RU2414966C1 - Water extinguishing system - Google Patents

Abstract

FIELD: medicine, fire-fighting means.

SUBSTANCE: invention refers to fire fighting equipment, namely to fire extinguishing means, particularly to automatic water (foam) extinguishing installations. A water extinguishing system comprises a distribution pipe installation equipped with monitored start sprinklers, a control and indicating equipment, a fire controller. A fire alarm loop with connected fire alarm boxes and a signal line are connected to the equipment. The line comprises start initiation devices electrically connected with controlled sprinklers. The distribution pipe installation is zoned. In addition, the system is supplied with address remote starters matched with each isolated zone. The starters are included to the other signal line connected to the control and indicating equipment, the fire controller.

EFFECT: enabled formation of an optimum irrigation area therefore reliability of the fire fighting installation is enhanced considerably.

5 cl, 4 dwg

Description

The invention relates to the field of fire fighting equipment, and in particular to means for extinguishing a fire, in particular, to automatic water (foam) fire extinguishing installations.

Known deluge installation of water fire extinguishing [see, for example, NF Bubyr and others. "Operation of fire automatics", M .: Stroyizdat, 1986, S. 136-145]. This installation is designed to simultaneously extinguish a fire throughout the protected area.

The installation consists of a water feeder (pump station), a distribution pipeline, divided (using section shut-off valves) into deluge sections with deluge sprinklers installed on it and fire detection tools. If a fire is detected, for example, using a fire alarm system, the shutoff valve of the corresponding deluge section opens and water from the water source is supplied to the protected area.

The disadvantage of this installation is the need to lay a large number of pipes from the water source to each of the deluge sections, which should be evenly distributed over the entire area of the protected object.

Automatic sprinkler systems for water and foam fire extinguishing, which use sprinkler sprinklers, i.e. sprinklers with a shut-off device of the outlet opening when the thermosensitive element (as a rule, a glass bursting flask) is opened. The principle of operation of such a plant is based on the opening of sprinkler sprinklers when a threshold temperature is reached in the zone of their installation and the supply of extinguishing agent (OT) to the fire zone.

An example of such a water extinguishing sprinkler system is a system containing a water supply and distribution pipe network with sprinkler sprinklers installed on it [“Designing water and foam automatic fire extinguishing installations”, L.M. Meshman et al., Edited by N.P. Kopylov - M .: VNIIPO EMERCOM of the Russian Federation, 2002, p.199].

Such a system works as follows. When a fire occurs, the temperature in the installation area of one or more sprinkler sprinklers rises, their heat-sensitive elements are destroyed and water from the distribution network enters the fire. However, since it is necessary for the sprinkler to operate, the temperature in the zone of its placement reaches a threshold level, and this occurs with significant heat output of the outbreak, a situation often arises when the outbreak size is larger than the irrigation zone by the opened sprinklers. With the further development of the fire, this difference only increases, which can lead to uncontrolled development of the fire and catastrophic consequences.

A water fire extinguishing device is also known in which sprinkler sprinklers with controlled start-up and smoke detectors are used in the distribution network [see Utility Model Description for Patent RU 74298

U1]. In this case, the fire signal from the triggered smoke detector arrives at the fire alarm and control device (PPKiUP), which determines the address of the triggered fire detector and sends a command to the starting devices of the group of controlled sprinkler sprinklers located near the triggered fire detector.

The disadvantage of this device is that when fire detectors are triggered, the sprinkler sprinklers closest to them are forcibly opened, however, if there are air flows in the protected room, fire detectors installed outside the fire zone may be the first to fire, and therefore, fire sprinklers that will open will irrigate a combustion free zone.

In addition, such a breakdown of the distribution network into sections can lead to the fact that in the event of a fire at their extreme sections, most of the extinguishing agent (water) in the process of extinguishing will also not fall into the fire source. Thus, a fire can spread outside the irrigation zone.

The technical problem to which the invention is directed is to increase the reliability of a water fire extinguishing system containing a pipe distribution network equipped with sprinklers with controlled start-up, by optimizing the position of the fire extinguishing center relative to the fire source.

This problem is solved in that in a water fire extinguishing system containing a pipeline distribution network equipped with sprinkler sprinklers with a controlled start-up, a fire alarm and control device is connected to which a fire alarm loop with fire detectors included and a signal line, which includes starting initiation devices electrically connected to controlled sprinkler sprinklers, said pipeline distribution network is divided into zones, while the system is equipped with additional addressable remote start devices corresponding to each isolated zone which are included in the other signal line connected to devices control and fire control.

In accordance with claim 2 of the formula, the first and second signal lines are combined.

In accordance with paragraph 3, the zone formulas are formed in such a way that each subsequent half overlaps the previous one.

In accordance with paragraph 4 of the formula around each of the zones, except the extreme, there are 4 more zones, each of which overlaps the first by a quarter.

In accordance with paragraph 5 of the formula around each of the zones, except the extreme, there are 4 more zones, each of which half overlaps the first.

The invention is illustrated by drawings, where:

figure 1 presents a diagram of a water fire extinguishing system;

figure 2 is a diagram of the organization of fire extinguishing zones in accordance with paragraph 3 of the formula;

figure 3 is a diagram of the organization of fire extinguishing zones in accordance with paragraph 4 of the formula;

figure 4 is a diagram of the organization of fire extinguishing zones in accordance with paragraph 5 of the formula.

The water fire extinguishing system (Fig. 1) consists of a distribution network 1 with sprinklers 2 installed on it with a controlled start, a control and fire control device 3, to which a fire alarm cable 4 is connected with fire detectors 5.1-5.M included and signal line 6, which includes start-up devices 7.1-7.N, as well as addressable remote start devices 8.1-8.N, and the entire pipeline distribution network 1 is divided into zones 9.1-9.N (zones are indicated by a dotted line in the diagram) so that ka waiting for the next zone overlaps part of the previous one. Each of these zones is associated with an address device for remote start 8.1-8.N, i.e. Zone 1 corresponds to device 8.1, zone 2 - device 8.2, zone 3 - device 8.3, etc.

Thus, the fire extinguishing zones are formed in such a way that when a fire occurs during the initiation of the corresponding remote start device, the sprinklers of the zone that will more closely correspond to the burning area are forcibly opened, or the center of this zone will be closest to the burning center. In this case, automatic start of the water fire extinguishing system at a predetermined address is provided by fire detectors 5.1-5.M (in our case, M = N + 1), while a pair of detectors 5.1 and 5.2 fall into zone 9.1, a pair of detectors 5.2 and 5.3 into the zone 9.2, a pair of detectors 5.3. and 5.4 - to zone 9.3, etc. Each of the pairs of detectors described above is assigned a start-up device 7.1-7.N, which provides for the forced opening of controlled sprinklers and, accordingly, the release of extinguishing agent into the corresponding protected zone 9.1-9.N. Manual start fire extinguishing systems provide remote start devices 8.1-8.N.

The system operates as follows.

In the absence of people in the protected room, the system operates in automatic mode. When two smoke detectors are triggered, for example 5.2 and 5.3, located in the same protected zone 9.2, PPKiUP 3 receives a signal about their operation and switches to the "Fire" mode. Then, through the start initiation device 7.2, PPKiUP 3 gives a signal to open the corresponding group of controlled sprinklers 2 located in zone 9.2, through which the extinguishing agent is evenly distributed over the protected zone.

If there are people in the protected room, the fire can be detected visually until the fire alarm system is triggered. At the same time, to start the fire extinguishing system, one of the addressable remote start devices is initiated manually (for example, by pressing a button) closest to the fire source and corresponding to the protected zone. For example, if there is a fire in zone 9.2, the remote start device 8.2 should be initiated. PPKiUP 3 receives a signal from this device and generates a command to open the corresponding sprinklers 2 by issuing a command to the device initiating the launch 7.2.

Thus, it is possible to form an optimal irrigation area, as a result, the reliability of the fire extinguishing installation is significantly increased.

Claims (5)

1. A water fire extinguishing system comprising a pipeline distribution network equipped with sprinkler sprinklers with a controlled start-up, a fire alarm and control device, to which a fire alarm loop with fire detectors included, and a signal line that includes starting initiation devices, is electrically associated with controlled sprinkler sprinklers, characterized in that the said pipeline distribution network is divided into zones, while the system is equipped with additional In addition, by addressable remote start devices corresponding to each allocated zone, which are included in another signal line connected to the control panel and the fireman. 2. The system according to claim 1, characterized in that the first and second signal lines are combined. 3. The system according to claim 1, characterized in that the zones are formed in such a way that each subsequent half overlaps the previous one. 4. The system according to claim 1, characterized in that around each of the zones, except the extreme, there are four more zones, each of which is a quarter overlapping the first. 5. The system according to claim 1, characterized in that around each of the zones, except the extreme, there are four more zones, each of which half overlaps the first.

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