DE102009053602B4 - Method and device for operating a fire extinguishing system - Google Patents

Abstract

A method for operating a fire extinguishing system for gaseous extinguishing agents, in which an inert gas present as a result of operational processes is used as the extinguishing agent and gas extinguishing nozzles (5), which are assigned to an area to be protected, are supplied by means of a controller (9) via a zone valve (6). characterized in that only part of the inert gas present is fed to the gas extinguishing nozzles (5), and that another part of the inert gas is reduced to a control pressure and used as control gas for the section valve (6).

Description

The invention relates to a method and a device for operating a fire extinguishing system for gaseous extinguishing agents, with an inert gas present as a result of operational processes being used as the extinguishing agent, and a device for carrying out the method.

In previous fire extinguishing systems, liquid CO ₂ is used as an extinguishing agent, with large gas tanks with cooling devices being required to store the CO ₂ . Such systems have a large space requirement, which causes increased operating costs.

In order to avoid the large gas tanks, the inert gas available on site was used as an extinguishing agent. For example, there are large amounts of nitrogen in steelworks, part of which can be used as an extinguishing agent. Inert gases are also present in chemical plants, some of which can be used as extinguishing agents.

The inert gases present for operational processes are dangerous for people in the extinguishable concentration. For this reason, professional associations or other authorities prescribe the use of inert gas in fire extinguishing systems in such a way that technical devices must be used to delay and alarm if triggered.

DE 20 2007 011 578 U1 discloses an arrangement with an air conditioner and an energy store.

The invention is based on the object of using a gaseous extinguishing agent in such a way that in the event of extinguishing, personal injury is avoided and the known regulations for personal protection are complied with using the simplest but reliable and approved means.

This object is achieved in that another part of the extinguishing agent, reduced to a control gas pressure by means of a reducing valve, is branched off from the operational process and fed to the zone valve via a control system equipped with existing elements.

With this method it is achieved that the inert gas branched off from the operational process is used as a control gas with a reduced gas pressure, so that existing, approved control elements can be used, which ensures personal protection.

Existing elements means that standard elements are used, such as those known from CO ₂ extinguishing systems. Consequently, with the method according to the invention for the control elements, there are no costs for new designs and the necessary new approvals.

Such standard elements are kept in stock by the manufacturer of fire extinguishing systems and can be used at any time, which also makes it easier to replace the control elements and service the system.

A working according to the inventive method is based on 1 described in more detail below.

The inert gas present from the operational process is fed via an on-site gas line 1 via a shut-off valve 2 to the gas supply line 3 and a section valve 6 in an extinguishing line 4 with gas extinguishing nozzles 5 contained in the extinguishing system 22 . Part of the inert gas is branched off as control gas from the gas supply line 3 by means of a control gas line 7 and reduced to a required control gas pressure by means of a reducing valve 8 and fed to a control system 9, which consists of a control unit 10 and a fire alarm control panel 11 with one or more fire alarms 12 each with one Control line 23 consists. The control unit 10 is equipped with a flood time control valve 15, a control valve 16 which opens with a delay by a stepping motor, a blocking cock 17 and a shut-off valve 18, all of which are arranged in series. A control line 13 leads from the fire alarm control panel 11 to the flood time control valve 15 and another control line to the control valve 16 . In the area to be protected there is also an O ₂ concentration measuring device 19 with a control line 20 to the fire alarm control panel 11. This opens up the possibility of measuring the oxygen content (O ₂ ) in the extinguishing area, which has been reduced by extinguishing with nitrogen, using an O ₂ concentration measuring device to be monitored and, if exceeded, to initiate subsequent deletion. This can prevent the fire from flaring up again. A further control gas line 21 is indicated on the control gas line 7, which can be routed to a possibly further extinguishing area.

In the event of a fire, the fire detector 12 reports a fire to the fire alarm control panel 11, which controls the flood time control valve 15 and the control valve 16. The elapsed time of the stepping motor is set in such a way that the people in the area to be protected can leave the room before the extinguishing gas is flooded until the set time has elapsed. After opening the control valve 16, the flood time control valve 15 is actuated and the control gas flows from the line 7 to the control input of the area valve 6, which now opens in order to distribute the extinguishing gas from the gas supply line 3 via the gas extinguishing nozzles 5 to the source of the fire. The blocking cock 17 is provided so that, if necessary, the flooding of the extinguishing gas can be prevented.

Claims (8)

A method for operating a fire extinguishing system for gaseous extinguishing agents, in which an inert gas present as a result of operational processes is used as the extinguishing agent and gas extinguishing nozzles (5) assigned to an area to be protected are supplied by means of a controller (9) via a zone valve (6). characterized in that only part of the inert gas present is fed to the gas extinguishing nozzles (5) and that another part of the inert gas is reduced to a control pressure and used as control gas for the section valve (6). procedure after claim 1 , characterized in that the further part of the inert gas is fed to a control unit (10) of a control system (9) after pressure reduction, the control unit (10) being controlled by a fire alarm control panel (11) and opening with a delay. Device for carrying out the method claim 1 or 2 , with a gas supply line (3), which is connected via a zone valve (6) to extinguishing nozzles (5) of an extinguishing zone, and a control unit (10) controlling the zone valve (6), characterized in that the gas supply line (3) is equipped with an operationally gas line (1) supplying the inert gas obtained, and that a control gas line (7) branches off from the gas supply line (3), which contains a pressure-reducing valve (8) and is connected to a control unit (10) for the section valve (6). device after claim 3 , characterized in that a control system (9) from a fire alarm control panel (11) with fire alarms (12) and the control unit (10) is provided. device after claim 3 or 4 , characterized in that the control unit (10) consists exclusively of approved control elements (15, 16, 17). device after claim 5 , characterized in that a control valve (16) actuated by a stepper motor, a flooding time control valve (15) that initiates and ends the flooding process and a blocking cock (17) to prevent flooding of the extinguishing agent are installed in the control unit (10). Device according to one of claims 3 - 6 , characterized in that an O ₂ concentration measuring device (19) is provided in the area of the fire extinguishing system to be protected, which activates the flood time control valve (15) via the fire alarm control panel (11) when a target O ₂ value is exceeded. Device according to one of claims 3 - 7 , characterized in that the fire extinguishing system (22) is divided into several extinguishing areas and each extinguishing area is provided with a control system (9), in which each control unit (10) is provided with a shut-off valve (18) for the control gas.

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