SU1679118A1 - Obstacle for detonation - Google Patents

Abstract

The invention can be used as a protective device for acetylene generators and pipelines with combustible gases from the effects of a blast wave and a flame. The purpose of the invention is to increase the reliability of the detonation barrier by providing directional detonation on the surface of the cylindrical guide. Antidetonation and throttling bore,

Description

The invention relates to chemical engineering and can be used as a protective device that protects acetylene generators and pipelines with combustible gases from the effects of a blast wave and a flame during flame treatment of metals.

The aim of the invention is to increase the reliability of operation by providing a directional detonation effect on the surface of a cylindrical guide which is a shut-off valve.

The drawing shows a detonation barrier.

It consists of a cylindrical hollow body 1 and a cover 2, combined respectively with the output 3 and the input 4 nozzles. The housing 1 is connected to the lid 2 by means of bolts 5. In the central lid of the lid 2 on its inner side there is a filled seat 6. Inside the body, a cylindrical fire blocking element 7 is installed on a tight sliding fit, which has a valve on the end of the entrance side and a gas detonation barrier 8, and on the opposite end of the detonation chamber 9, from which 1/3 the height of the side surface of the fire-blocking element at an angle of 45 ° to the generator (or horizontal) is made of a multi-thread anti-knotting bore in the form of grooves 10 seconds ayuschims cross section lo length and included within the annular groove 11 and the rest of the side surface is formed throttling the gas passage in the form of the helical groove 12.

Claims (1)

The detonation barrier works as follows. An explosive gas enters the detonation barrier through the inlet 4 and the passage first through the gap between the seat 6 and the valve 8, then through the throttling gas channel 12, the annular groove 11 and the anti-knock bore 10 located on the lateral surface of the cylindrical fire prevention element 7 enters in the detonation chamber 9, from which through the outlet 3 is consumed. In case of emergency situation in the event of detonation from the side of the gas consumer, the shock wave, together with a high pressure flame, enters the detonation chamber 9 through the nozzle 3, acts on the fire-blocking element 7, and drives it into translational motion. At the same time, having burst into the detonation boring, it creates a reactive torque, which causes the fire-blocking element to rotate. Due to the simultaneous translational rotational movement of the fire-blocking element 7, the screw-in valve 8 enters the h, of 6 and reliably blocks the flow of fresh gas from the network. The localization of the detonation wave occurs in the anti-knock and throttling bores made on the stopping element 7. Claims of the invention A detonation barrier consisting of a cylindrical body with inlet and outlet nozzles / i, in which a shut-off valve with a cylindrical guide is placed, characterized by In order to increase the reliability of operation, anti-knock and throttling bores, separated by an annular groove, are made on the surface of the cylindrical guide; astochka formed as inclined suzhivayuschihs in cross section grooves, incoming into the annular groove and the bore drosseliruyuscha - a helical groove.