EP1220705B1 - Fire-extinguishing device - Google Patents

Abstract

This invention relates to a fire extinguishing device, with at least one supply line (4) that is dry with the device in an idle state, through which at least one extinguishing nozzle (1) is connected with an extinguishing fluid supply unit, which fills the supply line (4) with an extinguishing fluid if a fire breaks out. The device according to the invention makes it possible to improve a device of the kind mentioned at the outset with simple means in such a way that the air contained in the supply line can rapidly escape while filling with a high operational safety. This is achieved by connecting the supply line (4) with a discharge channel (6), in which a bursting disk (11), which seals the discharge channel (6) in an idle state, and a valve (9), which closes at a pressure higher than the bursting pressure of the bursting disk (9), are situated one after the other in the discharge direction (F).

Description

The invention relates to a device for deleting Fire, with at least one at rest Device dry supply line, through which at least one closed or open at rest Extinguishing nozzle is connected to an extinguishing fluid supply, which the supply line when a fire breaks out fills with an extinguishing fluid. Devices of this type are, for example, in frost-prone and particularly sensitive areas as stationary systems in buildings, such as buildings or ships, used in the event of an outbreak of a fire to fight the fire effectively. The device can be triggered by separate Fire detectors are made that are independent of the extinguishing nozzles monitor the respective room or area section. As an alternative or in addition, however, can also be provided by an the extinguishing nozzle itself arranged element Extinguishing device can be activated.

Such an element can be, for example act a glass keg, which in case of a fire caused temperature rise bursts and on this Way opens a previously closed extinguishing nozzle. The yourself with opening the extinguishing nozzles in the by then dry, kept under a certain pressure Pressure drop setting supply line is from detected by a pressure switch, by which when falling below a minimum pressure in the supply line Extinguishing fluid supply is activated.

To increase the security of the release, the latter systems within the supply line a test pressure well above the ambient pressure maintained. In this way the pressure drop when opening the extinguishing nozzle larger, so that with the Fire associated with opening of the respective Extinguishing nozzle is detected safely.

A problem with dry extinguishing systems of the above explained type is that in the event of fire the air supply volume of the supply line from the in the supply line displaced extinguishing fluid must become. The displaced air must pass through the Extinguishing nozzles escape, causing a delay of extinguishing fluid can come out. Especially this proves problematic in extinguishing devices, where effective, minor water damage causing fire fighting from the extinguishing nozzles an extinguishing fluid delivered under increased pressure Extinguishing mist is generated. Point at these devices the extinguishing nozzles have particularly small opening cross-sections, which in the manner of throttles the outflow of the in the Difficulty supply air contained.

Other devices also have one or several extinguishing nozzles which are closed in the idle state filled with extinguishing fluid as soon as a fire guard, e.g. B. a smoke alarm, which in addition to one at the Extinguishing nozzle self-attached trigger element used will give a signal. Filling the system with Extinguishing fluid happens regardless of opening the Extinguishing nozzle. Extinguishing fluid can only come out of the extinguishing nozzle emerge after this through one on yourself attached release element was opened. A filling the supply line can only take place as far as the can be compressed in this contained air if the extinguishing nozzles have not yet been opened. opens one or more extinguishing nozzles, the air must first escape before using the supply line completely Water can be filled.

A method for operating is known from EP 0 873 767 a fire extinguishing dry sprinkler system known. at this system is between sprinkler pipe network and A dry alarm valve switched, whose valve disc due to pressure compensation kept closed between air pressure and water pressure becomes. To achieve the sprinkler pipe network deflated faster and thus the full one Extinguishing water output arrives faster at the sprinklers, is proposed here, the ventilation of the Piping system and the opening of the alarm valve over to enable separate facilities. Both the Opening the alarm valve, as well as the quick opening for the ventilation of the piping system are carried out by a Fire control panel controlled. However, this has the Disadvantage that a connecting line to a Fire alarm center is necessary. If this fails, is rapid ventilation is no longer guaranteed.

The object of the invention is a device of the type specified at the beginning with simple means to improve in that the in the Air contained in the supply line during filling can escape quickly with high operational safety.

According to the invention, this object is achieved by that the supply line with an outflow channel is connected, in which one after the other in the outflow direction a rupture disc that the spillway at rest closes, and a valve are arranged, which at closes a pressure that is higher than the burst pressure the rupture disc. That behind in the outflow direction of the air the valve arranged on the rupture disc can realized easily by a check valve become.

According to the invention is a special in Closed discharge channel provided, which, when filling, the rapid flow of air ensures easily. For this purpose the Outflow channel at rest through a rupture disc locked. This rupture disc shatters on you defined burst pressure. This can be chosen that he, with sufficient security, by a small Amount above the resting pressure within the Supply line is. That way ensures that the rupture disc at one Pressure rise bursts when filling the Extinguishing fluids in the dry supply line trapped air causes. The in the Air contained in the supply line can after The bursting disk bursts unhindered by it downstream valve pass the outflow channel and into Free escape. That in the direction of air flow The valve arranged behind the rupture disc is like this designed that it only closes when the pressure of the Extinguishing fluid is present on it. That way is through the Combined arrangement of a rupture disc according to the invention and a valve closing at a certain pressure ensures that after activation of the Extinguishing fluid supply extinguishes the extinguishing fluid without delay the respective extinguishing nozzle emerges.

The unimpeded, complete escape of the in the Air trapped in supply line can can be guaranteed particularly effectively by that the outflow channel at the end of an extinguishing section is arranged. Alternatively, the outflow channel in the respective extinguishing nozzle itself. The one with the Exhaust nozzles provided have a compact, reliable design, which is easy to manufacture and assemble.

The invention is particularly suitable in relation to such Fire extinguishers where the Extinguishing fluid supply the extinguishing fluid at a high pressure into the supply line. Especially with Such extinguishing systems must be guaranteed that Extinguishing fluid unhindered from in the supply line trapped air to the Extinguishing nozzles arrives. The invention has just in those related to the conventional Venting particularly problematic Extinguishing devices proven to be practical, in which the extinguishing nozzle creates an extinguishing mist. Since the in the Air not trapped by the supply line Extinguishing nozzle must escape, especially with such Systems despite the small cross section of the Nozzle openings by the invention in the event of fire quick application of extinguishing mist guaranteed.

Fig. 1

eine Löschdüse in teilweise geschnittener Seitenansicht;

Fig. 2

eine alternative Ausgestaltung der Vorrichtung;

Fig. 3

die Entlüftungseinrichtung der Vorrichtung nach Fig. 3 im Detail.

The invention is explained in more detail below on the basis of a drawing illustrating an exemplary embodiment. They show schematically:

Fig. 1

an extinguishing nozzle in a partially sectioned side view;

Fig. 2

an alternative embodiment of the device;

Fig. 3

the venting device of the device of FIG. 3 in detail.

The extinguishing nozzle 1 has several open nozzle inserts 2 equipped, which when loaded with extinguishing fluid under high pressure create an extinguishing mist. The Extinguishing nozzle 1 is at the connection end 3 one Supply line 4 connected, which is the extinguishing nozzle 1 with an extinguishing fluid supply, not shown combines.

In addition, the extinguishing nozzle 1 with a glass barrel 5 equipped with a spring-loaded, Piston, not shown, is supported. The piston closes in the quenching nozzle 1 trained connecting channel 4a between the openings the nozzle inserts 2 and the supply line 4.

In the upper area of the extinguishing nozzle 1 is based on the connecting channel 4a directed radially outward Outflow channel 6 formed on a radial circumferential surface 7 of the extinguishing nozzle 1 opens. In one formed in the mouth area of the outflow channel 6 Recording 8 is a spring 10 against the Outflow direction F preloaded check valve 9 used, which in the idle state by the spring 10 in is held in its open position. At the same time the outflow channel 6 in the idle state in the outflow direction F before the check valve 9 through a rupture disc 11 locked.

If a fire breaks out, it melts or shatters Glass barrel 5 due to the temperature development, so that the spring-loaded piston of the extinguishing nozzle 1 in one position is moved, in which the inflow of the Supply line 4 to the nozzle inserts 2 released becomes. The associated with the opening of the extinguishing nozzles 1 Pressure drop in the supply line 4 included, at rest under a test pressure held air, is from a not shown Extinguishing fluid supply pressure switch detects which then the extinguishing fluid supply is activated.

The extinguishing fluid entering the supply line 4 causes an increase in pressure in the Supply line 4 trapped air because of this not sufficiently fast via the nozzle inserts 2 can escape. Once the air pressure in the Supply line 4 the bursting pressure of the rupture disc 11 has exceeded, the rupture disc 11 and the burst Air can flow into the environment via the discharge channel 6 escape. The force of the spring 10 is one so large amount above that of the bursting pressure of the rupture disc 11 corresponding force that the check valve 9th remains open while the air is escaping. As soon as however, the extinguishing fluid also reaches the outflow channel 6 has, the check valve 9 is closed because the Force of the spring 10 is chosen to be smaller than that force corresponding to the pressure of the extinguishing fluid.

Figure 2 shows a further embodiment of the invention. Several quenching nozzles 14 are closed in the idle state via a supply line 4 with one not closer described extinguishing fluid supply 13 connected. At the end a ventilation device is located in the pipe network 15, which has an outflow channel 6. In an im Mouth area of the outflow channel 6 formed receptacle 8 is a by means of a spring 10 against the Outflow direction F preloaded check valve 9 used, which in the idle state by the spring 10 in is held in its open position. At the same time the outflow channel 6 in the idle state in the outflow direction F before the check valve 9 through a rupture disc 11 locked. Opens when a fire breaks out at least one of the extinguishing nozzles. The one with the opening of the Extinguishing nozzle 14 associated pressure drop in the in the Supply line 4 included, at rest air held under a test pressure is supplied by a Pressure switch of the extinguishing fluid supply, not shown 13 detects, which thereupon the extinguishing fluid supply 13 activated.

The extinguishing fluid entering the supply line 4 causes an increase in pressure in the Supply line 4 trapped air because of this not sufficiently fast via the extinguishing nozzles 14 can escape. Once the air pressure in the Supply line 4 the bursting pressure of the rupture disc 11 has exceeded, the rupture disc 11 and the burst Air can flow into the environment via the discharge channel 6 escape. The force of the spring 10 is one so large amount above that of the bursting pressure of the rupture disc 11 corresponding force that the check valve 9th remains open while the air is escaping. As soon as however, the extinguishing fluid also reaches the outflow channel 6 has, the check valve 9 is closed because the Force of the spring 10 is chosen to be smaller than that force corresponding to the pressure of the extinguishing fluid.

LIST OF REFERENCE NUMBERS

1

extinguishing nozzle

2

nozzle insert

3

Connection end of the supply line 4

4

supply line

4a

connecting channel

5

glass bulb

6

outflow channel

7

peripheral surface

8th

admission

9

check valve

10

feather

11

rupture disc

12

pipe network

13

Extinguishing fluid supply

14

extinguishing nozzle

15

vent

F

outflow

Claims (7)

1. A device for extinguishing fire, having at least one supply line (4) which is dry in the rest condition of the device and by way of which at least one extinguishing nozzle (1; 14) is connected to a supply (13) of extinguishing fluid which, on outbreak of a fire, fills the supply line (4) with an extinguishing fluid, and with the supply line (4) connected to a drainage channel (6), characterised in that there are arranged in the drainage channel (6) one after the other in the direction (F) of drainage a bursting disc (11) which closes off the drainage channel (6) in the rest condition and a valve which closes in the event of a pressure greater than the bursting pressure of the bursting disc (11).
2. A device according to Claim 1, characterised in that the valve is a nonreturn valve (9).
3. A device according to one of the preceding claims, characterised in that the drainage channel (6) is constructed in close proximity to the extinguishing nozzle (1).
4. A device according to either of Claims 1 or 2, characterised in that the drainage channel (6) is arranged in an extinguishing nozzle (1; 14).
5. A device according to one of the preceding claims, characterised in that a positive pressure prevails in the supply line (3) in the rest condition.
6. A device according to one of the preceding claims, characterised in that the extinguishing fluid supply (13) introduces the extinguishing fluid into the supply line (4) at an elevated pressure.
7. A device according to one of the preceding claims, characterised in that the extinguishing nozzle (1; 14) has a nozzle insert (2) which generates an extinguisher mist.

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