RU49726U1 - FIRE EXTINGUISHER (OPTIONS) - Google Patents

Abstract

Utility models relate to the field of fire fighting equipment, namely to primary fire extinguishing means, and can find application in the design and manufacture of various types of fire extinguishers. The problem solved by utility models and the technical result achieved are to simplify the design of fire extinguishers, reduce the complexity of their manufacture, increase assembly performance and reliability of sealing and locking the threaded connection of the neck with a locking-starting device. For this, in the first version of the fire extinguisher, which includes a cylinder 1 with a threaded neck 2 filled with a fire extinguisher and a pressurized trigger 3 with a threaded section 4 for connecting to the neck 2 of the cylinder 1, the threaded connection is made with a cylindrical thread and provided with a seal 5 , which is made in the form of a polymer composition and is located in a spiral gap 6 between the turns 7 of the thread of the neck 2 of the cylinder 1 and the response turns 8 of the threaded section 4 of the locking-starting device 3 with the formation of cells evogo compound. In the second embodiment of the fire extinguisher, which further includes a device 10 for relieving pressure during disassembly of the fire extinguisher, which is located on the threaded section 4 of the locking and starting device 3, which serves to connect to the neck 2 of the cylinder 1, while the seal 5 is made in the form of a polymer composition and is located in spiral gap 6 between the turns 7 of the thread of the neck 2 of the cylinder 1 and the counter turns 8 of the threaded section 4 of the locking and starting device 3 in the section from the outer end 11 of the threaded neck 2 of the cylinder 1 to the device 10 for pressure relief with the formation of adhesive bonding.

Description

Utility models relate to the field of fire fighting equipment, namely to primary fire extinguishing means, and can find application in the design and manufacture of various types of fire extinguishers.

A known fire extinguisher containing a cylinder for a pressurized fire extinguishing composition, a shut-off valve and a sealing device connected to the neck of the cylinder, made in the form of a threaded connection using tapered threads [Description of the invention to the patent of the Russian Federation No. 2188683, IPC ⁷ A 62 C 13/62, publ. . 09/10/2002, Bull. No. 25].

The advantage of tapered threads is the reliability of locking of the connected parts and their sealing. At the same time, the use of a conical threaded connection in the design of a fire extinguisher imposes specific requirements on equipment for threading and increases the number of technological operations for the manufacture of units and parts, as well as their assembly. In addition, the use of a conical threaded connection assumes the presence of massive parts that are resistant to counteracting the deformation force of the thread turns during assembly.

A fire extinguisher is known, including a cylinder with a neck filled with a fire extinguishing substance and a pressurized locking device with a threaded section for connecting to the cylinder neck, the threaded connection being made with a cylindrical thread and provided with a rubber ring seal between the mouth and the shoulder of the locking and starting device [ Description of the invention to the patent of the Russian Federation No. 2191054, IPC ⁷ A 62 C 13/00, publ. 10/20/2002, bull. No. 29].

The connection of parts using a metric thread is not reliable enough, since this thread requires additional fixation, for example due to the tightening force or the corresponding interference fit, and the use of a rubber ring seal increases the number of parts in the product and the complexity of manufacturing the corresponding parts due to the presence on their surface specially treated seating surfaces. In addition, during assembly, a threaded connection is possible, which in some cases

can lead to a breakdown of the pipe, for example, directly during assembly or, much worse, at the consumer, in case of accidental collision with other objects, for example, in the cabin of a moving car.

The problem solved by the first useful model of the group, and the technical result achieved, are to simplify the design of fire extinguishers, reduce the complexity of their manufacture, increase assembly performance and reliability of sealing and locking the threaded connection of the neck with a locking-starting device.

To achieve the claimed technical result in a known fire extinguisher, which includes a cylinder with a threaded neck and a locking and starting device with a threaded section for connecting to the neck of a cylinder filled with a fire extinguisher and a threaded section, while the threaded connection is made with a cylindrical thread and provided with a seal, the seal is made in the form of a polymer composition and is located in a spiral gap between the threads of the neck of the cylinder and the return turns of the threaded section of the locking and starting voy device with the formation of adhesive bonding.

Besides:

- the polymer composition is made using a one-component liquid anaerobic adhesive;

- cylindrical thread made metric or pipe, or inch, or thrust.

In addition to the technical solutions of the fire extinguishers listed above, the design of the next fire extinguisher is known, including a cylinder with a threaded neck filled with a fire extinguisher, a locking and starting device with a threaded section for connecting to the neck of the cylinder, and a device for relieving pressure when disassembling the fire extinguisher, while the threaded connection is made with a cylindrical thread and equipped with a sealing ring between the annular contact belts on the locking-starting device and the tank and [Disclosure of the invention to RF patent №2038833, ⁶ IPC A62C 13/76, publ. 07/09/1995, bull. No. 19].

As in the previous case, the connection of parts using a metric thread is not reliable enough, since this thread requires additional fixation, for example due to its tightening force or the corresponding

tightness of the connection, and the use of a rubber O-ring seal increases the number of parts for assembly and the complexity of manufacturing the corresponding parts due to the presence of specially treated seating surfaces on their surface. In addition, spontaneous unscrewing of the thread is possible under the influence of vibration, for example, a moving car.

The problem solved by the second utility model of the group, and the technical result achieved, are to simplify the design of fire extinguishers, reduce the complexity of their manufacture, increase the productivity of the assembly and the reliability of sealing and locking the threaded connection of the neck with a locking-starting device.

To achieve the claimed technical result in a known fire extinguisher, including a cylinder with a threaded neck filled with a fire extinguisher and pressurized, a locking and starting device with a threaded section for connecting to the neck of the cylinder and a pressure relief device when disassembling the fire extinguisher, while the threaded connection is made with a cylindrical threaded and equipped with a seal, a pressure relief device is located on the threaded section of the locking-starting device, which serves to connect it is connected to the neck of the cylinder, and the seal is made in the form of a polymer composition and is located in a spiral gap between the threads of the neck of the balloon and the counter turns of the threaded section of the locking and starting device from the outer end of the threaded neck of the balloon to the pressure relief device with the formation of an adhesive joint.

Besides:

- a device for relieving pressure is made in the form of a through hole on the threaded section of the locking-starting device, which serves to connect to the neck of the cylinder;

- the device for depressurizing is made in the form of a groove located on the side of the end part of the threaded section of the locking and starting device, which serves to connect to the neck of the cylinder, with the intersection of part of the threads;

- the polymer composition is made using a single component liquid anaerobic adhesive.

- cylindrical thread is metric or pipe, or inch,

or persistent.

Utility models are illustrated in the drawing, where:

- figure 1 shows a General view of the cylinder with a threaded neck;

- figure 2 is a General view of the locking and starting device with a threaded section for connection to the neck of the cylinder;

- FIGS. 3-5 show variants of view A of FIG. 2 — a possible design of a threaded portion of a locking and starting device used to attach to the neck of a cylinder with a portion of a one-component liquid anaerobic adhesive applied prior to assembly;

- figure 6 shows a General view of the connection of the threaded neck of the fire extinguisher with the threaded portion of the locking and starting device with a polymer composition in a spiral gap between the turns of their threads;

- Fig.7 shows the position I of Fig.6 is an enlarged image of the gap between the threads.

The first variant of the fire extinguisher includes a cylinder 1 with a threaded neck 2 filled with a fire extinguisher and a pressurized trigger 3 with a threaded section 4 for connecting to the neck 2 of the cylinder 1, while the threaded connection is made with a cylindrical thread and provided with a seal 5, which is made in the form of a polymer composition and is located in a spiral gap 6 between the turns 7 of the thread of the neck 2 of the cylinder 1 and the response turns 8 of the threaded section 4 of the locking-starting device 3 with the formation of adhesive Connections. The polymer composition was made using a one-component liquid anaerobic adhesive 9 manufactured by the domestic industry (for example, see the catalog Anaerobic sealing compounds (sealants). Acrylic adhesives. FSUE “Research Institute of Polymers”, Dzerzhinsk, 1999) or its foreign analogues distributed under the LOC trademark -TITE ^® , AGA and others, while the cylindrical thread is metric or pipe, or inch, or thrust.

The second variant of the fire extinguisher also includes a cylinder 1 with a threaded neck 2 filled with a fire extinguishing agent and pressurized, a locking and starting device 3 with a threaded section 4 for connecting to the neck 2 of the cylinder 1 and, in addition, a device 10 for relieving pressure during dismantling of the fire extinguisher, this threaded connection is made with a cylindrical thread

and also equipped with a seal 5. The device 10 for pressure relief is located on the threaded section 4 of the locking and starting device 3, which serves to connect to the neck 2 of the cylinder 1, and the seal 5 is made in the form of a polymer composition and is located in a spiral gap 6 between the turns 7 of the neck thread 2 cylinders 1 and return turns 8 of the threaded section 4 of the locking and starting device 3 in the section from the outer end 11 of the threaded neck 2 of the cylinder 1 to the pressure relief device 10 with the formation of an adhesive joint. The device 10 for relieving pressure can be made in the form of a through hole 12 on the threaded section 4 of the locking and starting device 3 or in the form of a groove 13 located on the side of the end part 14 of the threaded section 4 of the locking and starting device 3, used to connect to the neck 2 of the cylinder 1, with the intersection of part of the turns 8 of the thread.

It should be noted that for the implementation of utility models it does not matter how the thread is cut or cast in section 4 of the locking-starting device 3. It can be either a traditional design with a groove 15 for the passage of a thread-cutting tool (see figure 3), and without grooves (see Figs. 4 and 5), but at the same time, a corresponding chamfer (conditionally not shown) must be provided on the neck 2 to compensate for the incorrect profile of the last thread turn of section 4 of the locking-starting device 3.

A fire extinguisher is assembled as follows.

Prepared cylinder 1 and locking and starting device 3 are supplied to the assembly. A siphon tube 16 is screwed into the locking-starting device 3. A portion of a single-component liquid anaerobic adhesive 9 is arbitrarily applied to the threaded portion 4, for example, as shown in FIG. 3. The amount of glue is selected with the calculation of the guaranteed seal of the spiral gap 6. If the threaded section 4 is cylindrical without any special grooves or holes, then the glue can be applied to the thread anywhere. If a device 10 is provided on the threaded section 4 for relieving pressure during disassembly of the fire extinguisher, then a portion of the adhesive 9 is applied from the side opposite to the end part 14 of the threaded section 4 of the locking and starting device 3 relative to the device 10 (which, as noted above, can be made in the form through holes 12 or in the form of grooves 13), for example, as shown in FIGS. 4 and 5.

It should be noted that the siphon tube 16 can be screwed into the locking

starting device 3 after applying a portion of glue 9.

Further, the locking-starting device 3 with its threaded part 4 is screwed by hand into the neck 2 of the cylinder 1 - until it stops. In this case, the thread tightening force does not matter. A one-component liquid anaerobic adhesive 9 spreads in the gap 6 between the turns 7 of the thread of the neck 2 of the cylinder 1 and the counter turns 8 of the threaded section 4 of the locking and starting device 3 in the section from the outer end 11 of the threaded neck 2 of the cylinder 1 to the pressure relief device 10. After a technologically set time has elapsed (usually 20-24 hours at a temperature of 20-22 ° C) in the gap 6 in the absence of oxygen and with the help of metal ions, the adhesive polymerizes with the formation of an integral connection with the sealing function - indicated in the drawing by 5. Thus, reliable sealing of the threaded connection and reliable fixation of the threaded section 4 of the locking-starting device 3 in the neck 2 of the cylinder 1 is achieved.

The assembled fire extinguisher is refilled in accordance with the manufacturing process, is checked for leaks and goes to the warehouse for further implementation.

To disassemble the finished product in a fire extinguisher, the pressure is relieved, for example, by draining the extinguishing agent, releasing the compressed gas in some other way, etc. The locking-starting device 3 is turned out of the neck 2 of the cylinder 1 with the force necessary for the mechanical destruction of the adhesive joint. Or, for example, the neck 2 of the cylinder 1 is heated to a temperature at which the intermolecular interactions of the adhesive joint are destroyed, after which the locking and starting device 3 is turned out of the neck 2 without much effort. It must be borne in mind that in some types of fire extinguishers there may be excess pressure, which device 10 serves to discharge. As the threaded section 4 is turned out of the neck 2, the hole 12 or grooves 13 begin to let compressed gas through, which eliminates the uncontrolled outflow of the fire extinguisher or “firing” "Locking trigger 3.

Thus, the use of utility models simplifies the design of fire extinguishers, reduces the complexity of their manufacture, improves assembly performance and reliability of sealing and locking of the threaded connection.

Claims (8)

1. A fire extinguisher comprising a fire extinguisher filled and pressurized bottle with a threaded neck and a locking and starting device with a threaded section for connection to the neck of the cylinder, the threaded connection being made with a cylindrical thread and provided with a seal, characterized in that the seal is made in the form polymer composition and is located in a spiral gap between the threads of the neck of the balloon and the return turns of the threaded section of the locking and starting device with the formation of adhesive Connections. 2. Fire extinguisher according to claim 1, characterized in that the polymer composition is made using a single-component liquid anaerobic adhesive. 3. The fire extinguisher according to claim 1 or 2, characterized in that the cylindrical thread is metric or pipe, or inch, or resistant. 4. A fire extinguisher, including a cylinder with a threaded neck filled with a fire extinguishing agent, a locking and starting device with a threaded section for connecting to the neck of the cylinder and a pressure relief device when disassembling the fire extinguisher, while the threaded connection is made with a cylindrical thread and provided with a sealant, characterized in that the pressure relief device is located on the threaded section of the locking-starting device, which serves to connect to the neck of the cylinder, and the seal in Full polymer composition in the form and located in the gap between the helical threads of the neck of the container and the turns counter-threaded portion of the locking trigger on the outer end portion of the threaded neck of the container until the pressure relief device to form an adhesive bond. 5. Fire extinguisher according to claim 4, characterized in that the pressure relief device is made in the form of a through hole in the threaded section of the locking and starting device, which serves to connect to the neck of the cylinder. 6. A fire extinguisher according to claim 4, characterized in that the pressure relief device is made in the form of a groove located on the side of the end part of the threaded portion of the locking and starting device used to connect to the neck of the cylinder, with the intersection of part of the threads. 7. Fire extinguisher according to claim 4, characterized in that the polymer composition is made using a single-component liquid anaerobic adhesive. 8. A fire extinguisher according to any one of claims 4 to 7, characterized in that the cylindrical thread is metric or pipe, or inch, or resistant.