RU2287351C2 - Spraying device for carbon dioxide fire extinguishing plant - Google Patents

Abstract

FIELD: fire-fighting, particularly delivery of fire-extinguishing material.

SUBSTANCE: spraying device comprises at least one spraying nozzle installed in pipeline and connected with disc-like deflector. The spraying nozzle has body with truncated front part connected to main body part provided with carbon dioxide supply channel. Spraying orifices are created in the front body part. One orifice, namely central one, is formed along axial line, other orifices, namely angular ones, are formed in conical surface so that axes thereof are inclined towards axial line. Angle between axes of both orifices is 30-55°. Deflector diameter is not less than 2.5 diameter of circle defined by points of angular orifices crossing with conical surface.

EFFECT: increased carbon dioxide delivery distance and increased speed of temperature reduction in fire site.

5 cl, 1 dwg

Description

The invention relates to the field of fire extinguishing in large volumes, and in particular to means for filling the space to be protected with a medium that does not support combustion, in particular, carbon dioxide fire extinguishing installations.

Although the invention relates to the field of fire extinguishing in large volumes with fire extinguishing compositions for volumetric extinguishing, which consists in creating an environment that does not support combustion in a protected space, it is also possible to use it for local volumetric extinguishing.

The closest analogue is the exhaust device of a carbon dioxide fire extinguisher, including a spray device containing a nozzle installed in the socket opening, in which a grate with conical holes is fixed (SU, 1319869 A1, A 62 C 31/14, 30.06.87). Since carbon dioxide passing through the aforementioned holes is then reflected from the walls of the socket, this device does not provide a high feed rate of the extinguishing agent into the ignition zone and, in addition, the area of the extinguishing agent with the lowest possible temperature (i.e., having the maximum ability to extinguish the fire) is at a short distance from the bell, which does not allow to effectively counteract the fire.

The task underlying the proposed technical solution is to ensure a long range of supply of a fire extinguishing agent and at the same time ensure the maximum reduction in temperature in the fire source.

The technical result arising from this task is achieved in a spray device of a carbon dioxide fire extinguishing installation, consisting of at least one spray nozzle installed on a highway having a deflector fixed to its body, while in the nozzle body there is an axial channel for supplying carbon dioxide, and in the front the housing section has spray holes, one of which is central, located on the center line, and the others are peripheral, made in such a way that their axes are located They are at an angle to the center line, and the angle between the center lines of the peripheral holes and the central hole is 30-55 °, and the diameter of the deflector exceeds 2.5 from the diameter of the circle on which the intersection points of the axes of the said peripheral holes are located with the outer surface of the front section of the housing spray nozzle.

Preferably, the deflector is in the form of a disk.

The front section of the spray nozzle body can be made in the form of a truncated cone, on the conical surface of which the indicated peripheral holes are located.

Part of the housing can take place "turnkey" and at the same time can be made in the form of a hexagon.

The invention is presented in the drawing, which shows a General view of the spray device.

The spray device consists of at least one spray nozzle 1 mounted on the distribution line and connected to a disk deflector 2. The spray nozzle 1 has a housing whose front portion is in the form of a truncated cone 3 and in which an axial channel 4 for supplying carbon dioxide is made. In the indicated front section of the casing, spray holes are made, one of which is central, located on the axial line 5 of the casing 1, and the other peripheral, made in such a way that their axis 6 are located at an angle of 45 ° to the axis 7 of the peripheral hole of the line (i.e. E. The angle between the axes 6 and 7 lies in the above range of 30-55 °). In this case, the necessary condition for achieving the specified flow range is the isolation of closely spaced air currents, which could be carried along with a high-speed carbon dioxide jet. For this purpose, a disk deflector 2 is installed in front of the nozzle (in the direction of the jet), the diameter of the disk D of which must exceed 2.5 diameter d of the circle on which the points of intersection of the axes of the said angular holes 6 with the conical surface 3 are located. Reducing the diameter of the disk, and also an increase in the angle between the axes 6 and 7 of the holes leads to the fact that the extreme sections of the fire extinguishing jet will be inhibited by air currents, while reducing the overall extinguishing efficiency. Reducing the specified angle (less than 30 °) does not provide quenching over large areas and, therefore, is not advisable.

The housing nozzle 1 may have a section 8, which is made in the form of a hexagon with a "turnkey" size.

The principle of operation of the proposed spray device is as follows.

When the automatic carbon dioxide extinguishing system is activated, the carbon dioxide charge located in the line connected to the cylinder (i.e., under pressure) enters nozzle 1. At the same time, a fire extinguishing carbon dioxide jet is ejected through the nozzle openings towards the ignition source. Moreover, due to the fact that the angular spray holes 6 of the nozzle 1 are located at an optimal angle to the axis of the nozzle, the zone of influence of the extinguishing agent on the fire area is expanded significantly, providing a high flow rate and at the same time a rapid decrease in temperature in the combustion zone due to the approach to it of the low-temperature region extinguishing jet.

The operating time of the device is limited by the carbon dioxide reserves in the cylinder (or in the trunk), which can be calculated, for example, based on the time required for the arrival of the fire brigade.

Claims (5)

1. A spray device for a carbon dioxide fire extinguishing installation, consisting of at least one spray nozzle installed on a highway having a deflector fixed to its body, while an axial channel for supplying carbon dioxide is made in the nozzle body, and spray holes are made in the front portion of the body, one of of which - the central one is located on the center line, and the other - peripheral ones are located in such a way that their axes are at an acute angle to the center line, and the diameter of the disk is deflector amounts exceeding 2.5 diameter of the circle on which the axes of the points of intersection of said holes with angular outer surface of the front portion of the housing of the spray nozzle. 2. The device according to claim 1, in which the deflector is made in the form of a disk. 3. The device according to claim 1, in which the angle between the said axial lines is 30-55 °. 4. The device according to claim 1, in which the front section of the housing of the spray nozzle is made in the form of a truncated cone, on the conical surface of which the outputs of these peripheral holes are located. 5. The device according to claim 1, on the housing of which a section with a hexagonal surface or a turnkey slot is made.