RU51884U1 - DEVICE FOR PREVENTING FIRE IN AN ENCLOSED SPACE - Google Patents

Abstract

The device relates to fire prevention in closed containers and rooms and can be used on industrial and other facilities with a high probability of ignition of combustible materials. The device includes an air separation membrane module, pipelines for transporting an inert gas and a throttling comb or perforated pipe, and the membrane module is automatically switched on using a remote control unit that converts an electric signal from a functionally connected gas analyzer when a specified oxygen concentration is reached in a closed volume.

Description

The proposed device relates to means of preventing fire in closed containers and rooms and can be used on industrial and other facilities with a high probability of ignition of combustible materials. Most of the known methods for preventing fires include reducing the concentration of oxygen in a combustible medium to a level where the rate of exothermic processes does not provide heat accumulation in the system and the development of combustion.

Known [SU No. 1442223, cl. 5A 62 C 3/00] a method of protecting against explosion of an ammonia-air mixture, comprising a device for injecting liquid carbon dioxide and water into a volume with an ammonia-air mixture in a mass ratio of 1: 3.5-4.5 with a flow rate of both components of 2.9-14, 5 g / m ³ for every percent of ammonia. Its disadvantages include the possibility of the formation of carbamates, which cause corrosion of metal parts.

The prototype of the proposed utility model is a device [SU No. 1544444, class. 5 А 62 С 2/00] for extinguishing a fire in an enclosed space by combustion products, containing sources of combustion products with smoke paths, a cooler, blowers and receiving means of combustion products, as well as collectors of chilled and uncooled combustion products connected through switching valve assemblies with

smoke paths of sources and receiving means of superchargers of combustion products.

To implement this method, you need a constantly operating source of flue gases, as well as a gas analyzer, the content of explosive and toxic components in them. These circumstances create significant difficulties for the widespread use of the specified device for extinguishing fires.

The objective of the proposed utility model is to improve its design in order to prevent fire in a given volume of space.

The task is achieved in that the device for preventing fire in a confined space includes a membrane module for air separation, pipelines for transporting inert gas and a throttling comb or perforated pipe that ensures uniform gas flow to different points in space, and the membrane module is automatically switched on using the remote control unit transforming an electric signal from a gas analyzer functionally connected with it, when reaching closed volume of a given oxygen concentration.

Example.

Figure 1 presents a schematic diagram of a fire prevention device.

The claimed utility model works as follows. Using compressor 1, air is supplied to the membrane module 2, where it undergoes the stages of drying and separation. The obtained inert gas with a reduced oxygen content through the pipeline 3 and the throttling comb 4 enters the closed production room 5, in which the oxygen gas analyzer 6 is mounted, which is functionally connected to the control unit 7. Using the remote control unit, the operation mode of the fire prevention installation is maintained, ensuring the concentration is maintained oxygen indoors within 10-12% vol.

A gaseous medium with an oxygen content of 10-12 vol.% Created in a confined space makes it impossible to ignite wood, rubber and plastic products and, moreover, does not exclude a short stay of people (up to one hour) without causing damage to their health. This is the advantage of the proposed utility model over the known technical solutions, the implementation of which requires the achievement of lower oxygen concentrations.

Claims (1)

A device for preventing a fire in a confined space, including a membrane module for air separation, pipelines for transporting inert gas and a throttling comb or perforated pipe, which ensure uniform flow of gas to various points in space, characterized in that the membrane module is automatically switched on using a remote control unit that converts an electric signal from a gas analyzer functionally associated with it, when a specified volume is reached in a closed volume th oxygen concentration.