adapter 200 for the gas fire extinguishing device 100 is preferably, but not limited to, connected to the outlet of the container 1 for the gas extinguishing agent, contains a mating with said outlet opening, a passage channel 7 containing a branch 71 connected to a fitting 72 with a check valve 721, wherein the outlet of said passage channel is equipped with a locking element 73, for example, but not limited to, similar to that described earlier, or representing the previously described lock nut 2 with a locking an element similar or similar to the shut-off element 73, and is configured to be connected to the shut-off and release device 3 of the gas fire extinguishing device 100. Preferably, but not limited to, at the junction of the branch 71 and the fitting 72, the check valve 721 is spring-loaded by a spring 722, which improves the reliability of filling the container 1 by preventing accidental release of the extinguishing agent or gas. Preferably, but not limited to, check valve 721 is provided with a seal 723, such as, but not limited to, an O-ring. Preferably, but not limited to, the check valve 721 has a cone-shaped part extending into the cavity of the fitting 72. The fitting 72 is configured to connect to a pressure control device 8, for example, but not limited to, a pressure gauge or other unified device, such as a pressure indicator, an electrical contact relay pressure, analog pressure sensor and similar devices. This configuration of the adapter allows you to alternately fill the container 1 with different gases and/or fire extinguishing agents, for example, but not limited to, allows you to fill the container 1 first with a gas fire extinguishing agent - freon or a gas fire extinguishing agent based on fluoroketone, for example, without limitation, such as a 3M gas fire extinguishing agent ™ Novec™, and then with a propellant gas - nitrogen. In addition, the use of the claimed adapter also makes it possible to replace the fire extinguishing agent and/or gas in the container without the need to disconnect the key elements of the fire extinguishing device - it is enough to remove the connected pressure control device, after which fitting 72 can be used as a drain and filling valve. The possibility of connecting a pressure control device allows you to constantly monitor the performance of the gas fire extinguishing device 100.

[0024] The inventive gas fire extinguishing device 100 is preferably, but not limited to, placed in a protected volume to provide a fire protection method or fire extinguishing method in which said device is activated either upon reaching a threshold temperature at which the lock 6 is activated, or by force by destroying the lock 6 by heating it, and/or detonation, and/or kinetic impact in response to a signal coming from the control panel of the fire protection system, which, without limitation, is any fire protection system known from the prior art, which, accordingly, is not further detailed described. Preferably, without limitation, the protected volume is any small-sized closed volume, such as, for example, but not limited to, a closed distribution and/or power and/or input installation panel, a stationary entrance and/or floor electrical panel, internal and /or external electrical cabinet, mounted and/or built-in electrical panel and/or electrical box, mounted and/or built-in control panel, server rack with equipment, telecommunication rack with equipment, engine compartment of a vehicle, space for placing electric energy batteries in a vehicle, cargo compartment of a vehicle and similar volumes. In this case, without limitation, it should mainly be assumed that the protected volume is predominantly a closed volume, since in this case the effectiveness of gas fire extinguishing is the highest. However, it should be obvious to one of ordinary skill in the art, to whom the present invention is intended, that the protected volume can be any volume in which a sufficient number of the inventive gas fire extinguishing devices 100 are located, the total power of which allows the displacement of air mass from the protected volume, thereby depriving the ignition source of access to oxygen.

[0025] This description of the claimed technical solution demonstrates only particular embodiments and does not limit other options for its implementation, since possible other alternative implementations that do not go beyond the scope of information set forth in this application should be obvious to a person skilled in the art, having the usual qualifications for whom the claimed technical solution is designed.

Claims (5)

1. A gas device for extinguishing a fire, containing a container for a gas extinguishing agent, which is connected through an outlet hole to an adapter for a gas device for extinguishing a fire, containing a passage channel mating with said outlet hole, containing a branch connected to a fitting with a check valve, wherein the outlet the said passage channel is equipped with a shut-off element and is connected to a shut-off and starting device of the gas fire extinguishing device, wherein the check valve has a cone-shaped part extending into the cavity of the fitting, and the fitting is configured to be connected to a pressure control device, and the adapter through the passage channel connected to said locking and starting device of the gas fire extinguishing device, consisting of a housing for the pusher, on one side connected to the locking element of the adapter, and on the other side connected to the sprayer; the body for the pusher is a hollow rod with a fastening hollow base, in the lower part of the rod and partially in the fastening hollow base there are coaxial grooves for the fastening pin, while inside the rod a spring-loaded pusher with a through passage channel is fixed, containing a fastening base, and in the fastening base a through hole is made, coaxial with the mentioned grooves, through which, by means of a fastening pin, the pusher is fixed in a spring-loaded position through the mentioned grooves, and the sprayer is a hollow cylindrical cap, threaded onto the body for the pusher and fixed through the holes in its lower part by means of the said pin through the mentioned grooves and a hole, wherein in the upper part of the nozzle there is a cavity for placing a lock, and in the upper part of the nozzle there are spray holes on the sides, wherein the lock forms a stop for the said rod and prevents the spring from being decompressed, wherein the destruction of the lock leads to the spring being decompressed, wherein the spring is decompressed causes said pin to move along said grooves in the direction of the closure element, wherein said pusher is positioned so that when the pin moves, it moves in the direction of the closure element, pierces the closure element and releases the extinguishing agent. 2. The device according to claim 1, characterized in that at the junction of the branch and the fitting, the check valve is spring-loaded. 3. The device according to claim 1, characterized in that the pressure control device is one of: a pressure gauge, a pressure indicator, an electric contact pressure switch, an analog pressure sensor. 4. The use of a gas device for extinguishing a fire according to any one of paragraphs. 1-3 to protect the protected volume from fire inside the protected volume. 5. The use of a gas device for extinguishing a fire according to any one of paragraphs. 1-3 to extinguish a fire in the protected volume.