RU2474455C1 - Plant of automatic fire extinguishing with controlled irrigated area - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to plants of automatic fire extinguishing. The plant of automatic fire extinguishing with controlled irrigation area comprises sprinklers, fire detectors, lock-start gear and pipeline. The sprinklers have an electric start. The pipeline is with the extinguishing liquid. The detectors are made address analog, as well as the control devices and control line of the sprinkler. The sprayer comprises a hollow housing with a nozzle and a central core. The housing with a channel for supplying liquid comprises a sleeve rigidly connected to it, at the bottom of which a nozzle is fixed. The nozzle is made in the form of a cylindrical two-stage sleeve which is connected to a central core by a threaded connection. The core consists of a cylindrical part and a hollow cone. The cone is mounted with the annular gap relative to the inner surface of the cylindrical sleeve. The annular space is connected with the channel of the housing for supplying liquid. In the lower part of the cone the sprayer is rigidly fixed with a screw, which is made in the form of a front circular plate which edges are bent in the direction of the annular gap. On the side surface of the cone the orifice axis openings are made, which lie in planes perpendicular to the axis of the cone.

EFFECT: increased efficiency of fire extinguishing by creating a plant of automatic fire extinguishing with controlled irrigated area.

2 dwg

Description

The invention relates to the field of fire fighting equipment, namely to automatic fire extinguishing installations.

The closest in technical essence (prototype) to the proposed installation is an automatic fire extinguishing installation containing a locking and starting device installed on the fire extinguishing fluid supply line, a start-up unit connected by a communication line with fire detectors (see AS USSR No. 1480824, IPC А62С 35/34, 1989).

The disadvantage of this installation is that the extinguishing of the source of ignition or fire is carried out simultaneously from all irrigation devices, regardless of the size of the source and its location.

A technically achievable result is an increase in fire extinguishing efficiency by creating an automatic fire extinguishing installation with a controlled irrigation area.

This is achieved by the fact that in an automatic fire extinguishing installation with a controlled irrigation area containing irrigators with electric start, fire detectors, shut-off and start-up device and extinguishing liquid pipe, smoke fire detectors, which are made of address-analog, as well as control devices and control lines sprinklers, the sprinkler contains a housing with a channel for supplying fluid and contains a coaxial sleeve rigidly connected to it, with a nozzle fixed in its lower part, made in the form of a cylindrical a two-step sleeve, the upper cylindrical step of which is connected by means of a threaded connection to a central core consisting of a cylindrical part and a hollow cone coaxial with it, mounted with an annular gap relative to the inner surface of the cylindrical sleeve, and an annular gap connected with at least three radial channels made in a two-stage sleeve connecting it with an annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical tupeni, and the annular cavity is connected with the channel of the housing for supplying fluid, and to the cone, in its lower part, the atomizer is rigidly attached with a screw, which is made in the form of an end round plate, the edges of which are bent towards the annular gap between the nozzle and the hollow cone, at the same time, at least two rows of cylindrical throttle holes are made on the side surface of the cone, with axes lying in planes perpendicular to the axis of the cone, and at least three holes are made in each row, the axes being throttle the holes of one row are offset relative to the axes of the throttle openings of the other row by an angle lying in the range 15 ÷ 60 °.

Figure 1 shows a schematic diagram of the installation; figure 2 is a diagram of the sprinkler.

An automatic fire extinguishing installation (Fig. 1) with a controlled irrigation area contains a pipe 1 with a quenching liquid, on which sprinklers 2 with an electric start (not shown in the drawing), addressable analogue smoke detectors 3, and a fire alarm and control device 4 are placed , fire alarm loops 5 between device 4 and address-analog smoke smoke detectors 3, control lines 6 between device 4 and sprinklers 2.

Sprinkler 2 comprises a cylindrical hollow body 10 with a channel 12 for supplying fluid and a coaxial sleeve 11 rigidly connected to the body with a nozzle fixed in its lower part and made in the form of a cylindrical two-stage sleeve 13, the upper cylindrical step 15 of which is connected by a threaded connection to the central core consisting of a cylindrical part 16 and a hollow cone 17 coaxial with it, mounted with an annular gap 18 relative to the inner surface of the cylindrical sleeve 13. The annular gap 18 is connected at least three radial channels 14, made in a two-stage sleeve 13, connecting it with an annular cavity 23 formed by the inner surface of the sleeve 11 and the outer surface of the upper cylindrical stage 6, and the annular cavity 23 is connected with the channel 12 of the housing 10 for supplying fluid. To the cone 17, in its lower part, the atomizer 21 is rigidly attached with a screw 22, which is made in the form of an end round plate, the edges of which are bent towards the annular gap 18 between the nozzle and the hollow cone 17. At least at least two rows of cylindrical throttle holes 19 and 20 with axes lying in planes perpendicular to the axis of the cone, and at least three holes are made in each row. In this case, the axes of the throttle holes of one row are offset relative to the axes of the throttle holes of the other row by an angle lying in the range 15 ÷ 60 °.

Installation works as follows.

The combustion products generated in the course of local combustion in the form of smoke are captured by one of the address-analog smoke detectors 3. The signal from the triggered fire detector 7 is transmitted via communication line 5 to the control and reception and control device 4 of the fireman. In the device 4 reception and control and fire control on a received signal determines the place of ignition or fire, the probable direction and speed of fire propagation. According to these data, in the device 4, a command is generated about the targeted operation of the sprinkler, for example sprinkler 9 (or a group of sprinklers) located above the ignition zone. The command to start the sprinkler is given in the form of electrical signals along the control lines 6. After the sprinkler has acted, the extinguishing liquid is piped 1 through the pipeline 1 to the source of ignition and fire 8, ensuring it is extinguished through the opening sprinkler 9 (sprinklers).

The sprinkler works as follows. Liquid under pressure is supplied to the cavity of the housing 10 and then flows in two directions: the first into the annular cavity 23 through the radial channels 14 into the annular gap 18 between the nozzle and the central core. At inlet pressures of more than 0.2 MPa, the liquid accelerates on the outer conical surface of the cone 17 to form a liquid film that does not come off its outer surface. Upon reaching a liquid flow of oncoming flows flowing out of the cylindrical throttle holes 19 and 20, multiple film crushing occurs with the formation of a finely dispersed phase. The second direction in which the fluid enters is through the channel 12 for supplying fluid into the cavity of the central core, and then into the hollow cone 17, from which part of the fluid flows through the radial holes 19 and 20, with multiple crushing of droplet fluid flows flowing from throttle bores.

The number of sprinklers is selected from the condition of irrigation with one sprinkler of 9 ÷ 12 m ² floor area. It is possible to use with the following types of extinguishing agent: water, aqueous solutions, foam. The foam ratio is 13.2%, the concentration is 3%. As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the type "Multipena" or a 6% aqueous solution of fluorinated foaming agent "Sublayer" is used in a smoke-filled room.

Claims (1)

An automatic fire extinguishing installation with a controlled irrigation area, containing sprinklers with electric start, fire detectors, a shut-off and fire extinguishing liquid device, smoke detectors made by address-analog, as well as control devices and irrigation control lines, characterized in that the sprinkler contains a housing with a channel for supplying fluid and contains a coaxial sleeve rigidly connected to it, with a nozzle fixed in its lower part, made in the form of a cylindrical two tuple bush, the upper cylindrical step of which is connected by a threaded connection to a central core consisting of a cylindrical part and a hollow cone coaxial with it, installed with an annular gap relative to the inner surface of the cylindrical sleeve, and the annular gap is connected to at least three radial channels made in a two-stage sleeve connecting it with an annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stupa neither, the annular cavity is connected with the channel of the housing for supplying liquid, and the atomizer is rigidly attached to the cone in its lower part by means of a screw, which is made in the form of an end round plate, the edges of which are bent towards the annular gap between the nozzle and the hollow cone, at least two rows of cylindrical throttle holes are made on the side surface of the cone, with axes lying in planes perpendicular to the axis of the cone, and at least three holes are made in each row, and the axis of the throttle holes The growths of one row are displaced relative to the axes of the throttle holes of the other row by an angle lying in the range 15 ° ÷ 60 °.

Images