EP1074276A2 - Method of operating a sprinkler installation in a cold room - Google Patents

Abstract

The method involves filling the sprinkler pipe network with a dry inert gas, e.g. nitrogen, helium etc., from a compressed gas supply from an extinguishing valve in the feed line to the closed sprinklers, whereby the extinguishing valve feeds liquid extinguishing medium into the feed line when open. The extinguishing valve (40) is driven by a trigger valve (42) controlled by a fire alarm center (14) so that the extinguishing valve only opens the path for the liquid extinguishing medium in the feed line (10) if the gas pressure in the feed line is reduced by open sprinklers and the trigger valve is open. An Independent claim is also included for an sprinkler system.

Description

The invention relates to a method for operating a Sprinkler system in a freezer, with one from a supply line supplied sprinkler pipe network with numerous Sprinklers, in which the sprinkler pipe network from one in the Supply line contained extinguishing valve up to the closed Sprinklers with a dry inert gas such as nitrogen, helium or the like, is filled from a compressed gas supply, the extinguishing valve in the event of opening the supply of liquid Extinguishing medium in the supply line.

Sprinkler systems of this type (DE-OS 23 45 380) are used for protection used by large freezer stores, the sprinkler pipe network connected to a compressed gas extinguishing agent container and is initially filled with inert gas. As an extinguishing agent Cooling brine used. A disadvantage of the known system in that e.g. in the event of damage to a sprinkler in the pipe network located inert gas flows out and then the pipe network is flooded with the cooling brine. To the plant after the repair of the damaged sprinkler back into the operating state to bring, the entire pipe network must be emptied, rinsed and be neutralized. Only then can the pipe network work again be filled with the inert gas.

It is also known, in such systems, the pipe network up to the sprinklers with a cryogenic water mixture to fill. Glycol / water or salt / water mixtures are often used used. Glycols are flammable and therefore not well suited for extinguishing fires. Salts lead to corrosion and crystallizations, which in turn tend to deposit and thus clog the pipe network. For these reasons Fire extinguishing systems for cold stores only rarely with the latter Mixtures used.

To avoid flooding a sprinkler pipe network, are automatic stationary sprinkler dry fire extinguishing systems with pilot operated extinguishing valves (pre-action systems) known (DE-OS 22 55 369). The pipe network of this from a fire alarm system activated sprinkler system is filled with compressed air and on a compressed air supply connected. With the compressed air the extinguishing valve is closed when the extinguishing water shut-off valve is open held. If the fire alarm system responds, then Current switched to a trigger solenoid valve. The compressed air escapes via compressed air release. The flap of the extinguishing valve opens, the extinguishing water flows into the sprinkler pipe network. The pipe network is flooded and because no sprinkler has yet been opened extinguishing water comes to a standstill and freezes in the pipe network. This extinguishes the extinguishing system. As a result, the cold store pipe network must be emptied and heated, thus thawing the frozen fire water and the pipe network can be emptied. Such a business interruption causes high failure costs for the operator of a cold store.

The invention has for its object a stationary automatic Sprinkler fire extinguishing system for the protection of deep-freeze houses to create that with water as an extinguishing agent with a required Security level can be operated.

This object is solved by the features of claim 1.

In the event of fire, there are two opening conditions for opening the extinguishing valve provided, namely opening sprinklers and a Detection signal from a fire detector via the fire alarm control panel on the trigger solenoid valve. With the invention The process ensures that the extinguishing valve only opens when both opening conditions are met.

If a sprinkler is accidentally damaged, the gas will escape the pipe network of the extinguishing system or through the compressed gas make-up. However, the extinguishing valve is still held closed. Receives now the trigger solenoid valve from the fire detector sends a detection signal, then the extinguishing valve and thus the start of the extinguishing process by flowing the extinguishing water.

This will make it almost guaranteed to be fault-free Opening of the extinguishing valve reached and the risk of icing prevented in the pipeline network by the extinguishing water. The Sprinkler pipe network is designed in such a cross-section that the extinguishing water at high speeds of 7.5 to 10 m / s flows through the pipe network. At these pouring speeds cannot freeze the extinguishing water in the sprinkler pipe network.

Fig. 1

ein Schaltschema der Sprinkleranlage in einem Tiefkühlhaus;

Fig. 2

eine detaillierte Ausgestaltung der nachgesteuerten Ventilstation.

Further features of the invention are characterized in the subclaims and are described in more detail with reference to the drawings using an exemplary embodiment. Show it:

Fig. 1

a circuit diagram of the sprinkler system in a freezer;

Fig. 2

a detailed design of the post-controlled valve station.

In a cold store 1 with a lower wall 1a and an upper one Blanket 1b is a low-temperature zone 2 and a warm zone 3 educated. A sprinkler pipe network 94 is in two areas 95 and 96 split. The area 95 supplies via a sprinkler line 5 several ceiling sprinklers 4. The area 96 supplies in several levels over the sprinkler lines 7,7a, 7b with the Connection line 9, the sprinkler 6, the feed with Extinguishing water is carried out from above by means of a supply line 8. The Sprinklers 6 can, for example, in a high-bay warehouse be housed. The sprinkler line 5 for the ceiling sprinklers 4 is connected to a feed line 10. Both Areas 95, 96 are supplied with extinguishing water separately. Accordingly, the supply lines 8 and 10 are at two valve stations 11 and 12 connected below, including of the controller. For better deicing of the sprinkler pipe network 94 are the individual sprinkler lines 5 and 7,7a, 7b divided into several sections, which by means Separation points 93 are connected to one another. In the area of the ceiling 1b, several fire detectors 13 are provided, which are connected to a Detection line 15 connected to a fire alarm control panel (BMZ) 14 are.

The extinguishing water supply 16 is equipped with a shut-off water shut-off valve 38 provided feed line 17 connected by the extinguishing water pipes 18 and 20 with shut-off valves 19 and 21 go to the valve stations 11 and 12. For a compressed gas supply 41 for the sprinkler pipe network 94 is a nitrogen bottle battery 23 provided with bottle valves 23a, the are connected to a manifold 25. Via an electrical Control 24, the bottle valves 23a from the BMZ 14 controlled. The manifold 25 is connected downstream single-stage pressure reducer 22 from 200 bar pre-pressure to 2.5 up to 3.0 bar hold pressure via a feed line 48 with valve 49 connected to the valve stations 11 and 12. The lower sprinkler line 7a is at one end with a vent valve 36 Mistake. For quick ventilation of the sprinkler pipe network 94 are both in the upper sprinkler line 7b and in the Sprinkler line 5 each installed quick exhaust 37.

In the transition area from warm zone 3 to deep-cold zone 2 are assigned to the feed lines 8 and 10 bypass lines 26 and 31. Check valves 27, 28 and 32, 33 are in the bypass lines 26 and 31 and the feed lines 8 and 10 installed. Pipe trace heating 44 with the corresponding pipe insulation 29.30 and 34.35 provide a temperature, the cold and warm bridges in the transition area from warm zone 3 to deep-freeze zone 2 prevented. The check valves 27.28 and 32.33, the Bypass lines 26,31, and a pipe section of at least 5 to 15 m length after installation of the check valves with bypass are kept at a temperature of ≤ 5 ° C. This can be about Heating tapes or the like. This will be for the valve stations 11 and 12 no separate heating is required. The bypasses serve as pressure compensation or expansion paths for the dry nitrogen. Preferably has the heat compensation section a length of at least 15 m. By the cold and Heat compensation sections 26.31 at the cold / warm area transfer point there is a constant diffusion process Gas circulation from cold to warm.

The valve stations 11 and 12 are of the same type. The valve station 11 is described according to Figure 2 and consists of the following Divide.

Following the shut-off valve 21 in the fire water line 20 is provided with a quick opening device 40 Extinguishing valve 39 installed, to which the feed line 10 to the sprinkler line 5 connects. The extinguishing valve 39 has one quick opening flap 45 mounted in a joint 46, which is locked by a quick release 47. The shut-off valve 21 is open in the normal operating state, so that the Pressure of the extinguishing water from below against the quick opening flap 45 presses. The sprinkler pipe network 94 is from the quick opening flap 45 to the closed sprinklers 4 and 6 with filled with a compressed gas, advantageously with nitrogen. The compressed gas is located above the quick opening flap 45. At the same time, the valve is pressed over the compressed gas pneumatic interlock locked.

The sprinkler pipe network 94 is supplied by the compressed gas supply 41 the gas line 48, the gas line 50 with one-way throttle 51, the gas line 52 with one-way throttle 53, and the gas lines 54 and 55 filled with the compressed gas. Furthermore, it is a closed one Pressurized gas circuit 43 formed from the connecting line 58 and the gas lines 52 and 54. To that Compressed gas circuit 43 belongs to the connecting line 58. the between the gas line 56 on the one hand and the gas lines 50.52 on the other hand is installed. In the connecting line 58 is a check valve 59 with a trigger solenoid valve 42 built-in. The compressed gas circuit 43 ensures that when closed Trigger solenoid valve 42 no compressed gas from the Sprinkler pipe network 94 flows out, even if a Sprinkler 4 or 6 is damaged. One leads from BMZ 14 Detection line 92 to the trigger solenoid valve 41. Outgoing from the gas line 50 is a connecting line 60 into a Gas pressure test line 62 led, a valve 63 and a pressure gauge 64 has. One of the connecting line 60 Gas line 61 to the release device 47 for the quick opening flap 45 led. It is also used to monitor the gas pressure a monitoring line 65 from the gas line 54 a valve 66 and a monitoring line 67 with a manometer 68 branched. A compressed air loss indicator switch 70 is in a line 69.

The trigger device 47 consists of a piston control. In a piston cylinder 74 is a control piston 71 with a Quick opening flap 45 arresting locking rod 73 stored. The control piston 71 is arranged such that on the one hand a gas chamber 72 and on the other hand a water chamber 78 are formed is. The gas line coming from the compressed gas supply 41 61 is connected to the gas chamber 72. The water chamber is 78 upstream via a water pipe 79 with the fire-fighting water supply the quick opening flap 45 connected. To monitor the Water pressure is a test line 87 with a test valve 88 and a manometer 89 are provided. For monitoring the operating status is a drain valve in the water line 79 80 with a subsequent test line 81 with a Filter 82 is provided, which by means of a drain line 84 a drain valve 83 is connected downstream. Here too an alarm pressure switch 85 with switchover line 86 is provided. The trigger device 47 is another with a control valve 76 provided bypass line 75, the one hand with the gas line 61 and on the other hand with the water supply (Water pipe 20) is connected. From the water chamber 78 is a supply line 77 led to the control valve 76. Of the Extinguishing valve 39 is a downstream of the quick opening flap 45 Drainage line 90 branched with a drainage valve 91.

The electrically controlled valve station 11 is characterized by this from that fire water is only released if both have triggered multiple sprinklers 4 or 6 as well that in the valve station 11 existing trigger solenoid 42 of the BMZ 14 was operated.

The valve station 11 works as follows:
When the sprinklers 4 and 6 are closed and the trigger solenoid valve 42 is closed when deenergized, the sprinkler pipe network 94 is filled by the compressed air supply 41, which compensates for a small gas shrinkage. Via the one-way throttle 51 in the gas line 50, which is permeable in only one direction, and the gas line 61, the compressed gas is passed into the gas chamber 72 of the triggering device 47 of the extinguishing valve 39, thereby keeping it closed.

Via the second one-way throttle 53 in the gas line 52 (the The bore of this throttle must be smaller than that of throttle 51) the compressed gas is fed via lines 54 and 55 into the sprinkler pipe network 94 passed, which is filled with it. About the same The compressed gas supply 41 provides a make-up for leak compensation. For quick filling of the pipe network 94 the shut-off valve 57 in the gas line 56 can be opened.

The trigger solenoid valve 42 is opened by the BMZ 14 without that several sprinklers have triggered occurs on the connecting line 60 and the gas line 61 no change in pressure. If several of the sprinklers 4 or 6 now open, the compressed gas escapes via the gas lines 61, 60, 58, 56 and 55 from the gas chamber 72 via the open trigger solenoid valve 42 and the check valve 59 into the supply line leading to the sprinkler pipe network 94 10. When the pressure in the gas chamber 72 decreases, the control valve 76 is opened via the control line 75, so that water from the fire water line 20 into the water chamber 78th flows. As a result of the pressure reduction in the gas chamber 72 the piston 71 is pushed into the gas chamber 72 by the water pressure, so that the quick opening flap 45 is unlocked. The Extinguishing water from the water pipe 20 press the quick opening flap 45 up. The extinguishing water can now go into the sprinkler pipe network 94 flow in.

Opening by damaging one or two sprinklers 4.6 without the trigger solenoid valve 42 has opened, escapes Part of the compressed gas from the sprinkler pipe network 94, however the triggering device 47 through the compressed gas make-up the throttle 51 is kept closed.

Is the extinguishing water supply by means of a stationary Extinguishing agent container, the extinguishing water is at rest by means of Heating is heated to over 20 ° C or is using a suitable one Antifreeze to a freezing temperature of up to to be treated at -30 ° C. If the stationary water supply has been used up, then not heated fire water or fire water replenished without frost protection. This is where the cold and heat compensation bridges occur fully in action. The cold and heat compensation bridges with the appropriately trained check valves 27.28, and 32.33 cause a flow calming and Regulation of the cold / warm movement of the compressed gas in the Sprinkler pipeline 94. The cold and heat compensation bridges have on the side of the cryogenic area 2 for each sprinkler group assigned compensators to compensate for pipeline movements.

Claims (15)

Method for operating a sprinkler system in a deep-freeze store (1) with a sprinkler pipe network (94) supplied by a supply line (10) with numerous sprinklers (4,6), in which the sprinkler pipe network is operated by an extinguishing valve (39) contained in the supply line (10) up to the closed sprinklers (4,6) with a dry inert gas, such as nitrogen, helium or the like, from a compressed gas supply (41), whereby the extinguishing valve (39) opens the supply of liquid extinguishing medium into the supply line (10),
characterized by
that the extinguishing valve (39) is controlled by a trigger valve (42) which is readjusted by a fire alarm control panel (14) in such a way that the extinguishing valve (39) only releases the path of the liquid extinguishing medium into the supply line (10) when opened by sprinklers (4, 6) the gas pressure in the supply line (10) is reduced and the trigger valve (42) also opens. A method according to claim 1, characterized in that in the area of transition from a warm zone (3) in a cryogenic zone (2) of the freezer (1) contains the inert gas via a parallel to the extinguishing agent supply line (10) guided gas compensation section (26) with anti-kickback devices (27,28) and pipe heating (44) and the temperature in the gas compensation section (26) is kept at at least 5 ° C. A method according to claim 1 or 2, characterized in that that the sprinkler system in several areas separate feeds (18, 19) for the liquid Extinguishing media with a maximum output of ≤ 2000 l / min of extinguishing medium is operated. Method according to one of claims 1 to 3, characterized in that that the supply of the extinguishing medium in the sprinkler pipe network (94) of the freezer area from above he follows. Method according to one of claims 1 to 4, characterized in that that the sprinkler pipe network (94) is designed in cross-section such that the extinguishing medium at high speeds of 7.5 to 10 m / s flows through the pipeline network. Sprinkler system of a deep-freeze store, with a sprinkler pipe network (94) supplied by a supply line (10) with numerous sprinklers (4,6), a compressed gas supply (41) which supplies the sprinkler pipe network (94) from an extinguishing valve (39) contained in the supply line (10) ) up to the sprinklers (4, 6) with an inert gas, the extinguishing valve (39) causing the supply of liquid extinguishing medium into the supply line (10) when opened,
characterized,
that the extinguishing valve (39) is connected to a trigger valve (42) controlled by a fire alarm control panel (14), that the trigger valve (42) is part of a closed line system which is connected on the one hand to the compressed gas supply (41) and on the other hand to the supply line ( 10) opening connecting line (55), and that the closed line system (43) is connected via feed lines (60, 61) to a triggering device (47) of the extinguishing valve (39,). Sprinkler system according to claim 6, characterized in that the closed pipe system (43) between connected to the compressed gas supply (41) Connection and the opening in the supply line (10) Gas line (55) has a throttle (53) through which with the release valve (42) closed in the event of leakage of the sprinkler pipe network (94) pressurized gas into the Sprinkler pipe network (94) flows. Sprinkler system according to claim 6 or 7, characterized in that the release valve (42) a quick release (40) with a piston-controlled release device (47) has that the triggering device (47) gas chamber connected to the compressed gas supply (41) (72) and one to a fire water line (20) connected liquid chamber (78), and that the trigger device (47) with a piston rod (73) a quick-opening flap (45) of the release valve (42) locked. Sprinkler system according to claim 8, characterized in that the gas chamber (72) with a throttle (51) the compressed gas supply (41) is connected, and that the Liquid chamber (78) via a fire water line (79) connected to a fire water supply (16) is. Sprinkler system according to one of claims 6 to 9, characterized characterized that the closed pipe system (43) contains a throttle (53) with a check function and that between the compressed gas supply (41) and the closed pipe system (43) another Throttle (51) with a check function is arranged. Sprinkler system according to claim 10, characterized in that the bore of the first throttle (53) is smaller is as the bore of the further throttle (51). Sprinkler system according to one of claims 6 to 11, characterized characterized in that the sprinkler pipe network (94) included sprinkler pipes (5,7) for drainage run with a slope of up to 5 ° to the horizontal and are provided with separation points (93) for deicing, the ones separated by the separation points (93) Parts of the sprinkler lines (5,7) are pivotally arranged are. Sprinkler system according to claim 12, characterized in that the separation points (93) are designed as compensators are. Sprinkler system according to one of claims 6 to 13, characterized characterized that for the cryogenic zone (2) provided sprinkler lines (5,7) and the supply line (10) made of cryogenic material. Sprinkler system according to claim 14, characterized in that the temperature resistance of the material up -30 ° C.

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