SU1694152A1 - Hydro seal - fire-trap - Google Patents

Abstract

The invention relates to fire fighting equipment, in particular, to fire-fighting fire-retardants, mainly for gases at a pressure of less than 200 mm water column. The aim of the invention is to improve the reliability of the fire-con-duction at the pressure of gases in the inlet line of less than 200 mm water column. The fire lock includes a housing 1, a receiving chamber 2, an output chamber 3, a throttle threshold 4, a gas inlet 5, a gas outlet 6, a gas overflow threshold 7, confuser 8, a cylindrical nozzle 9, variable section cylinders and lengths ( cylindrical steps) 10-13. slotted slots 14 at the junction of cylindrical degrees for ejecting gas 14, pump 15. 1 sludge.

Description

The invention relates to fire fighting equipment, in particular to fire traps, mainly for gases at a pressure of less than 200 mm of water column.

The aim of the invention is to increase the reliability of flame retardation at reduced gas pressure in the inlet camra.

’· The drawing shows a structural diagram of the hydraulic trap trap.

The fire trap water trap contains a housing 1, divided into a receiving chamber 2 and an output chamber 3, with a partition, the lower cut of which, located below the liquid level in the receiving chamber 2, forms a water trap threshold 4, nozzles for gas inlet 5 and gas outlet 6, overflow threshold 7 and installed in the receiving chamber 2, hydraulic nozzles containing a confuser 8 and a cylindrical pipe 9 mounted on the confuser, the nozzles are provided with cylinders of variable cross-section and length (cylindrical steps) 10-13, and steps 10-11 are hermetically connected, and penalties 12-13 - leaky, with the presence of slotted slots 14 at the junction of the cylinders for ejection of gas.

The fluid to the vacuum head is pumped 15.

Fire trap fire trap works as follows.

The gas flows through the pipe 5 into the receiving chamber 2. When the pump 15 is turned off, gas does not pass through the fire extinguisher,

When the pump 15 is turned on, the fluid flow through the pressure pipe is fed to a hydraulic nozzle containing a confuser 8, and then due to the vacuum-end zones formed by the moving jet when it passes from one stage to another, the gases in the liquid boil. Instant boiling of gases crushes the liquid and creates the conditions for mixing. The presence of stages 10 and 11 of the vacuum contributes to the continuation of volume boiling.

From the cylindrical stage 11, the liquid enters the cylindrical stage 12 and 13, where there is a continuous crushing of water droplets in the flow of ejected 5 gas through the slotted slots 14 from the receiving chamber 2.

From steps 13 *, the gas-water stream enters the liquid located in the receiving chamber 2, capturing gas, while 10 further splits the gas stream into small bubbles, which then bubble through the liquid layer,> forming a finely dispersed gas phase in the liquid volume, and then, coming under threshold 15 of the hydraulic trap 4, the bubbles float in the outlet chamber 3 and the gas exits through the nozzle 6. The excess liquid is discharged through the overflow threshold 7.

The design of the gas trap increases the reliability of the fire trap, since it allows crushing the entire mass of the gas stream into small bubbles, during which subsequent bubbling through the liquid layer in the 25 gas trap is a uniform finely dispersed gas phase in the liquid.

Claims (1)

Claim Fire trap, containing a housing, a receiving and output chambers filled with liquid, nozzles for gas and liquid inlet and outlet, an overflow threshold and a water trap threshold, and a nozzle for supplying a gas-air mixture to the receiving chamber, characterized in that, in order to increase the reliability of the fire blocking when lowering gas pressure in the inlet chamber, the nozzle is made in the form of a cylinder with a confuser and hollow cylinders arranged in series behind it coaxially to each other with diameters increasing along the course of the liquid, while part of cylinders mounted above the receiving chamber, and part in the cavity of the receiving chamber, and slotted slots are made in the walls of the latter.