SU1688898A1 - Manual fire pipe - Google Patents

Description

The invention relates to fire fighting equipment, in particular, to devices designed to supply a continuous or sprayed jet of liquid to a fire site.

The aim of the invention is to increase the quenching efficiency while increasing the dispersion.

Fig. 1 shows a fire bore with an overlapping device in the position of forming a continuous jet, a longitudinal section; Figure 2 is the same in the position of the spray jet formation.

Fire barrel has a three-way valve with a locking element 1, made in the form of a ball having a plane-parallel cut. The crane is placed on two vertical semi-axes x 2 in a cylindrical body 3 of the barrel. The insert is made in the form of a cone-shaped sleeve 4 with uniformly circumferentially facing ends going in a radial direction at an angle of 60 ° with channels 5 of variable section, tapering in the direction of flow and providing axial flow inlet. Nozzles 6 for forming a continuous and sprayed jet. Seal 7 shut-off

organ is located on the side of the connecting head 8. Round rubber rings 9 and pins 10 provide sealing axes and their fastening in the tides of the body. Handle 11 is designed to translate the locking element in one of the provisions :. Closed, Continuous spray, Spray spray.

To form a continuous jet, the locking element 1 of the three-way valve is installed in the position shown in Fig. 1.

The flow passes through the hole formed by the inner profiled surface of the connecting head 8, the through hole in the locking element 1, the central hole of the cone-shaped sleeve 4 enters the nozzle 6 for feeding solid jets. The diameter of the holes along the flow to the nozzle is made constant, which stabilizes it, ensuring laminar flow, as a result of which the jet delivery range is increased.

Fig. 2 shows the position of the locking member 1 of a three-way valve at which a spray jet is formed.

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The flow through the hole formed by the inner profiled surface of the connecting head 8, the annular channel formed by the inner surface of the housing 3 and the locking element 1, hits the plane-parallel cut of the locking element 1 evenly, flows around the surface of the locking element 1 from all sides and radially goes into the slot a cone-shaped sleeve 4, in which the maximum is twisted so that when exiting the nozzle 6 it is intensively sprayed. The central hole of the tapered sleeve 4 is blocked by the spherical surface of the locking element 1.

The proposed fire barrel makes it possible to increase fire extinguishing efficiency while simultaneously increasing torch angle, uniform irrigation, uniformity of sprayed droplets, range of a continuous jet and its compact part, and reducing the average diameter of sprayed droplets, to ensure extinguishing Class A fires (burning solids) with a high utilization rate of fire extinguishing agent, as well as class B fires (subclass Bt - burning of water-insoluble liquid substances: fuel oil, gasoline and

etc.), the extinguishing of which is currently carried out by an expensive air-mechanical foam formed by an air-foam barrel (fire suppression of a subclass of W by existing fire barrels forming a continuous and spray jet is not possible).

Thus, the proposed trunk replaces the air-foam trunk.

Claims (1)

Invention Formula A manual fire barrel containing a cylindrical body with a three-way valve, the closure element of which is made in the form of a ball, an insert made in the form of a cone-shaped sleeve with radial-axial slits of variable cross section, tapering in the direction of flow and nozzles, characterized in that in order to increase the fire extinguishing efficiency while simultaneously increasing the dispersity of the spray drops, the ball of the gate element has a platform that, in the position of the formation of the spray jet, forms an annular channel between the inner surface of the housing and the locking element. % / 6 FIG. 2 6