RU181922U1 - FIRE HIGH FOR A CARRIER BAR - Google Patents

Abstract

The utility model is a device for placing fire monitors with manual and remote control and can be used in water and foam fire extinguishing installations, including in cooling installations of various technological objects, building structures, etc. The task to which the utility model is directed is to increase the reliability of the fire tower. The problem is solved by the fact that a shell is added to the fire tower, radially covering the main pipe and rigidly connected with stiffeners. At the same time, the inlet of the feeding pipe of the fire monitor barrel is located between the support flange and the shell and is equipped with metal plates welded to the main pipe. The technical result is to increase the operational capabilities of the support. 1 of FIG.

Description

The utility model is a device for placing fire monitors with manual and remote control and can be used in water and foam fire extinguishing installations, including in cooling installations of various technological objects, building structures, etc.

A tower for forest and environmental monitoring and its design are known, including a collapsible metal frame, for example, 35 m high, mounted on a foundation, and a viewing platform in which a collapsible metal frame is made of lightweight module sections, convenient for installation by forces just two people. Moreover, the frame is equipped with an anti-vandal staircase with a lockable hatch made of netting in the lower part of the staircase to a height of at least two module sections. An azimuthal circle with an accuracy of, for example, ± 0.5 °, oriented to the cardinal points, and optical instruments with a smoke plume detection range in a forest fire, for example 10-15 km, are placed on the observation deck, and the area serving the tower is up to 250 km (patent for Utility model No. 113767, IPC E04H 12/08. Publish. February 27, 2012. Bull. No. 6).

However, the well-known tower is designed for forest and environmental monitoring and is not intended to accommodate fire monitors.

Also known is a light tower for a stationary fire monitor containing a water pipe, a valve, a shut-off valve to remove water from the riser, an emphasis, a well, a riser, two platforms, a fire monitor, a ladder and a steering wheel that opens the water (V.P. Kushelev, “Safety Basics” at oil refineries. ”- M.: Chemistry Publishing House, 1978, p. 42).

The disadvantages of the known towers include unsatisfactory structural strength, rigidity and reliability.

Closest to the proposed technical essence is a fire tower (fire monitor), containing a supporting flange, a main pipe, a feeding pipe of a fire monitor, a ladder, a platform and stiffeners connected to the supporting flange (http://ab-fire.ru/qa/ 160.html).

But in this tower, the resulting reactive thrust of the water flow coming from the gun barrel, in combination with adverse weather conditions (wind, snow and seismic loads) can cause its destruction in the lower part due to exceeding the created tipping moment, which reduces the reliability of the structure.

The task to which the utility model is directed is to increase the reliability of the fire tower.

The technical result consists in eliminating a violation of the integrity of the structure when exceeding the ultimate moment of the tower overturning.

The technical result is achieved by the fact that in the fire tower containing the support flange, the main pipe, the supply pipe of the gun carriage, the ladder, the platform and the stiffeners connected to the support flange, an additional shell is introduced that radially covers the main pipe and is inextricably connected with the stiffeners. At the same time, the inlet of the feeding pipe of the fire monitor barrel is located between the support flange and the shell and is equipped with metal plates welded to the main pipe.

The introduced shell, radially enveloping the main pipe and inextricably connected with the stiffeners, eliminates the structural integrity violation when exceeding the ultimate tower tipping moment that occurs when the jet thrust of the water stream exiting from the gun barrel and the extreme conditions of its operation (areas with increased seismic activity , stormy winds, etc.).

The location of the inlet of the supply pipe of the gun monitor barrel between the support flange and the shell and supplying it with metal plates welded to the main pipe also helps to eliminate structural damage when exceeding the ultimate moment of the tower overturning.

In FIG. Fire tower for a fire monitor is shown, general view.

A fire tower for a fire monitor contains a support flange 1, a main pipe 2, a supply pipe 3 of a fire monitor (not shown), a flange 4 of a supply pipe 3, a flange 5 for connecting a fire monitor, a ladder 6 with a guard 7, a platform 8 with a guard 9, a cooling system 10 of the main pipe 2, branch 11 (if necessary) for connecting fire fighting equipment, stiffeners 12 and the shell 13. The inlet of the supply pipe 3 is equipped with metal plates 14 welded to the main pipe 2. If necessary, the fire tower is equipped with a water curtain of platform 8. Entrance tothe ladder 6 can be equipped with a door with a lock (not shown), which excludes the possibility of unauthorized persons climbing the tower. To prevent the destruction of the structure under the influence of thermal radiation from the combustion zone, the tower can additionally be coated with a fire-resistant coating. With a ladder height of 6 more than 10 m, the fire tower is equipped with an intermediate platform (not shown). The fire tower can be equipped with a remote control system. In this case, the gunman controls the fire monitor and the shutter 15, which allows the supply of extinguishing agent to the fire monitor, while at a safe distance from the focus of tanning (for example, in the control room). You can robotic fire tower, i.e. automate fire fighting using a robot.

The fire tower is used as follows.

A fire tower is installed on the building structure (foundation), a fire pipe (not shown) is connected to the supply pipe 3, and a fire monitor is connected to the flange 5, which is designed to form a flow of extinguishing agent at the outlet from it. As a fire extinguishing agent, you can use water or aqueous solutions containing a foaming agent with modifying agents.

In the event of sunbathing, the scavenger climbs the ladder 6 to the platform 8, on which there is a stationary fire monitor, to which water (or another fire extinguishing agent) is supplied through the supply pipe 3. Having risen to the platform 8, the gunman opens the shutter 15 and directs with the help of the gun barrel a powerful stream of water towards the focus of sunbathing.

At the end of the fire extinguishing, the gunman closes the shutter 15 and descends the stairs 6 to the ground.

Claims (1)

Fire tower for a fire monitor containing a support flange, a main pipe, a fire monitor’s supply pipe, a ladder, a platform and stiffeners connected to the support flange, characterized in that it further comprises a shell radially covering the main pipe and inseparably connected with the stiffeners, In this case, the inlet of the gun pipe trunk pipe is located between the support flange and the shell and is equipped with metal plates welded to the main pipe.

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