RU2522086C1 - Fire extinguishing module - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: in fire extinguishing module comprising a housing made of profiled steel bands, in which a cylinder with a siphon tube is vertically mounted, divided by the liquid level to liquid and gas volumes, and filled with the extinguishing liquid which is under pressure of the compressed gas, the pressure switch. At the outlet from the cylinder the lock-start gear of the pyrotechnic type is mounted, electrically connected through the control unit to the smoke detectors and a hydraulic sprayer connected to the siphon tube, and the siphon tube is made of constant cross section with a diffuser at its end facing towards the bottom of the cylinder, and the pressure switch is mounted on upper part of the cylinder, in which is the gas injection nozzle is mounted having at the end located in the gas volume of the cylinder the check valve, and the sprayer comprises a hollow housing in the form of a sphere on which the inlet and outlet throttling element is placed. The housing is located between the pipe and the cage, fixing it in a way that the plane of the inlet of the housing is located perpendicular to the axis of symmetry of the pipe and the cage. The outlet throttling element is made in the form of cylindrical orifices, uniformly located on the spherical surface of the housing, the axes of which are located on radial lines that connect the centre of the spherical surface of the housing with the centre of the hole. The coefficient of perforation of the perforated spherical surface of the housing is in an optimum range of values of 0.5÷0.8.EFFECT: improvement of efficiency of fire extinguishing by increasing the operational speed.

Description

The invention relates to the field of fire fighting equipment and is intended to extinguish fires with automatic stationary or mobile installations using liquid (water) sprayed with neutral gas in cultural institutions, in computer facilities, on ships, aircraft, warehouses and other objects in which people and valuable equipment.

The closest in technical essence and the achieved result is the fire extinguishing module according to RF patent No. 2463094, comprising a housing made of profiled steel strips, in which a cylinder with a siphon tube is vertically mounted, separated by a liquid level into liquid and gas volumes, and filled with a fire extinguishing liquid located under pressure of compressed gas, a pressure switch, and at the exit from the cylinder, a pyrotechnic-type locking and starting device is installed, electrically connected through a device smoke detectors, and hydraulically spray (prototype).

The disadvantage of this device is the relatively low speed due to the separation of the siphon tube into two sections with holes, which makes it difficult to quickly empty the container.

EFFECT: increased fire extinguishing efficiency by increasing speed.

This is achieved by the fact that in the fire extinguishing module, which includes a housing made of profiled steel strips, in which a cylinder with a siphon tube is vertically mounted, divided by a liquid level into liquid and gas volumes, and filled with a fire extinguishing liquid under pressure of compressed gas, a pressure signaling device, moreover, at the outlet of the cylinder a pyrotechnic-type locking and starting device is installed, electrically connected via a control device with smoke detectors, and hydraulically with a spray gun, soy dyne with a siphon tube, and the siphon tube is made of constant cross-section with a diffuser at the end facing the bottom of the cylinder, and a pressure switch is installed in the upper part of the cylinder, in which is mounted a fitting for injecting gas, having at the end located in the gas volume of the cylinder, a check valve and the sprayer contains a hollow body in the form of a sphere on which the inlet and outlet throttling element are placed, while the body is placed between the nozzle and the holder, fixing it so that the plane is in the bottom hole of the housing is perpendicular to the axis of symmetry of the nozzle and holder, while the output throttling element is made in the form of cylindrical throttle holes evenly spaced on the spherical surface of the body, the axes of which are located on radial lines connecting the center of the spherical surface of the body with the center of the hole, while the perforation coefficient the perforated spherical surface of the body lies in the optimal range of values - 0.5 ÷ 0.8.

Figure 1 presents a diagram of the fire extinguishing module, figure 2 is a diagram of a gas-liquid flow atomizer.

The sprayed liquid fire extinguishing module (Fig. 1) contains a housing 1 made of profiled steel strips, in which a cylinder 2 is vertically mounted, consisting of a cylindrical housing, a bottom and an upper part, and is divided by a liquid level into liquid 3 and gas 4 volumes.

The cylinder 2 is equipped with an axisymmetrically located siphon tube 5, which is made of constant cross-section with a diffuser 6 at the end facing the bottom of the cylinder 2. wherein the pressure switch 12 is installed in the upper part of the cylinder, into which the nozzle 7 for gas injection is mounted, having at the end located in the gas volume of 4 cylinders, check valve 8.

At the outlet of the cylinder 2, a pyrotechnic-type locking and starting device (ZPU) 13 with a squib 14. mounted hydraulically with a pipe 9, which directs the gas-liquid flow from the ZPU 13 to the gas-liquid flow atomizer 15.

The atomizer 15 of the gas-liquid flow (FIG. 2) consists of a hollow body 16 made in the form of a sphere on which an inlet 1 7 and an output throttling element 19 are located. In this case, the body 16 is placed between the pipe 21 and the holder 20. fixing it in this way, that the plane of the inlet 17 of the housing is perpendicular to the axis of symmetry of the nozzle and the holder. The inner and outer surfaces of the housing 16 are made spherical. The inlet 17 of the housing communicates with the output throttling element through the inner spherical cavity 18 of the housing.

The output throttling element 19 is made in the form of cylindrical throttle holes 22 uniformly located on the spherical surface of the housing 16, the axes of which are located on radial lines connecting the center of the spherical surface of the housing with the center of the hole 22, while the perforation coefficient of the perforated spherical surface of the housing lies in the optimal range of values - 0.54 ÷ 0.8.

To ensure automatic fire extinguishing, the ZPU 13 is electrically connected through a control device 10 to smoke detectors 11. The presence of the required boost module for the pressure of the cylinder 2 is fixed by the pressure switch 12.

The operation of the fire extinguishing module is as follows.

A fire extinguishing liquid, such as water, is poured into a vertically mounted cylinder 2. Then the cylinder 2 is pressurized with gas, for example nitrogen, through the nozzle 7 to a predetermined pressure of 1 ÷ 3 MPa. The readiness of the fire extinguishing module with atomized liquid is judged by the readings of the pressure switch 12.

If there is a fire in the protected room, the detectors 11 send a signal to the control device 10. which, in turn, generates an electrical impulse to open the ZPU 13, for example, to detonate the squib 14. Under the influence of the pressure drop of the compressed gas in the cylinder 2, the liquid, together with the gas, through a siphon the tube 5 with the diffuser 6 rush, mixing (the water becomes carbonated), to the ZPU 13, and then the pipe 9 and to the atomizer 15. At any pressure in the cylinder 2, a two-phase mixture with the same gas content is supplied. When flowing through the pipeline 9, the gas-liquid flow changes its structure in horizontal, vertical sections and turns (not shown in the drawing).

The fire extinguishing module is additionally equipped with an automatic device for turning the sprayer toward a higher temperature, consisting of a pipe section with a drive 24 rotating in a horizontal plane and a rotating contact device 23. Responding to high temperature, and a temperature sensor (not shown) is attached to the sprayer, connected with automatic device for turning the sprayer.

The atomizer 15 of the gas-liquid stream operates as follows.

In case of fire, a fire-extinguishing gas-liquid stream enters from the nozzle 21 into the inlet 17 of the housing 16 and then through the internal cavity 18 to the outlet throttling element 19, from which it flows out in the form of a uniform torch with an opening angle of the jet of each of the holes 22. The mixture is uniform in fractions in the form of a droplet or a bubble stream flows through the openings of the atomizer 15 into a protected room (not shown in the drawing). The complete production of gas and liquid from the cylinder 2 is judged by the pressure switch 12. It is possible to manually start the fire extinguishing module with sprayed liquid by mechanical action on the ZPU 13.

The position of the spray torch can be adjusted within the radial angle of rotation of the housing 16. The nozzles are easy to operate, install and change-over and can be used for fire protection of flexible production lines.

Claims (1)

Fire extinguishing module, comprising a housing, a vertically mounted cylinder with a siphon tube, divided by a liquid level into liquid and gas volumes, and filled with a fire extinguishing liquid under pressure of compressed gas, a pressure signaling device, and a pyrotechnic type locking and starting device connected to the cylinder electrically through a control device with smoke detectors, and hydraulically - with a spray connected to a siphon tube, the siphon tube is made of constant cross section with a differential with a pattern at the end facing the bottom of the cylinder, and a pressure switch is installed in the upper part of the cylinder, into which a gas injection fitting is mounted, having a non-return valve at the end located in the gas volume of the cylinder, and the sprayer contains a hollow body in the form of a sphere on which an inlet and an output throttling element are placed, wherein the housing is placed between the nozzle and the holder, fixing it so that the plane of the inlet of the housing is perpendicular to the axis of symmetry of the nozzle and the holder, etc. and this output throttling element is made in the form of cylindrical throttle holes uniformly located on the spherical surface of the body, the axes of which are located on radial lines connecting the center of the spherical surface of the body with the center of the hole, while the perforation coefficient of the perforated spherical surface of the body lies in the optimal range of values - 0 , 5 ÷ 0.8, characterized in that it is additionally equipped with an automatic device for turning the sprayer towards a higher temperature, conductive from rotating in a horizontal plane with a drive pipe length and the rotating contact device responsive to high temperature, and the spray gun is mounted a temperature sensor associated with automatic rotation atomizer.

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