SU1574226A1 - Fire-barrier - Google Patents

Abstract

The invention relates to fire protection means and allows for improved reliability of fire protection equipment. The arrester includes a housing 1 with a cavity 2, an inlet 3 and an outlet 4, nozzles, gaskets 5, a set of interchangeable spacer sleeves 6, 7 and 8 of various thicknesses, a space 9, a front 10 and a rear 11 flame arresting elements consisting of mesh sleeves, filled with bulk filler 12. Each of the mesh holders of flame-retarding elements consists of a housing 13 and two interchangeable perforated covers 14 and 15. 1 sludge.

Description

The invention relates to flame retardant in mechanical engineering, chemistry, in particular to industries associated with the storage, movement and use of combustible media, and can be used to extinguish a flame shock, for example, in welding installations.

The aim of the invention is to increase the reliability of fire protection.

The drawing shows a section, the flame arrester includes a housing 1 with an input cavity 2 ,. inlet 3 and outlet 4 nozzles, gaskets 5, a set of interchangeable spacer sleeves 6 of various thicknesses, the space between the front 10 and rear 11 Flameproof nozzles, for example, consisting of mesh clips filled with granular filler 12 (e.g. sand). Each of the mesh clips of flame-retardant elements consists of a housing 13 and two replaceable perforated covers 14 and 15,

Flame retardant operates as follows.

The flame back impact, falling through the inlet pipe 3 into the cavity 2, loses part of its speed due to expansion and hits the front flame-extinguishing nozzle 10. space 9 due to a sharp increase in working volume (compared with channels in the sand). The final extinguishing of the flame occurs in the rear flame extinguishing nozzle. 11. Moreover, to increase the volume of space 9 (for example, in the case of a breakthrough of the flame), it is possible to move the flame-extinguishing nozzles 10 and 11 along the axial channel 2 to a predetermined position, fixing this position using spacer sleeves 6-8.

The control interval for this distance is selected experimentally. If the length 1 ^ is less than 1 ₂ , then in some cases a breakthrough of the flame can be observed (usually when the granulometric composition of the layer of granular filler fluctuates).

With a maximum length of 1 ₄ · equal to 21 _a , the flame in all cases is extinguished completely. The achievement of the maximum length with constant dimensions of the arrester occurs due to the reduction of the length of 1 _e cavity 2 and at 1,> 21 ₉ increases the impact on the cover 14 of the front flame arrester element 10, which is undesirable. Therefore, in practice, usually the distance '1 ^ was chosen in the range of (1.3-1.5) 1 ₂ , and the length of the cavity 2 was approximately 0.51, which ensured sufficient reliability of the flame arrester and its compactness.

The reliability of the device is increased due to the possibility of moving each of the flame-extinguishing elements separately (i.e., changing the distance between them), and the possibility of changing the cross-section of the flame-extinguishing channels in the bulk filler (changes in particle size distribution).

The reliability of the device is also increased due to the impossibility of igniting the combustible gas mixture behind the flame-extinguishing elements, since the flame is extinguished not only in the loose layers of the nozzle, but also in the free space between them and partially mesh clips. Due to this, the device can operate continuously, without shutting off the flow of the gas mixture, which are necessary and are in other devices that allow ignition behind the flame extinguishing elements.

Claims (1)

Claim A flame arrester comprising a housing with inlet and outlet nozzles and several layers of nozzles installed with a gap, differing in that it is equipped with sleeves installed between the nozzles to increase the reliability of fireproofing, with nozzles placed with the possibility of separate movement along the axis of the housing. this gap between the nozzles is in the range from one to two values of the height of the nozzle.