RU140479U1 - FIRE HYDRANT MODULE - Google Patents

Abstract

The utility model relates to water fittings of external water supply networks, namely to fire fighting equipment, and can be used to supply water, including for fire fighting at low temperatures using a means of protecting people and equipment from thermal radiation. The task the claimed utility model is aimed at is simplifying access to the heat shield, eliminating the possibility of damage to it when installing in the PGM case and removing it from the PGM case, simplifying the PGM connection to the fire conduit system during design, and creating the possibility of transporting it in the container. The problem is solved in that in the fire hydrant module containing a housing with a roof and a door, inside which there is a heat shield, a water pipe with at least two hydrants and pipes, fire hoses and barrels, a heat shield is placed under the roof of the housing. The technical result consists in placing a heat shield under the roof and reducing the dimensions of the PGM body. 1 n.p. f-ly, 4 z.p. f-ly, 2 Fig.

Description

The utility model relates to water fittings of external water supply networks, namely to fire fighting equipment, and can be used to supply water, including for fire fighting at low temperatures using a means of protecting people and equipment from thermal radiation.

A known installation for fire extinguishing, including an element of a pipeline connected to a fire hydrant containing a connecting pipe, a locking device, an outlet pipe for connecting to a fire hose and fasteners, which contains additional parallel hydrants connected to the pipe element, a cabinet for placing installation elements. In this case, the locking device is located between the connecting and outlet pipes, the pipe element and hydrants are equipped with supports and are made with heat insulation, and the hydrants are located at an angle to the base of the cabinet to ensure the liquid is drained from the outlet pipe (RF patent for utility model No. 41982, IPC A62C 35 / 20. Published. November 20, 2004).

A fire extinguishing installation is also known, including a piping element connected to fire hydrants containing a shut-off device connected to an outlet pipe for connecting to a fire hose, a heating element of a pipeline element, a door cabinet for placing installation elements, trays for placing fire hoses and trunks in them, into which an additional hollow connecting element is placed inside the pipeline element with the possibility of connecting a locking device to it (RF patent for useful th model №113970, IPC A62C 35/20. Publ. of 10.03.2012).

However, in these installations there is no means of protection for firefighters performing combat operations with hand-held fire trunks from thermal radiation in fires.

Closest to the proposed in its technical essence is a fire hydrant module (PGM), comprising a housing with a roof and a door, inside of which there is a heat shield, a water pipe with at least two hydrants and pipes, fire hoses and barrels (RF patent for Utility Model No. 127642, IPC A62C 35/00. Published on 05/10/2013).

But in this PGM access to the heat shield is difficult, and when removing and removing the heat shield from the PGM, mechanical damage to the equipment and / or doorway inside the PGM is possible. At the same time, the dimensions of the PGM (2600 × 2400 × 2250 mm) complicate its binding to the fire conduit system during design. In addition, the size of the PGM does not allow transporting it in a container, which does not preclude unauthorized access to the PGM.

The task the claimed utility model is aimed at is simplifying access to the heat shield, eliminating the possibility of damage to it when installing in the PGM case and removing it from the PGM case, simplifying the PGM connection to the fire conduit system during design, and creating the possibility of transporting it in the container.

The problem is solved in that in the fire hydrant module containing a housing with a roof and a door, inside which there is a heat shield, a water pipe with at least two hydrants and pipes, fire hoses and barrels, a heat shield is placed under the roof of the housing.

The technical result consists in placing a heat shield under the roof and reducing the dimensions of the PGM body.

Placing a heat shield under the roof of the casing makes it possible to simplify the design of the PGM by reducing its width and height, linking the PGM to the fire conduit system during design, eliminates the possibility of damage to the heat shield when installing it in the tank of the PGM and removing it from the barrel of the PGM, allows transporting the PGM in the container.

In FIG. 1 shows a module of fire hydrants, the main view; in FIG. 2 - section A-A.

The fire hydrant module contains (Fig. 1, 2) a building 1, doors 2, which can be single or multi-leaf, a water pipe 3 with supports 4, nozzles 5 with fire connecting heads 6 and hydrants 7, fire hoses 8, fire trunks 9 and a bag filter 10, control stations 11 and 12, respectively, by a lamp 13 and a pump (not shown), a differential protection circuit breaker 14 of the heating device / devices 15, a heat shield 16, for example, of the Sogd type 1A, placed on the supporting surface 17 in the form e.g. frames / platforms / platforms frame fixed in the upper position by stops 18 fixed to the roof 19, and in the lower position by stops 20 attached to the rear wall of the housing 1. In this case, one of the sides 21 with the mesh panels of the heat shield 16 “Sogda” 1A is parallel to the roof 19 the housing 1, and the fire hoses 8, the fire barrels 9 and the filter bag 10 included in the heat shield 16 are located in the compartment 22.

At least one Sogd type heat shield 16 (for example, Sogd type 1A or Sogd type 1B) can be placed on the supporting surface 17 (frame / platform / platform). At the same time, for the heat shield 16 of the Sogd type 1A, the supporting surface 17 is rotatable, and for the heat shield 16 of the Sogd type 1B it is not rotatable.

The housing 1, the doors 2 and the conduit pipe 3 are covered with heat-insulating material 23 to maintain heat and stabilize the temperature inside the housing 1.

The heating device (a) 15, switched on by means of a differential protection circuit breaker 14, provides (according to the instruction manual of the Sogda type 16 heat shields) the temperature inside the housing 1 equal to or more than 5 ° C at ambient temperature environments below 5 ° C. Case 1 has clamps 24 (GOST 21130) for connecting grounding devices and height-adjustable steps 25.

The operation of the fire hydrant module is as follows.

Connect the conduit pipe 3 to the network (fire conduit) supplying water to extinguish the fire.

When a fire occurs, 2 fire hydrant modules open the door. Using a control station 12, turn on the pump, which increases the pressure in the fire conduit. Fire hoses 8, trunks 9 and a bag filter 10 are removed from compartment 22. Then, the upper stops 18 are unlocked, freeing the frame 17, and they are rotated on the axes 26 located on the rear wall of the housing 1 until they contact the stops 20 (Fig. 2, image frame 17 and heat shield 16 by dashed-dotted lines). Then pull out the heat shield 16, for example, type "Sogd" 1A, moving it along the guides 27 of the frame 17. Deliver the heat shield 16 to the fire. Attach a fire hose 8 to a fire connecting head 6 of the corresponding fire hydrant 7, to which a bag filter 10 is connected. A fire barrel 9 and a water irrigation system of the heat shield 16 are connected to the bag filter 10. The fire hydrant 7 is opened, and water from the fire hose 8 is opened through bag filter 10 enters the fire barrel 9 and the water irrigation system of the heat shield 16, which makes it possible to approach close to the fire source under its protection.

If necessary, water is supplied to the extinguishing site through several fire hoses 8 and trunks 9 using, if necessary, several heat shields 16. In the dark, using the control station 11 turn on the lamp 13.

The claimed utility model simplifies the design of the PGM, its attachment to the fire conduit system during design and access to the heat shield 16, eliminates the possibility of damage to the heat shield 16 when it is installed in the housing 1 and removed from the housing 1, allows you to transport the PGM in the container.

Claims (5)

1. Fire hydrant module, comprising a housing with a roof and a door, inside of which there is a heat shield, a water pipe with at least two hydrants and nozzles, fire hoses and barrels, characterized in that the heat shield is placed under the roof of the housing. 2. The fire hydrant module according to claim 1, characterized in that the heat shield is placed on a supporting surface. 3. The fire hydrant module according to claim 2, characterized in that the supporting surface is made in the form of a frame. 4. The fire hydrant module according to claim 3, characterized in that the frame is rotatable. 5. The fire hydrant module according to claim 3, characterized in that the frame is provided with guides for removing and installing a heat shield.

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