RU125868U1 - VEHICLE AUTOMATIC FIRE EXTINGUISHING SYSTEM MODULE FOR VEHICLE - Google Patents

Abstract

1. A module of a fast automatic fire extinguishing system on a vehicle, comprising temperature sensors connected by outputs to a control device connected to an on-board power supply network of the vehicle and equipped with cylinders for storing, supplying and spraying the extinguishing agent, characterized in that the module includes a cylinder, made of a power composite material covering an internal hollow sealed metal base, filled under pressure with an extinguishing agent and inert gas and equipped with a main fitting, on which a supporting body is mounted, to which the atomizer is attached coaxially to the cylinder, and a radially filling nozzle and pressure indicator fitting, while the pyro cartridge nozzle is installed tangentially to the hole of the main fitting, equipped with a thin membrane that isolates the pyro cartridge from the pressure of the cylinder P, but designed to operate on pressure P, and a cable network connecting the squib to the control device, a power membrane is installed at the outlet of the bearing housing the wound is designed for a dosed response force from pressure P, the squib is designed to create pressure P, and these values are related by the following relationships: P <P <P, P <P <P + P.2. The module according to claim 1, characterized in that the atomizer is made with radial openings for the release of extinguishing agent. The module according to claim 1, characterized in that the sprayer is equipped with a pipe wiring for supplying extinguishing agent to a remote protected area.

Description

The utility model relates to fire fighting equipment, namely: means of preventing and extinguishing fires in vehicles.

A known fire extinguishing system [1], containing at least one container with a fire extinguishing composition for suppressing fire in the luggage compartment, connected via pipelines to a nitrogen supply source to maintain the pressure of the extinguishing composition and with the luggage compartment, and a drive device. Its distinctive feature lies in the fact that it is equipped with additional containers with extinguishing composition connected by means of pipelines that form two groups of containers, the nitrogen supply source is made in the form of a cylinder having a pressure-controlled reducer installed between the tanks of one of the groups and connected with them by means of a pipeline, while the drive device is made in the form of pyrolysis heads installed on each container with a reagent, for example freon.

The disadvantage of the device is its complexity and the lack of automatic action in case of fire.

Known fire extinguisher of the fire system [2], mainly for aircraft, containing a cylinder filled with a fire extinguishing agent with a siphon tube mounted coaxially in the guide tube, a normally closed valve with an actuator mounted on the cylinder, a displacing gas generator in communication with the super-liquid space of the cylinder and a time delay element characterized in that, in order to increase the reliability of operation, the guide tube is profiled equidistantly to the inner surface of the upper part the cylinder, and the time delay element is made in the form of a filter mounted on the free end of the guide tube, the cavity of which is in communication with the exhaust valve actuator.

The disadvantage is that in this technical solution there is no certificate of actuating this fire extinguisher as part of the mentioned fire system.

A device for extinguishing a fire indoors [3]. The device includes a container with a fire extinguishing fluid and a shut-off valve. The valve is made of a composite material consisting of a textile material impregnated with an acetone solution of cellulose nitrate. The textile material is made of non-combustible threads and threads based on cellulose nitrate.

A positive quality of the device is the implementation of the valve made of composite material. This reduces weight and increases the corrosion resistance of the product. The disadvantage is that other elements, for example, a container with a fire extinguishing liquid, are not made in the same way

Known installation of fire extinguishing [4]. which is made in the form of containers made of composite material. A solid fuel gas generator is installed on the top lid of the tank, the flue gases from the fuel exit through the gas pipe to the lower part of the liquid layer in the tank. A screen is fixed on the bottom flange of the tank, and under it - between the racks, a float, the screen prevents the ingress of gas products of fuel combustion into the pipeline with spray nozzles.

The disadvantage of the installation is the use of a gas generator that produces fuel combustion products that can get into a fire extinguishing substance, which can lead to poisoning of the vehicle crew.

Known invention that relates to fire extinguishing systems of tanks [5], infantry fighting vehicles, self-propelled artillery installations. The essence of the invention lies in the fact that the complex fire extinguishing system, in addition to the standard system, including temperature sensors, a control system and fire extinguishing mixture cylinders, designed to extinguish a fire in a living compartment, is additionally equipped with a fire extinguishing subsystem in a motor-transmission compartment (MTO), in which includes sources of a blast wave and fire extinguishing agent, temperature sensors and a control unit, at the signal of a temperature sensor and a command from a control unit, sources of a blast wave and spraying fire depleting substances, the engine and the fan continues to operate, i.e. fire extinguishing in the MTO is carried out due to flame failure and exposure to fire extinguishing substances on the go, without stopping the tank. The application of the invention will simplify fire extinguishing in the MTO on promising armored vehicles and to modernize the fire extinguishing system on serial armored vehicles at a moderate cost and provide fire fighting in the MTO on the go, i.e. without turning off the engine.

The disadvantage of the device is the negative effect of the blast wave and explosion products on the crew.

Known invention [6], which relates to vehicles, and more specifically to armored vehicles, which are widely used in military equipment and in some areas of the national economy. This armored vehicle contains a chassis and an armored body mounted on it with a motor-transmission installation and an automatic fire extinguishing system, including temperature sensors and an extinguishing agent spray gun, a control device connected to the inlets with temperature sensors and an on-board network, a cylinder with an extinguishing agent, a membrane connected to the spray gun , its punch and a squib connected to the input of the control device. An alarm device connected to the cavity by a pipeline and igniters are introduced into the machine, and the cylinder is equipped with an additional membrane punch and a powder charge connected by means of a fire-conducting cord with igniters.

The disadvantage of the system is its relatively low speed and performance.

However, despite this, the latest invention in its technical essence is closest to the proposed technical solution and adopted as a prototype. The task set by the applicant is to reduce the response time of the fire extinguisher and to reduce the mass of the cylinder.

To solve this problem, the applicant proposes the design of a module in a vehicle fire extinguishing system, which includes a cylinder made of a power composite material covering an internal hollow sealed metal base, filled under pressure with an extinguishing agent and inert gas, and equipped with a main fitting on which it is installed the main body, to which the atomizer is attached coaxially to the cylinder, and the radial filling nozzle and pressure indicator nozzle, while the pi nozzle the patron is mounted tangentially to the hole of the main fitting, equipped with a thin membrane that isolates the squib from the pressure of the cylinder R _b , but designed to operate on pressure P _tm , and a cable network connecting the squib to the control device, a power membrane is installed at the outlet of the atomizer head housing, designed for a dosed actuation force from pressure R _cm , the squib is designed to create pressure R _p , while these values are interconnected by the following relationships:

P _b <P _tm <P _p

P _b <P _cm <P _b + R _p

When this sprayer is made with radial holes for the release of extinguishing agent. And also a variant is possible in which the sprayer is equipped with pipe wiring to the place of a possible fire. Figure 1 presents a General view of the device from the side, figure 2 is a bottom view, figure 3 is a cross section along the main fitting, figure 4 is a design of the container body, figure 5 is a spray with a pipe wiring.

The device consists of a module that includes a cylinder 1 made of a power composite material 2, covering an internal hollow sealed metal base 3, filled under pressure with an extinguishing agent 4 and an inert gas 5, and equipped with a main fitting 6, on which a carrier is mounted coaxially to the cylinder 1 case 7, to which the nozzle head 8 is attached coaxially to the cylinder, and the radialpo is the filling nozzle 9 and the pressure indicator nozzle 10, while the nozzle 11 of the igniter 12 is tangentially mounted to the main opening the nozzle 6 is equipped with a thin membrane 13 that isolates the igniter 12 from the pressure in the cylinder 1 Р _b , but designed to operate on pressure Р _тм , and a cable network 14 connecting the igniter with a control device 15 connected to the temperature sensors 16. At the outlet of the housing 7 of the atomizer head 8, a power membrane 17 is installed, designed for a dosed response force from pressure P _cm , the squib 12 is designed to create a pressure P _p , while these values are related by the following relationships:

P _b <P _tm <P _p

P _b <P _cm <P _b + R _p

The atomizer 8 is made with radial holes 18 for the release of extinguishing agent 4. And also a variant is possible in which the atomizer 8 is equipped with a pipe wiring 19 to a remote location of a possible fire.

The list of sources considered in the patent search

1. RF Application PM No. 2009103241/22, 02.02.2009, FIRE EXTINGUISHING SYSTEM,

2. Author's certificate No. 792646, fire extinguisher of the fire SYSTEM,

3. RF patent No. 1817343, DEVICE FOR FIRE EXTINGUISHING A FIRE IN AN INDOOR PREMISES,

4. RF patent No. 2022582, fire extinguishing installation,

5. RF patent No. 2216369, COMPREHENSIVE SYSTEMS FOR FIRE EXTINGUISHING TANKS, BATTLES OF INFANTRY, SELF-PROPELLED ARTILLERY INSTALLATIONS Yu.S. BURDAKOV,

6. RF patent No. 2098741, armored vehicle (prototype).

Claims (3)

1. A module of a fast automatic fire extinguishing system on a vehicle, comprising temperature sensors connected by outputs to a control device connected to an on-board power supply network of the vehicle and equipped with cylinders for storing, supplying and spraying the extinguishing agent, characterized in that the module includes a cylinder, made of a power composite material covering an internal hollow sealed metal base, filled under pressure with an extinguishing agent and inert gas and equipped with a main fitting, on which a supporting body is mounted, to which the atomizer is attached coaxially to the cylinder, and a radially filling nozzle and pressure indicator fitting, while the pyro cartridge nozzle is installed tangentially to the hole of the main fitting, equipped with a thin membrane that isolates the pyro cartridge from the pressure of the cylinder P _b, but designed for actuation by pressure P _tm, and the cable network, connecting the squib to a control device for the outlet of the supporting frame mounted Silova membrane, designed for the pressure actuation force F dosed _cm squib is designed to create a pressure P _n, while these quantities are linked by the following relationships: P _b <P _tm <P _p P _b <P _cm <P _b + P _p . 2. The module according to claim 1, characterized in that the atomizer is made with radial holes for the release of extinguishing agent. 3. The module according to claim 1, characterized in that the sprayer is equipped with a pipe wiring for supplying a fire extinguishing agent to a remote protected area.

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