Control device for operating a fire extinguisher system

Abstract

A control device for operating a fire extinguisher system includes at least one hose (3) having an extinguisher nozzle (4) arranged at the end of the hose (3) to be operated by an operator for releasing a pressurized extinguishing fluid. A conveying pump (5) conveys the pressurized extinguishing fluid in the hose (3) towards the extinguisher nozzle (4). A first supply line (7) connects the conveying pump (5) to a tank (8) of a fire extinguisher device, such as a fire extinguisher vehicle (1). A second supply line (9) connects the conveying pump (5) to a stationary extinguishing fluid source (2). A multi-port switch valve (10) connects upstream of the conveying pump (5), proximate the first supply line (7) and second supply line (9).

Claims

1. A control device for operating a fire extinguisher system of a fire-fighting vehicle, the fire extinguisher system comprising: a controller adapted to function as an operations center; at least one hose having an extinguisher nozzle arranged at an end of the hose by which a pressurized extinguishing fluid is released, a conveying pump for pressurized conveying of the extinguishing fluid in the hose toward the extinguisher nozzle, a first supply line to the conveying pump from a tank of a fire extinguisher device, a second supply line to the conveying pump from a stationary extinguishing fluid source, a multi-port valve connected upstream of the conveying pump, wherein the first supply line and the second supply line are connected to the multi-port valve, and the multi-port valve comprises a motor-driven pressure-controlled valve, wherein the multi-port valve switches at an adjustable pressure threshold, a second pump positioned in the second supply line between the stationary extinguishing fluid source and the multi-port valve, wherein in a first position of the multi-port valve, the conveying pump is connected to the tank, wherein the supply of extinguishing fluid from the tank is switched away from the tank and to the stationary extinguishing fluid source, if the pressure threshold is present at the multi-port valve in the second supply line, wherein pressure present at the multi-port valve in the second supply line can be defined with the second pump, and control lines connecting the multi-port valve to the controller.

2. The control device according to claim 1 wherein the multi-port valve is controlled via pressure present at the multi-port valve in the second supply line.

3. The control device according to claim 1, further comprising a flow connection between the tank and the pump in a loaded state of the multi-port valve.

4. The control device according to claim 1, wherein a switching position of the multi-port valve is displayed.

5. The control device according to claim 1, wherein the multi-port valve is a switch valve.

Description

DESCRIPTION OF THE INVENTION ON THE BASIS OF EMBODIMENTS

(1) Expedient embodiments of the present invention will be explained in greater detail below with reference to drawings. In the drawings:

(2) FIG. 1 shows a highly simplified representation of a typical fire-fighting situation;

(3) FIG. 2 shows a highly simplified schematic representation of a control device according to the present invention;

(4) FIG. 3 shows a highly simplified schematic representation of the region of the communications bridge between the extinguisher nozzle and the display provided in the helmet of the firefighter;

(5) FIG. 4a-4b a show highly simplified schematic representations of the use of a multi-port switch valve, namely in the switching position for conveying extinguishing fluid from the tank (FIG. 4a), and in the switching position of conveying extinguishing fluid via the stationary extinguishing fluid source (FIG. 4b); and

(6) FIG. 5 shows a highly simplified schematic representation of the display in the display device carried by the firefighter.

(7) FIG. 1 shows a typical fire-fighting situation involving the fighting of a fire that has broken out in the basement of a building. After the fire-fighting vehicle 1 arrives, a firefighter enters the basement of the building with the hose 3 and releases extinguishing fluid via the extinguisher nozzle 4 for immediate firefighting. In this case, the extinguishing fluid is obtained from a tank located in the fire-fighting vehicle 1. As a result of this, it is possible to start fighting the fire as soon as the fire-fighting vehicle 1 has arrived. At the same time, further firefighters search for an unlimited extinguishing fluid source 2, such as a hydrant, a lake 27 or a stream, in the surrounding area. A considerable amount of time can pass here. As soon as an unlimited extinguishing fluid source has been found, it is connected to the fire-fighting vehicle 1 via a supply line. The hose 3 located at the fire can then be supplied with extinguishing fluid from the unlimited extinguishing fluid source.

(8) For fighting fires, a plurality of hoses is usually provided in a fire-fighting vehicle 1, which hoses can also be used simultaneously if necessary. For the sake of clarity, FIG. 1 only shows a second hose having an extinguisher nozzle arranged at its end. This extinguisher nozzle is operated by a further firefighter.

(9) To fight a fire, the firefighter can manually adjust the extinguisher nozzle 4 in such a way that the extinguisher nozzle 4 release the extinguishing fluid at a low opening angle. As a result, it is possible to achieve a maximum extinguishing effect on the fire. If, however, the fire spreads despite the fire fighting and threatens the firefighter, the firefighter can manually adjust the extinguishing nozzle 4 in such a way that the extinguisher nozzle 4 releases the extinguishing fluid at a very large opening angle. As a result, the firefighter can protect him or herself from fire and/or intense heat and safely exit the building. Both operating modes of the extinguisher nozzle 4 are shown schematically in FIG. 1. If the supply of extinguishing fluid is unexpectedly interrupted, the firefighter can suddenly end up in a life-threatening situation because he or she can no longer release the extinguishing fluid at a very large opening angle to protect him or herself.

(10) FIG. 2 shows a simplified basic circuit diagram of the control device according to the invention. The components illustrated within the dashed line are, in this case, preferably located in the region of the fire extinguisher device, i.e., in the region of the fire-fighting vehicle 1. The components comprise a controller 11 having a plurality of control and/or signal lines (dotted lines) that are connected to various functional components of the system as a whole. In particular, the tank 8 for providing extinguishing fluid directly at the fire-fighting vehicle 1 is shown. The tank 8 is connected to the conveying pump 5, for example a centrifugal pump, via a first supply line 7.

(11) In addition, a second supply line 9 is provided that is connected to a supply line and supplies the conveying pump 5 with extinguishing fluid from the stationary extinguishing fluid source 2.

(12) The first supply line 7 and the second supply line 9 lead into a multi-port valve 10, which is preferably pressure-controlled, upstream of the conveying pump 5. The multi-port valve 10 thus ensures independently of the pressure present at the second supply line 9 that the inflow to the conveying pump 5 is switched over from the tank 8 to the stationary extinguishing fluid source 2. The pressure control 30 of the multi-port valve 10 is shown only schematically in FIG. 2.

(13) The hose 3, at the end of which a portable extinguisher nozzle 4 is located, is supplied with extinguishing fluid via the conveying pump 5. For the sake of clarity, only a single additional hose having an extinguisher nozzle is shown in FIG. 2. However, a plurality of extinguisher nozzles and corresponding hoses, which are supplied with extinguishing fluid via the conveying pump 5, can, if necessary, also be provided. A valve 31, 32 is located in the region of each supply line to the extinguisher nozzle, which valve is connected to the controller 11 via a control and/or signal line and can be actuated via the controller 11.

(14) The outlet of the conveying pump 5 is also connected to a return line 33 via which extinguishing fluid from the stationary extinguishing fluid source 2 can be returned to the tank 8 to refill it, this process being controlled via a valve 34 connected to the controller 11.

(15) Reference numeral 29 designates a device for conveying pump control or a so-called “pressure governor”. Said pressure governor is capable of adjusting the pumping capacity to the required quantity of extinguishing fluid to be delivered. If, for example, a drop in pressure is caused by a further hose or a further extinguisher nozzle, the device 29 for conveying pump control controls the pumping capacity in such a way that the latter is raised to adjust the conveying pressure of extinguishing fluid in the respective hose to the previous level again.

(16) Reference numeral 26 in FIG. 2 designates a further pump that is provided to define the pressure conditions in the second supply line 9 from the stationary extinguishing fluid source 2 to the conveying pump 5, unless an extinguishing fluid source 2 that is not under pressure has been found. The pump 26 is preferably a kind of air pump or suction pump that is provided to influence the pressure conditions in the second supply line 9 in such a way that, for example, extinguishing fluid flows via the supply line 9 from a lower-lying lake or stream to the multi-port valve 10 (which may optionally also be located higher up). The pressure conditions in the second supply line 9 at the inlet to the multi-port valve 10 created by the pump 26 are used to trigger the switching operation of said multi-port valve. As a result, the control device can switch over automatically as soon as a local extinguishing fluid source 2 is found and connected to the fire extinguisher device.

(17) As is further apparent from FIG. 2, the controller 11 is connected via control lines 12 to a radio device 13 in the region of the extinguisher nozzle 4, which radio device is connected to the control line 12. The control lines 12 can either be attached to the sheath of the hose 3 or be integrated into the wall of the hose. The control line 12 is preferably an electrical conductor for transmitting electrical signals, data and/or for supplying energy. The radio device is preferably a radio module for transmitting data between a transmitter and receiver over a short distance, such as WPAN or WLAN. This kind of radio transmission technology aims at preferably covering the working region around the radio device 13.

(18) Furthermore, a radio device 14 to be carried by the firefighter operating the extinguisher nozzle 4, which radio device is capable of receiving the radio signals 15 emitted by the radio device 13 and displaying them in a display 16 to be carried by the firefighter operating the extinguisher nozzle 4, preferably in the form of a head-up display. This justifies only a very short transmission path of the data via radio directly in the working area of the firefighter, who, because of this, is substantially less susceptible to interference. In the embodiment of the present invention shown in FIG. 2, data is only transmitted in one direction, as illustrated by the direction arrow of the radio signals 15 that can be seen in FIG. 2.

(19) If the display 16, as in FIG. 2, is designed as a head-up display in the helmet 6 of the firefighter, it provides particularly good viewing conditions for the firefighter during operations with respect to the information coming from the operations center, particularly under often difficult viewing conditions that are caused, for example, by poor lighting conditions, smoke, soot or the like.

(20) To supply the radio device 13 with data, a battery (not shown) can be provided on the extinguisher nozzle 4 or in the region thereof. Alternatively, the radio device 13 can also be supplied with electrical energy via the control lines 12 or via additional electrical power-carrying lines (likewise not shown), which likewise run in or on the hose 3.

(21) Preferably, the information shown in the display 16 can, preferably simultaneously, be shown in a display 17 of the fire extinguisher device or of the fire-fighting vehicle 1 such that the operator at the fire-fighting vehicle simultaneously sees the data or information being transmitted to the firefighter at the extinguisher nozzle 4.

(22) FIG. 3 shows a further embodiment of the communications bridge between extinguisher nozzle 4 and display 16. In this case, a data interface 18 can additionally be provided, which data interface allows a cable connection to additionally be made from the control line 12 to the display 16. For this purpose, at least one, preferably two plug contact connections 18a, 18b can be provided as a data interface 18. The additional data interface 18 serves solely as a backup position for emergencies.

(23) The display 16 provided in the helmet 6 of the firefighter as a head-up display is connected via an energy source (not shown in FIG. 3), for example a rechargeable battery. The radio transmission bridge in the region of the extinguisher nozzle 4, which radio transmission bridge is short according to the invention, allows the additional data transfer via a communication cable 19 to be provided as a backup position in a simple manner.

(24) In a further embodiment, the invention additionally allows bidirectional data transmission to be established between the first and second radio devices 13 or 14. Preferably, in addition to data for the display 16, voice files can also be transmitted both from the firefighter operating the extinguisher nozzle 4 to the controller 11 and/or from the firefighter at the controller 11 to the firefighter at the extinguisher nozzle 4.

(25) FIG. 4a shows the switching position of the multi-port valve 10 while the conveying pump 5 is being supplied with extinguishing fluid from the tank 8. The supply of extinguishing fluid from the tank 8 must be maintained until the conveying pump 5 can be supplied via a stationary extinguishing fluid source 2. This can be either a fixedly installed hydrant 28 or a lake 27 or a stream, river or the like.

(26) If a hydrant 28 is available, the second supply line 9 of the conveying pump 5 is connected to the outlet of the hydrant 28. For example, extinguishing water from a hydrant has a pressure of approx. 3 bar. The extinguishing water will thus be present at this pressure at the multi-port valve 10 via the second supply line 9 after the hydrant 28 is opened. The pressure causes the multi-port valve 10 to switch from the switching position shown in FIG. 4a to the switching position shown in FIG. 4b. In this case, it may be, if necessary, expedient for the pump 26 to adjust the pressure created in the second supply line 9 to the required pressure or pressure range.

(27) The pump 26 is, however, particularly important if no hydrant 28 but only a body of water, such as a lake 27, is available. It is often the case here that the water surface of the lake is lower than the fire-fighting vehicle 1 such that the pressure conditions in the second supply line 9 are affected by actuation of the pump 26 in such a way that the extinguishing water can reach the conveying pump 5 from the lake 27 via the multi-port valve 10.

(28) For the pressure control 30 of the multi-port valve 10, an elastic element 25, for example a spring, can be provided, by means of which the multi-port valve 10 is held in the switching position shown in FIG. 4a in a pre-stressed manner. Alternatively or additionally, a magnetic element (not shown) can also be provided for the pressure control of the multi-port valve 10.

(29) FIG. 5 shows the display 16, preferably a head-up display, in the helmet 6 of the firefighter. The following information can expediently be reproduced individually or in any combination via the display 16: the current filling level 20 of the tank 8 with extinguishing fluid, the remaining time 21 of the release of extinguishing fluid from the tank 8, status information 22 regarding the existence of a conveying connection of extinguishing fluid from the stationary extinguishing fluid source 2 to the fire extinguisher device, status information 22 regarding the non-existence of a conveying connection of extinguishing fluid from the stationary extinguishing fluid source 2 to the fire extinguisher device, status information 23 regarding the existence and/or non-existence of a radio connection and/or an alarm signal 24 and/or the switching position of the multi-port valve 10.

(30) Reference is explicitly made to the fact that concepts according to the invention also comprise partial combinations of all of the above features.

LIST OF REFERENCE SIGNS

(31) 1 fire-fighting vehicle 2 stationary extinguishing fluid source 3 hose 4 extinguisher nozzle 5 conveying pump 6 helmet 7 first supply line 8 tank 9 second supply line 10 multi-port valve 11 controller 12 control line 13 first radio module 14 second radio module 15 radio signals 16 display 17 display 18 data interface 18a plug contact connection 18b plug contact connection 19 communication cable 20 current filling level 21 remaining time 22 status information for conveying connection 23 status information for radio connection 24 alarm signal 25 spring-loaded element 26 pump 27 lake 28 hydrant 29 conveying pump control 30 pressure control 31 valve 32 valve 33 return line 34 valve