RU167941U1 - PIPELINE OUTPUT EDS IN FIRE EXTINGUISHING INSTALLATION - Google Patents

Abstract

The utility model relates to fire fighting equipment, namely to fire extinguishing installations, and is intended for supplying water by means of a dry pipe to fire centers remote from the fire conduit pipeline. It can be used for fire fighting at low temperatures. The task to which the claimed utility model is directed is to simplify and reduce the metal consumption of the structure, and reduce its hydraulic resistance of the extinguishing fluid. The problem is solved in that in a fire extinguishing installation, including fire hydrants containing a locking device, a door cabinet for placing installation elements and at least one output pipe element, two cuts at an angle are made at the end of the output pipe element from the side of the fire hydrant connection to it and relative to its axis, hermetically sealed with a plate having a flowing hole on each side of the cut, configured to connect a fire hydrant to it. The technical result consists in increasing the efficiency of fire fighting by reducing the hydraulic resistance of the extinguishing fluid. 3 s.p. f-ly, 3 ill.

Description

The utility model relates to fire fighting equipment, namely, to elements of fire extinguishing installations intended for supplying water by means of a dry pipe to fire centers remote from the fire conduit pipeline. It can be used in fire extinguishing installations operating in low temperature conditions.

A well-known element of the main pipeline used in a fire extinguishing installation is connected to a fire hydrant containing a shut-off device connected to an outlet pipe for connecting to a fire hose, and a hollow connecting element placed inside a main pipe element with the possibility of connecting a shut-off device to it with an outlet pipe (Patent Of the Russian Federation for utility model No. 113970, IPC A62C 35/20, published on March 10, 2012).

The disadvantages include the impossibility of extinguishing by a known fire extinguishing installation foci of fire remote from the fire conduit pipe.

A pipe element used in a fire extinguishing installation is also known, one end of which is closed by a plug, and the other end is configured to connect a dry pipe to it (RF Patent for Utility Model No. 131978, IPC A62C 35/00. Publish. 09/10/2013).

However, this element of the pipeline does not evenly distribute the flow of extinguishing fluid among the hydrants.

Closest to the proposed in its technical essence is the output element of the pipeline in the form of a tee, the output arm of which is made with the possibility of connecting a dry pipe to it. This output element of the pipeline is used in a fire extinguishing installation, including fire hydrants containing a locking device and a door cabinet for placing installation elements (RF Patent for Utility Model No. 149130, IPC A62C 35/00. Publish. 12.20.2014).

But this output element of the pipeline creates a significant hydraulic resistance of the extinguishing fluid entering the hydrants, because the change in flow direction and its separation occurs at least twice at an angle of 90 °.

The problem to which the claimed utility model is directed is to reduce the hydraulic resistance of the extinguishing fluid.

The problem is solved in that at the end of the output element of the pipeline in the form of a tee, from the side of connecting fire hydrants, two sections are made at an angle α relative to its axis, hermetically closed by a plate having a flow hole on each side of the section, configured to connect a fireman hydrant.

Slices at the end of the outlet element of the pipeline and their tight overlap by a plate with two flowing holes help to reduce the hydraulic resistance of the extinguishing fluid.

The implementation of each flow hole with the possibility of connecting a fire hydrant to it eliminates the shoulders, flanges, bends, gaskets and plugs available in the prototype, which simplifies installation and reduces its metal consumption.

The technical result consists in increasing the efficiency of fire extinguishing by reducing the hydraulic resistance of the extinguishing fluid by the output element of the pipeline.

In FIG. 1 shows a fire extinguishing installation with one outlet pipe element, general view; in FIG. 2 - section A - A of FIG. one; in FIG. 3 - remote element B in FIG. 2.

The installation (Fig. 1, 2, 3) contains a door cabinet 1 for accommodating installation elements, an outlet pipe element 2, one end of which 3 extends beyond the rear wall of the cabinet 1, and two cuts 4 are made at the second end at an angle α from 30 to 60 °. The sections 4 are hermetically sealed by a plate 5 with two flow openings 6, equipped with fire hydrants 7, containing piping components, for example, pipes 8 and / or flanges 9, and / or bends, and / or transitions (not shown) and valves 10. To the valves 10 are attached through flanges 9 to nozzles 11, equipped with connecting heads 12. To provide the fire hydrants 7 with the necessary extinguishing liquid (pressure, volume), the diameter of the flow openings 6, which are located symmetrically to the axis of the outlet element of the pipeline 2, is set to explicit or larger than the inner diameter d of the nozzles 8. And in order to evenly distribute the flow of extinguishing fluid in the inner cavity of the output element of the pipeline 2, a flow splitter is installed along its axis in the form of a flat strip 13 resting at one end on the plate 5 and having a height equal to the inner diameter D the output element of the pipeline 2. The output element of the pipeline 2, pipeline parts, valves 10 of the fire hydrants 7 are equipped with a heating element, for example a heating cable 14, and are covered by thermal insulation 15 to exclude freezing of fire extinguishing liquid in them at subzero ambient temperatures.

In the cabinet 1 there is a remote on / off switch 16 of the luminaire 17, an on / off switch 18 for a valve on a dry pipe (not shown), a remote on / off switch 19 for a pump (not shown) that increases the pressure in the fire conduit, and a heating on / off switch 20 heating cable 14. At the same time, trays 21 are installed in cabinet 1 to accommodate fire hoses 22 and shafts 23 attached to the inner surface of roof 24. Doors 25 of cabinet 1, having grounding 26, are fixed in the open or closed position by latches 27. The output element of the pipe ode 2 installed in a cabinet 1 on supports 28.

A dry pipe leaving the fire line (not shown) and equipped with a valve and a drain element (not shown) delivers a fire extinguishing liquid to extinguish the fire outside the fire zone to the outlet pipe 2. In this case, the dry pipe and the end 3 of the output pipe 2 insulated.

Installation extinguishing works as follows.

When extinguishing a fire, open the doors 25 of the cabinet 1 and fix them with latches 27.

Fire hoses 22 and trunks 23 are removed from the trays 21, connected to each other and connected to the corresponding connecting head 12 of the fire hydrant 7. Using the remote control 19, the pump increases the pressure in the fire conduit. At a negative ambient temperature, the on / off control panel 20 of the heating cable 14 is constantly turned on to prevent freezing of the output element of the pipeline 2, pipe 8 with flange 9 and valve 10 of fire hydrants 7.

Using the remote control 18, the valve on the dry pipe is activated, supplying the extinguishing liquid (water) from the fire line through the dry pipe to the empty outlet element of the pipeline 2, which increases the efficiency of fire extinguishing by reducing the hydraulic resistance of the extinguishing liquid.

Then open the valve 9 of the fire hydrant 7, and the fire extinguishing fluid is fed into the deployed fire hoses 22 and barrels 23 to the place of extinguishing.

If necessary, in the dark using the remote control 16 turn on the lamp 17.

Claims (4)

1. The output element of the pipeline in the fire extinguishing installation, one end of which serves to connect a dry pipe to it, and the other to connect fire hydrants to it, characterized in that at the end, which serves to connect fire hydrants to it, two cuts are made at an angle a from 30 to 60 ° relative to the axis of the output element, hermetically sealed with a plate having a flow hole on each side of the cut, configured to connect a fire hydrant to it, while in the inner cavity of the output element On the section side of the pipeline, a separator of the extinguishing fluid flow is installed, which interacts with the plate. 2. The output element of the pipeline according to claim 1, characterized in that the sections are located symmetrically relative to the axis of the output element of the pipeline. 3. The output element of the pipeline according to claim 1, characterized in that the flow splitter is made in the form of a flat strip. 4. The output element of the pipeline according to claim 3, characterized in that the flat strip has a height equal to the inner diameter of the output element of the pipeline.

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