DE102009052852A1 - Fire extinguishing system for closed storage system in building system, has blocking device with limit switch positioned at connection pipe of flooding device and closed in passive condition, where inert gas is stored in pressure cylinder - Google Patents

Abstract

The system has an electrically actuated blocking device with a limit switch (10) positioned at a connection pipe of a flooding device (3). The blocking device is closed in a passive condition. A pipe system (2) is provided in a depressurized manner. Inert gas is stored in a pressure cylinder and stays in preset quantity under pressure of 200-300 bars. The inert gas is supplied via a pressure-reducing unit (4) with downstream devices for inert gas quantities and via the pipe system to the flooding device from a storage system (6). An independent claim is also included for a method for providing a fire extinguishing system.

Description

Technical area

In the invention, it is a fire extinguishing system with the extinguishing agent inert gas - in so far as the fire extinguishing principle: oxygen displacement in the target area.

The extinguishing system is designed for closed storage systems with rotary and lift conveyor technology.

The main objective of the invention is a significantly increased performance compared with the relevant prior art, while at the same time reducing the production outlay - accordingly a rational, innovative, hitherto unavailable investment technique. The latter is a priority, especially in some areas on the application "closed storage" designed.

Conventional conventional solutions are derived from the inert gas fire extinguishing technology for rooms in buildings and do not meet the much higher fire technology requirements for storage systems with highly complex internal geometry uncompromising.

With the proposal according to the invention, these disadvantages are to be eliminated.

Presentation of the invention

The object of the invention is an unconditionally secured fire extinguishing process in the interior of a technical storage system, based on the relevant specifications of the property insurers and fire protection authorities.

In use, triggered by specific sensors, inert gas flooding in the storage system to the reduction of the oxygen content of 21% to at least 12% or lower in the shortest possible time factor in the entire interior (95%) after fire detection and maintaining this concentration until the arrival of the fire department (at least 10 minutes).

An essential feature of the system according to the invention as well as the corresponding distinction from the relevant prior art is the availability of the system design and its requirements-compliant service profile.

• – Lagersystem erfordert keine gasdichte Bauweise
• – Bedienöffnung des Lagersystems muss im Einsatzfall nicht geschlossen werden.

Further, the manufacturing costs of the fire extinguishing technology significantly reducing advantageous distinguishing features of the prior art arising from the principle of plant technology, in particular the Inertgasflutung by the following criteria:

• - Storage system does not require a gas-tight construction
• - Operating opening of the storage system does not have to be closed in case of operation.

The technology required for this purpose is based on available extinguishing gas quantities latently available, which are preferably stored in suitable, commercial pressure vessels in the specific amounts required and fed in a targeted manner via a pipe system with fittings the specific flooding facilities of the storage system.

• – Inertgasbevorratung (Station/separater Raum)
• – Inertgasrohrsystem (im Aufstellbereich zwischen Station und Lagersystem)
• – Flutungseinrichtungen (innerhalb der Lagersysteme)

The investment technique is divided into the main components:

• - Inert gas storage (station / separate room)
• - inert gas tube system (in the installation area between station and storage system)
• - flooding facilities (within the storage systems)

Fully automatic operation with latent availability of the fire extinguishing function is produced via additional components for fire alarm, regulation of inert gas quantity in the time factor, monitoring and control devices, etc.

This basic concept envisages that a plurality of flooding devices can be supplied by storage systems via a suitable composite pipe network via at least one central inert gas storage station, the stored inert gas quantity corresponding at least to the amount allocated to the inert gas quantity of the storage system with the largest volume of space required by fire technology.

Depending on the situation, depending on the amount of inert gas stored (expandable as desired) several storage systems can be flooded simultaneously.

Similar expansion options exist with regard to the inert gas tube system - functionally equivalent additional connections of flooding devices are possible at any position.

The installation technique is equally suitable in practice for initial equipment and retrofitting of such fire protection equipment.

embodiment

The station inert gas storage ( 1.0 ) requires relatively little space and is conveniently in the vicinity of the installation position of the storage systems ( 6 ).

About the inert gas piping system ( 2 ) ( 2 ) is a bond between the flooding devices ( 3 ) of the storage system (s) ( 6 ) ( 2 ) produced.

The in the form of pressure bottles ( 1 ) of extinguishing gas quantities are at least dimensioned for the inerting (O ₂ <12%) of the volume of space of the largest storage system ( 6 ) in the specific supply network.

The inert gas storage ( 1 ) is under about 200-300 bar pressure - the latter is via two successively arranged maximum mass flow rate in the time factor producing pressure reducer ( 4 ) ( 4 ' ) to approx. 8-10 bar pressure in the pipe system ( 2 ) reduced.

Manufactured by the closed motor shut-off valve (s) (s) ( 16 ) in front of the flooding devices ( 3 ) stands the entire pipe system ( 2 ) under latent pre-pressure of about 8-10 bar.

For safety, there is a pressure reducer ( 4 ) and ( 4 ' ) a safety valve is positioned.

Behind the pressure reducing stages ( 4 ) ( 4 ' ) is in the supply line to the inert gas pipe system ( 2 ) a switching device ( 8th ) (Three-way valve), with the aim to supply temporarily different amounts of inert gas to the activated storage system within an inert gas flooding phase (application). Here, in one of the two pipe connection lines to the inert gas pipe system ( 2 ) a quantity regulating device ( 5 ) intended.

The control of the assigned functions is carried out either according to a specific program or via an oxygen (O ₂ ) sensor ( 21 ) in the storage system ( 6 ) each via the switching logic ( 10 ).

The pipe system ( 2 ) links the technical equipment of inert gas storage ( 1 ) (Station) with those of the flooding facilities ( 3 ) of the storage system (s) ( 6 ) and stands until the changeover valve ( 7 ) preferably latently under pressure (about 8-10 bar).

The dimensioning of the pipe system ( 2 ) is based on the maximum inert gas take-off quantity in the time factor from the inert gas storage ( 1 ) for initial flooding and subsequent flooding, on the one hand, to the application-specific inert gas requirement of at least one storage system on the other.

The flooding devices ( 3 ) of the storage system ( 6 ) start with the engine valve ( 12 ) and are with the engine valve closed ( 12 ) depressurized.

Further and essential part of the flood system ( 3 ) and the fire extinguishing technology as such, the fire detection via fire sensor ( 18 ) in conjunction with subsequent automatic triggering of the extinguishing process by opening the engine shut-off valve ( 16 ) - this parallel alerting on the spot and forwarding to the fire department. Release / release of the inert gas flooding occurs via the release switch of the open engine valve ( 10 ).

These functions are controlled via the switching logic ( 9 ) ( 14 ), in which also the functions initial flooding and subsequent flooding can be programmed via the motor shut-off valve.

The with relatively low inert gas pressure the storage system ( 6 ) via its specific flooding facilities ( 3 ) supplied inert gas in conjunction with the principle of re-flooding require no additional measures to the design or technology of the storage system (no sealing measures / no closure of the operating opening in the case of application).

functional sequence

• – Entstehungsbrand im Lagersystem
• – Rauchsensor (13) erfasst Rachpartikel und öffnet das Motorabsperrventil (10) über dessen Endlageschalter das Dreiwegeventil (17)/zeitgleich erfolgt Alarmgabe vor Ort und zur Feuerwehr-Inertgas strömt über das Rohrsystem (2) zu den Flutungseinrichtungen (3) innerhalb ca. 60 Sekunden ist die Inertgasmenge dem Innenbereich des Lagersystems (6) zugeführt und homogen verteilt, die eine Inertgaskonzentration von mindestens 88 Vol.% herstellt (Flutungszeit und verfügbare Inertgasmenge sind auf das Volumen des Lagersystems abgestimmt/programmiert).
• – Der Brand erstickt in Folge Sauerstoffentzug
• – Im weiteren Ablauf erfolgt Nachflutung zur Aufrechterhaltung der Löschgaskonzentration über, vorbestimmbar 8–10 Minuten – bis zum Eintreffen der Feuerwehr.
• – Der für die Nachflutung erforderliche, gegenüber der Erstflutung deutlich geringere, Inertgasbedarf wird zugeführt über vorbestimmte Flutungsintervalle nach Zeit (Motorabsperrventil AUF-ZU) über Schaltlogik (10) oder alternativ durch elektronische Betätigung der Umschaltvorrichtung (7) von maximalem Druckfluss (Erstflutung) auf reduzierten, kontinuierlichen Durchfluss (Anschluss mit Mengenreduzierarmatur (5)).
• – Anstelle der Mengenregelung nach vorbestimmten Zeitintervallen oder Festwert innerhalb der Nachflutungszeit kann über einen Sauerstoff (O₂)-Sensor (21) im Lagersystem (6) kontinuierlich bedarfsgerechte Inertgaszuführung hergestellt werden.

Fire extinguishing technology is in its intended operational readiness

• - Genesis fire in the storage system
• - smoke sensor ( 13 ) detects revenge particles and opens the engine shut-off valve ( 10 ) via its limit switch the three-way valve ( 17 ) / at the same time alarm is given on site and the fire brigade inert gas flows through the pipe system ( 2 ) to the flooding facilities ( 3 ) within about 60 seconds, the inert gas is the interior of the storage system ( 6 ) and homogeneously distributed, which produces an inert gas concentration of at least 88 vol.% (Flooding time and available amount of inert gas are tuned / programmed to the volume of the storage system).
• - The fire smothered as a result of oxygen deprivation
• - In the course of subsequent flooding to maintain the quenching gas concentration over, pre-definable 8-10 minutes - until the arrival of the fire department.
• - The required for the replenishment, compared to the initial flooding significantly lower inert gas is supplied via predetermined flooding intervals after time (motor shut-off valve open-close) via switching logic ( 10 ) or alternatively by electronic actuation of the switching device ( 7 ) from maximum pressure flow (initial flooding) to reduced, continuous flow (connection with quantity reducing valve ( 5 )).
• Instead of the quantity control after predetermined time intervals or fixed value within the replenishment time, an oxygen (O ₂ ) sensor ( 21 ) in the storage system ( 6 ) continuously tailored Inertgaszuführung be produced.

LIST OF REFERENCE NUMBERS

1

Inertgas-Bevorratung

2

Inertgas-Rohrsystem

2'

Inertgas-Rohrleitung

3

Flutungseinrichtungen

4

Druckminderer 1

4'

Druckminderer 2

5

Mengenreguliervorrichtung

6

Lagersystem

7

Umschaltvorrichtung (Drei-Wege-Ventil)

8

Stellmotor

9

Schaltlogik -1-

10

Motorabsperrventil

18

Rauchsensor

11

Schaltlogik

12

Bedienöffnung

13

Sauerstoff-Sensor

Fig. 1.0 Station inert gas storage Fig. 2.0 Inertgasrohrsystem / flooding facilities with fittings on storage system

1

Inert gas storage

2

Inert gas pipe system

2 '

Inert gas pipeline

3

flooding devices

4

Pressure reducer 1

4 '

Pressure reducer 2

5

Mengenreguliervorrichtung

6

storage system

7

Switching device (three-way valve)

8th

servomotor

9

Switching logic - 1 -

10

Motorabsperrventil

18

smoke sensor

11

switching logic

12

operating opening

13

Oxygen sensor

Claims (8)

Device and method designed as a fire extinguishing system with inert gases - particularly suitable for closed technical storage systems with lift or rotary conveyor technology in innovative investment technique of the main components Inertgasbevorratung ( 1.0 ) - Station ( 2.0 ) Inert gas tube system ( 2 ) as well as specific flooding equipment ( 3 ), characterized in that the inert gas stored in predeterminable amounts, under high pressure (200-300 bar), stored in suitable pressure bottles via at least one pressure reducing unit ( 4 ) with downstream devices, for two inert gas quantities differing in the time factor of a flooding phase, via a piping system ( 2 ) with adjustable pressure to the specific flooding devices ( 3 ) of at least one storage system ( 6 ) - the piping system ( 2 ) is preferably depressurized and in the connection pipe of the flooding devices ( 3 ) an electrically operated, closed in the passive state, shut-off device with limit switch ( 10 ) is positioned. Device according to claim 1, characterized in that the high pressure inert gas reservoir ( 1 ), for example commercially available cylinder bundles with 200-300 bar form, preferably two pressure reducer units ( 4 ) ( 4 ' ) with different performance, is reduced to lower system pressure, for example, <10 bar - in this structure, the highest possible inert gas removal at low system pressure in the shortest time becomes available. Device according to claim 1 and 2, characterized in that on the low pressure side of the pipe system ( 2 ) a switching device ( 7 ) - for example, a three-way valve - for the production of two inert gas discharges into the pipe system, wherein in one of the two inert gas lines, a quantity reducing device ( 5 ) is inserted - here according to the default setting the pipe system ( 2 ) as a result of the flooding facilities ( 3 ) of the storage system different Inertgasmengen can be supplied. Device according to claim 1 and 3, characterized in that the switching device ( 7 ) (Three-way valve) a servomotor ( 8th ), which has a switching logic ( 9 ) in the time factor, the inert gas thus produces the specifically specified amounts of inert gas and the pipe system ( 2 ) feeds. Device and method according to claim 1 to 4, characterized in that the system functions in the region of the inert gas station ( 1.0 ) via an electronic switching logic ( 9 ) are monitored and controlled. Apparatus and method according to claim 1 to 5, characterized in that the inert gas supply pipe system any number of flooding devices ( 3 ) of storage systems ( 6 ), wherein the dimensioning to the required amount of inert gas for at least one flooding device ( 3 ) is designed. Apparatus according to claim 1 to 6, characterized in that the triggering of the deletion process via at least one smoke sensor ( 18 ) in the active network with a switching logic ( 12 ) by "opening" the engine valve ( 16 ) or solenoid valve takes place here the Endlageschalter the Inertgasflutung for example by opening the pre-pressurized engine three-way valve ( 7 ) ( 8th ) or pneumatic shut-off valves on the inert gas storage ( 1 ) is activated. Apparatus and method according to claim 1 to 7, characterized in that the Inertgasflutungsvorgang is temporarily subdivided into flooding and flooding, wherein the specific flooding intervals on the specific program of the switching logic ( 12 ) or an oxygen (O ₂ ) sensor ( 13 ) he follows.

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