RU97642U1 - FIRE EXTINGUISHING DEVICE - Google Patents

Abstract

 1. A device for extinguishing a fire, including a container in the form of a hollow metal casing of a cylindrical shape, filled with a fire extinguishing agent and equipped with a launch unit made on the basis of the initiating element, as well as spraying devices associated with a container with a fire extinguishing substance, characterized in that the launch unit is made in the form of a hollow cylindrical body, the lower part of which is fixed in the adapter, and the upper is closed by a lid, and in which a carbon dioxide cylinder is installed, which can be changed contact with the body and the interaction with the tip of the hollow working needle placed in the adapter, and the initiating element of the launch unit is made in the form of a bursting glass capsule made of toughened glass, in which there is a thermosensitive substance that responds to temperature increase, while the capsule is fixed between the fixed stop and the movable the latch interacting with the glass mounted in the upper part of the housing of the launch site and spring-loaded relative to its cover, and spray devices Ia installed at the bottom of the container with the fire extinguishing agent. ! 2. The device for extinguishing a fire according to claim 1, characterized in that the body of the fire extinguisher is used as a container with a fire extinguishing agent. ! 3. The device for extinguishing a fire according to claim 2, characterized in that the cavity of the tank is filled with water. !four. The fire extinguishing device according to claim 2, characterized in that the cavity of the container is filled with powder. ! 5. The fire extinguishing device according to claim 2, characterized in that the cavity of the container is filled with foam. ! 6. The device for extinguishing a fire according to claim 1, characterized in

Description

The utility model relates to the field of fire fighting equipment, namely, to the design of fire extinguishing systems with finely sprayed water, and can be used at industrial and commercial enterprises, in warehouses, in residential and public buildings to obtain a spray flame extinguishing agent and ensure its uniform distribution over the protected fire square.

Known design sprinkler installation for extinguishing fires in enclosed spaces, a description of which is given in the book. M.G. Shuvalova. Firefighting Basics. - M .: Stroyizdat. - 1983. - S.180-187. The installation contains an automatic water feeder supplying irrigators with water during the first 5 minutes of the installation. The installation is activated as a result of the operation of fusible locks of irrigators that respond to an increase in room temperature. The sprinklers open, as a result of which the pressure in the distribution network decreases, which triggers the control-signal valve, and water begins to flow to the sprinklers first from the automatic water feeder, and then, after turning on the pump, from the reservoir.

The disadvantages of the installation are high water consumption and the need for constant maintenance of the supply and distribution pipelines under pressure to ensure the operation of the control and signal valve. In order to avoid false triggering of the installation in the event of malfunctions in the distribution network, it is necessary to periodically check the integrity of the pipelines, the correctness of the test instrument readings and other routine maintenance, which leads to an increase in operating costs. In addition, the scope of the installation is limited. So, its use is ineffective if it is necessary to protect premises with a complex layout, because this significantly complicates the distribution network.

Known installation for ed. testimonial. SU 1077133, IPC A62C 35/20, 1984, designed to extinguish a fire in rack warehouses. This installation uses sprinkler sprinklers with parabolic deflectors, crushing water jets and reflecting part of the jets up to the perforated panels, upon collision with which droplets are re-crushed and the water is evenly distributed along the protected surface (shelf shelves). The specified installation provides more effective fire extinguishing while reducing water consumption due to the finely dispersed spraying of water and its uniform distribution in the inter-rack space.

The disadvantage of the installation is its limited use due to the presence of special structural elements (perforated panels), rigidly connected with the guarded object.

A device is also known (patent RU No. 2112572, A62C 5/00, 1998), according to which the module for fire extinguishing with sprayed liquid contains a cylinder filled with a fire extinguishing liquid and compressed gas. In the cavity of the container is a siphon tube, consisting of two series-connected sections. The tube section with a large cross section is located in the gas cavity of the container and has through side holes in the area of the connection of the tube sections. In addition, the module includes a locking and starting device connected to a siphon tube and a liquid atomizer communicated through a locking and starting device with a siphon tube. The specified device provides the flow into the spray gas-liquid mixture, which is then crushed into droplets in the outlet openings of the spray.

However, this device does not allow to provide the required uniformity of irrigation extinguishing fluid of the protected premises and the associated fire extinguishing time. In addition, the likelihood of a cessation of fire fighting in areas with reduced irrigation intensity is not ruled out.

Known installation for extinguishing a fire by ed. testimonial. SU 607575, IPC А62С 35/58, 1978. The installation contains a container with a fire extinguishing liquid, equipped with a locking and starting device connected to an alarm device, a supply pipe connected to sprinklers installed in the protected room, a container with working gas, a siphon tube, an inlet end which is lowered into a container with a fire extinguishing liquid, and a unit for forming a gas-liquid mixture, made in the form of an adapter with a gas chamber.

The disadvantage of this device is the high consumption of the original fire extinguishing substances and the lack of installation efficiency when fighting a fire, especially in a complex layout.

The closest in technical essence to the claimed device is the installation for extinguishing a fire selected as a prototype (patent RU No. 2193908, IPC ⁸ А62С 35/02, 2002). According to the specified invention, the installation contains a container with a fire extinguishing liquid, equipped with a locking and starting device connected to an alarm device, made in the form of a sensor that responds to an increase in room temperature, the appearance of smoke, etc. The installation contains a supply pipe connected to sprinklers installed in the protected room , a container with a working gas, a siphon tube and a gas-liquid mixture formation unit. The inlet end of the siphon tube is lowered into a container with a fire extinguishing liquid. The unit for forming a gas-liquid mixture is made in the form of an adapter with a gas chamber and, from the side of the inlet chamber, is hermetically fixed in the neck of the container with a fire extinguishing liquid. The inlet chamber, the bypass chamber and the mixing chamber are coaxially located in the adapter, and the gas chamber is transversely located. The gas chamber through the first inclined opening communicates with the inlet chamber and through the second inclined opening to the mixing chamber. The outlet end of the siphon tube is fixed in the bypass chamber, the gas chamber is hermetically connected by means of a gas hose to the container with the working gas, and the mixing chamber is hermetically connected to the inlet end of the supply pipe.

A disadvantage of the known design adopted by us for the prototype is the need to install an additional gas cylinder of high pressure, which provides inflation, mixing and obtaining a gas-liquid phase, as well as reducing safety during fire fighting. Another disadvantage is the presence of two channels in the design of the unit for forming a gas-liquid mixture of the device. These disadvantages reduce the reliability and usability of the device as a whole. To install the cylinder requires additional equipment, installation and requires periodic monitoring of this cylinder for weighing. In addition, the pressure in the cylinder depends on the ambient temperature. Also, it is possible that liquid can enter the gaseous medium through an inclined hole and block the gas flow. The known installation for extinguishing a fire is stationary, and therefore there is no possibility of its easy movement (manual transportation) and placement in places of potential fire, which reduces its technological capabilities. All this taken together reduces the effectiveness of fire fighting.

This utility model is aimed at eliminating the above disadvantages, namely, increasing the efficiency and expanding the technological capabilities of the fire extinguishing installation.

To solve the problem in a device for extinguishing a fire, including a container in the form of a hollow metal casing of a cylindrical shape, filled with a fire extinguishing agent and equipped with a launch unit made on the basis of the initiating element, as well as spraying devices associated with the container with a fire extinguishing agent, according to the claimed utility model the launch unit is made in the form of a hollow cylindrical body, the lower part of which is fixed in the adapter, and the upper one is closed by a cover, and in which a cylinder with carbon dioxide, having the ability to move relative to the body and interact with the tip of a hollow working needle placed in the adapter.

Other differences of the claimed device is that the initiating element of the launch unit is made in the form of a bursting glass capsule made of toughened glass, in which there is a thermosensitive substance that responds to temperature increase, while the capsule is fixed between the fixed stop and the movable latch interacting with the glass installed in the upper part of the housing of the launch unit and spring-loaded relative to its cover.

The following differences of the claimed design from the prototype are that the spraying devices are installed in the lower part of the tank with a fire extinguishing agent.

Additional differences of the proposed utility model are that a fire extinguisher case with a capacity of up to 10 l is used as a container with a fire extinguisher, while its cavity as a fire extinguishing agent is filled with either water, powder, or foam.

In addition, the launch unit is mounted directly on the container with extinguishing agent, either outside the container and connected to it, and either a water sprinkler sprinkler, a water sprinkler sprinkler, a foam sprinkler sprinkler, a foam sprinkler sprinkler, or small nozzles are used as a spray device. spraying.

Comparative analysis with the prototype shows that the claimed utility model is distinguished by the presence of mechanisms, nodes, their relative position, relationships, the form of execution of these mechanisms and the materials used.

A patent search showed that at present the device for extinguishing a fire having the same set of essential features as the proposed one is not known. Thus, the claimed design meets the criteria of the utility model of "novelty."

The launching unit is made in the form of a hollow cylindrical body, in which a carbon dioxide cylinder is installed, having the ability to move relative to the body and interact with the tip of the hollow working needle, making the initiating element in the form of a bursting glass capsule made of toughened glass, in which there is a heat-sensitive substance that reacts to temperature increase, capsule fixation between the fixed stop and the movable latch interacting with the glass installed in the upper part of the casing ovogo unit and spring-loaded relative to its cover, will ensure the autonomy of the device due to the organization of fighting fires without the presence of the people, to improve the safety due to the emergence of the working pressure in the housing only when the operation of the initiating element. After the device is triggered, it can be reused - refueling with water or other extinguishing composition. The advantage of the claimed design is the ease of transportation by transport by transporting empty enclosures, followed by pouring water, installing the nozzle and launch unit at the place of use. The possibility of using fire extinguisher bodies with a capacity of up to 10 l, various compositions (water, powder, foam), various sprays (water sprinkler or deluge, foam sprinkler or deluge sprinklers, nozzles of fine spraying), placement of the launch unit directly on the container with a fire extinguishing agent or outside it, increase the variability of the claimed design, which also expands its technological capabilities. Maintenance and charging of the device does not require special skills and can be done at the place of use. The device has a relative compactness, in connection with which its manual transportation is possible. Thus, all significant differences taken together will expand the technological capabilities of the device to extinguish a fire and significantly increase its effectiveness.

The above proves that the combination of features distinctive from the prototype provides the possibility of using the claimed technical solution for the automatic supply of extinguishing agent to the area of the protected object in case of fire in a minimum time, i.e. it meets the criterion of the industrial applicability utility model.

The proposed utility model is illustrated by drawings, where:

- figure 1 shows a schematic General view of a device for extinguishing a fire;

- figure 2 - launch site with the initiating element.

The design of the claimed utility model will be considered with a specific example. The inventive device for extinguishing a fire contains a container 1 filled with a fire extinguishing agent (not shown in the drawing) and made in the form of a sealed hollow metal housing of a cylindrical shape, for example, a fire extinguisher body with a capacity of up to 10 liters can be used. As an extinguishing agent, as options, in the container 1 can be either water, or powder, or foam (see).

The fire extinguishing device has a launch unit 2 based on the initiating element installed in the upper part of the tank 1, in its neck. The initiating element is a bursting glass capsule 3 of toughened glass, in which there is a thermosensitive substance that responds to an increase in temperature. The launch unit 2 is made in the form of a hollow cylindrical body 4, the lower part of which is fixed in the adapter 5, and the upper one is closed by a cover 6. On the outer lateral cylindrical surface of the body 4, a movable latch 8 having an L-shaped shape is fixed and can be moved interacting with the cup 9, located in the upper part of the housing 4 of the launch unit 2. Between the cup 9 and the cover 6, a spring 10 is installed.

A cylinder 11 with carbon dioxide is installed in the housing 4 of the launch unit 2, the neck of which rests on the ring 12. In the adapter 5, a working needle 13 is installed, which is pressed by the nut 14. A safety spring 15 is mounted between the nut 14 and the ring 12. The cylinder 11 is installed in the housing 4 freely and has the ability to move relative to it. The needle 13 is hollow and its tip has the ability to interact with the movement of the cylinder 11 along the housing 4 with a membrane covering the neck of the balloon.

The capsule 3 of the launch unit 2 is placed between the movable latch 8, which has the ability to move along the guides 16, and a fixed strap-stop 17.

The start-up unit 2 can be placed both on the housing of the container 1, and in any other place using in this case an adapter 5 with an extension in the form of a tube (not shown in the drawing).

A spraying device 18 is installed in the hole in the lower part of the container 1 with a fire extinguishing agent. As a spraying device, either a water sprinkler sprinkler, a water sprinkler sprinkler, a foam sprinkler sprinkler, a foam sprinkler sprinkler, or fine spray nozzles can be used (GOST R 51043 -2002).

A device for extinguishing a fire works as follows.

Previously, the device is prepared for operation, for which the tank 1 is filled with a fire extinguishing agent, for example, water. A carbon dioxide cylinder 11 is inserted into the housing 4 of the start-up unit 2 and is closed by a cover 6. The start-up unit 2 is equipped with an initiating element in the form of a bursting glass capsule 3 made of toughened glass, in which the thermosensitive substance is located. The capsule 3 is fixed between the fixed stop and the movable latch 8, interacting with the glass 9 installed in the upper part of the housing 4 of the launch unit and spring-loaded relative to its cover 6. The launch unit 2 is located in the upper part of the tank 1, in its neck, and in the hole in the lower part of the tank 1 mounted water sprinkler sprinkler 18. The device is ready for use.

When a fire occurs under the action of a heat signal, the thermally sensitive substance in the capsule 3 expands, while the capsule itself bursts and releases the movable latch 8. Under the action of the squeezing spring 7, the latter is displaced along the guides 17 from the housing 4, thereby releasing the glass 9, which, under the action of the working spring 10, moves down the carbon dioxide cylinder 11 along the body onto the working needle 12. The tip of the needle pierces the membrane of the cylinder 11, while the released gas enters the container 1 with fire shaschim substance which, passing through the opening of sprinkler 18 is divided about the outlet, forming a uniform stream of drops required to extinguish a fire.

The inventive design allows you to expand the capabilities of the device for extinguishing a fire, to increase the efficiency of its use. The device does not require significant energy resources, it is easy to maintain and more reliable than analogues, it can significantly reduce the consumption of the original extinguishing agents by forming a finely dispersed gas-liquid mixture and reduce the time required to eliminate the fire. For the manufacture of the device using conventional materials, components, fire extinguishing agents, which allows the use of the proposed device for protection against fires, both individual objects and premises. The design of the launch unit 2 is simple and reliable.

Claims (12)

1. A device for extinguishing a fire, including a container in the form of a hollow metal casing of a cylindrical shape, filled with a fire extinguishing agent and equipped with a launch unit made on the basis of the initiating element, as well as spraying devices associated with a container with a fire extinguishing substance, characterized in that the launch unit is made in the form of a hollow cylindrical body, the lower part of which is fixed in the adapter, and the upper is closed by a lid, and in which a carbon dioxide cylinder is installed, which can be changed contact with the body and the interaction with the tip of the hollow working needle placed in the adapter, and the initiating element of the launch unit is made in the form of a bursting glass capsule made of toughened glass, in which there is a thermosensitive substance that responds to temperature increase, while the capsule is fixed between the fixed stop and the movable the latch interacting with the glass mounted in the upper part of the housing of the launch site and spring-loaded relative to its cover, and spray devices Ia installed at the bottom of the container with the fire extinguishing agent. 2. The device for extinguishing a fire according to claim 1, characterized in that the body of the fire extinguisher is used as a container with a fire extinguishing agent. 3. The device for extinguishing a fire according to claim 2, characterized in that the cavity of the tank is filled with water. 4. The device for extinguishing a fire according to claim 2, characterized in that the cavity of the tank is filled with powder. 5. The fire extinguishing device according to claim 2, characterized in that the cavity of the container is filled with foam. 6. The device for extinguishing a fire according to claim 1, characterized in that the starting unit is installed directly on the tank with a fire extinguishing agent. 7. The device for extinguishing a fire according to claim 1, characterized in that the starting unit is installed outside the tank with a fire extinguishing agent and is associated with it. 8. The fire extinguishing device according to claim 1, characterized in that a water sprinkler sprinkler is used as a spraying device. 9. The fire extinguishing device according to claim 1, characterized in that a water deluge sprinkler is used as a spraying device. 10. The fire extinguishing device according to claim 1, characterized in that a foam sprinkler sprinkler is used as a spraying device. 11. The fire extinguishing device according to claim 1, characterized in that a foam deluge sprinkler is used as a spray device. 12. The fire extinguishing device according to claim 1, characterized in that fine spray nozzles are used as the spraying device.