RU2404831C1 - Stationary foam generator of average expansion rate - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: invention relates to fire prevention and is intended to be used in stationary units of fire fighting foam installed at vertical tanks with crude oil and petroleum products. The medium expansion foam generator housing is designed as a cylindrical shell bounded by the flanges. In the mounting flange there is an outlet for the foam, close-lid mounted on a hinge. On the opposite side of the housing mud channel is fixed through the flange joins connecting with stationary fire extinguishing systems associated with the spray, having a manual transmission. In front of the spray valve is located, which is one of the arms of double-arm lever installed in the housing on the hinge. Other end of the lever is connected to a hinge with a fork. Double-arm lever is connected to a rope with a handle-operated drive. Its free end plug is installed on the fixed stops in the housing bolt. With its ends rod is joined with the lid, which is to draw to the edge of the orifice thrust by the force generated by rotating the nuts on threaded studs. With its end surface nut rests against the plug. Position of the nut corresponding required effort to seal the seam edge of the lid and the outlet foamer is fixed on the stud nut. Angle limiter of lid opening is attached to the stud and thrust. The second end stop is attached to the top of the bolt body.

EFFECT: improving the efficiency of spraying concentrate liquid solution of fire-extinguishing foam.

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Description

The invention relates to the field of fire fighting equipment and is intended for use in stationary installations for foam fire extinguishing of vertical tanks with oil and oil products.

The closest technical solution is a foam generator containing a housing, a distribution and a guiding device (RF patent No. 2136389, B05B 1/04, 1998 - prototype).

A disadvantage of the known object is the lack of the ability to create an optimal flow structure at the outlet and the insufficient efficiency and performance of spraying a fire extinguishing liquid solution of a foaming agent - medium-sized polydisperse foam.

EFFECT: increased spraying efficiency of a fire extinguishing liquid solution of a foaming agent.

This is achieved by the fact that in a medium-sized foam generator containing a housing with a lid, a spray gun and a solution for the stationary fire extinguishing system, the housing is made in the form of a cylindrical shell limited by flanges, and in the mounting flange there is an outlet for foam, closed by a lid mounted on a hinge, and on the opposite side to the body, through the flange, a solution line of the stationary fire extinguishing system is connected, connected to the sprayer having a manual drive, and in front of the sprayer an elephant, which is one of the shoulders of the two shoulders of the lever mounted on the hinge in the housing, and the other end of this lever is connected by a hinge to the fork, while the two shoulders of the lever are connected by a rope to the handle of the manual drive, and its free end is mounted on the stop fixed in the housing by a bolt, moreover, the rod is attached at its ends to the cover, which is drawn to the edge of the outlet by the rod due to the force created by the rotation of the nut along the thread of the stud, while the nut abuts against the fork with its end surface, and the position of the nut, The appropriate force required sealing joint cover edge and the outlet of the foam generator, is fixed to the stud locknut, with a stud and limiter rod attached lid opening angle, the second end stopper bolt secured to the upper housing portion.

Figure 1 presents a General view of the foam generator of medium multiplicity, figure 2 - remote element A of figure 1.

The medium-frequency stationary foam generator (foam generator) contains a housing 1 made in the form of a cylindrical shell limited by flanges 2 and 3. In the mounting flange 2 there is an outlet for foam, closed by a cover 9 mounted on the hinge 10. On the opposite side to the housing through the flange 3, a solution line of a stationary fire extinguishing system 6 is connected, connected to a sprayer 8 having a manual drive 16. The foam generator is installed and mounted on the tank (not shown in the drawing) using the mounting flange 2 with fastening elements in the form of parts 4 and 5. The inlet of the foam generator is located on the flange 3, it is joined mud channel 6.

In front of the atomizer 8, a shutter 11 is located, which is one of the shoulders of the two-arm lever mounted in the foam generator housing 1 on the hinge 12. The other end of this lever is connected by a hinge 13 to the plug 14. In addition, the two-arm lever is connected by a cable 15 to the handle 16 of the manual drive. With its free end, the plug 14 is mounted on a stop 17, fixed in the foam generator housing 1 by a bolt 18. The rod 19 is connected at its ends to the cover 9 and 20. The cover 9 is pulled to the edge of the foam generator outlet by the rod 19 due to the force created by the rotation of the nut 21 over the stud thread 20. In this case, the nut 21 abuts against the fork with its end surface 14. The position of the nut 21, corresponding to the required sealing force of the joint of the cover 9 and the edge of the outlet of the foam generator, is fixed on the stud 20 with the lock nut 22. To the stud 20 and the rod 19 the limiter 23 of the opening angle of the cover is connected 9. The second end of the limiter 23 is bolted to the upper part of the housing. To protect the lever system of the foam generator from breakdowns, the plug 14 is fixed (only for the period of transportation) with wire 24.

A foam generator (foam generator) of medium multiplicity stationary works as follows.

Installation and fastening of the foam generator on the tank is carried out using a mounting flange 2, on which there is an outlet closed by a lid 9, which is mounted on the hinge 10. The foam jet is formed by a spray 8.

At the beginning of the torch, the sprayed spray of the foaming agent solution has the highest speed and a foam with bubbles of small size (2–3 mm across) is formed, and with the distance from the shutter 11, the speed of the jet decreases and then foam with larger bubbles is formed (4–12 mm across). Thus, the foam generator produces polydisperse (differently sized for bubbles) foam, which has the property of rapid spreading over the surface. Obtaining foam in the conditions of smoke in the room is carried out according to the principle of air ejection by sprayed jets of a 6% aqueous solution of a fluorine-containing foaming agent from a spray 8.

Tests have shown that even in conditions of intense smoke, foam is formed in predetermined volumes and has good resistance to decay.

As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. It also works on a 6% aqueous solution of fluorinated foam former "Sublayer" in the conditions of smoke in the room.

The foam generator is intended for automatic fire extinguishing systems of closed technological rooms (supplying foam to the place of ignition), where vapor and gas mixtures can form, for example, in pump rooms of pumping stations, pressure control chambers, etc.

The foam generator works efficiently with the following optimal technical parameters:

Pressure before a spray, MPa 0.6 ÷ 0.8 Foaming agent solution consumption, l / s 5 ÷ 20 Multiplicity of foam, not less 70 Pressure in front of the spray with automatic shutter release, MPa, not more than 0.32 Hand actuator gain, N  80 ÷ 90

To protect the lever system of the foam generator from breakdowns, the plug 14 is fixed (only for the period of transportation) with wire 24.

The medium-frequency stationary foam generator is designed for use in stationary foam fire extinguishing installations of vertical tanks with oil and oil products.

Claims (1)

The medium-frequency foam generator is stationary, comprising a housing with a lid, a spray gun and a solution for the stationary fire extinguishing system, characterized in that the housing is made in the form of a cylindrical shell limited by flanges, and in the mounting flange there is an outlet for foam, closed by a lid mounted on a hinge, and on the opposite side, a mortar line of a stationary fire extinguishing system connected to a spray gun with a manual drive is connected to the housing through a flange, and in front of the spray gun there is a A flap is installed, which is one of the shoulders of a two-shouldered lever mounted on a hinge in the housing, and the other end of this lever is connected by a hinge to a fork, while the two-shouldered lever is connected by a rope to the handle of a manual drive, and its free end is mounted on a stop fixed in the housing by a bolt moreover, the rod is connected at its ends to the cover, which is drawn to the edge of the outlet by the rod due to the force created by the rotation of the nut along the thread of the stud, while the nut abuts against the fork with its end surface, and the position nuts corresponding to the required sealing force of the joint of the cover and the edge of the outlet of the foam generator are fixed on the pin with a lock nut, while the cover opening limiter is attached to the pin and the rod, while the second end of the limiter is bolted to the upper part of the housing.

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