EP1908031A1 - Monitoring arrangement and method for recording manipulations on hydrants - Google Patents

Abstract

The invention relates to a monitoring arrangement (1) and a method for recording manipulations at a discharge point (2) from fluid lines, said discharge point (2) comprising a closable protective cover (3) in which the operating elements (4) for the discharge point (2) are arranged. The monitoring arrangement is characterised in comprising an alarm element (5) with a power supply (6), a signal generator (7), a switch (8) and a trigger element (9). The alarm element (5) is arranged and has a form such that on opening the protective cover (3) it is separated from the trigger element (9). The switch (8) is provided to determine said separation and to subsequently generate an electrical connection between the power supply (6) and the alarm element (5) and the signal generator (7) can emit a signal which indicates the opening of the protective cover (3) of said discharge point (2). A corresponding monitoring system (21) comprises at least one external alarm element (5) of a monitoring arrangement (1) and a central point for reception and analysis of the signals generated by the signal generators (7) on the alarm elements (5), characterised in comprising a display on which an alarm message on the opening of a protective cover (10) of a discharge point (2) is displayed.

Description

 Wagamet AG, Staffelnhofstrasse 18, CH-6015 Reussbühl

W12-0007P-WO PCT

Monitoring arrangement and method for detecting tampering with hydrants

The present invention relates to a monitoring arrangement and a monitoring method for detecting tampering at a discharge point of fluid lines. Typically, such removal points comprise a closable protective cover in which the operating elements of the removal parts are arranged.

Piping or piping systems for fluids, in particular for liquids or gases, can be buried, arranged above ground or at least partially installed in buildings. Such pipe systems are used, for example, for the distribution of drinking water or extinguishing water and typically include pipes, fittings and fittings as the necessary components. The present invention is preferably used in a distribution system for extinguishing water, but it is also used in other piping systems, such as in pipelines for natural gas, gasoline or petroleum application. Such and similar piping systems have in common that they have sampling points at which the subsidized fluids can be tapped or removed. In the following, the application of the invention in extinguishing water systems is reported, whose fittings for the removal of the subsidized in this line system fluid, the extinguishing water, are referred to as hydrants. Especially with fire water systems, it is important that the accessibility to the fire brigade is guaranteed at all times. Too often, however, water is taken from such hydrants by unauthorized persons, for example, to fill swimming pools, to supply a construction site or irrigate a field, the water distribution. Such illegal water withdrawals represent a great loss of value for the operators of the network, which is often increased by improper handling of the hydrant and any damage to these fittings.

More modern hydrants are provided with a two-part protective cover, which covers the controls for water extraction, the so-called spindle extensions. This protective cover is usually made of a movable or removable protective cover and arranged underneath, the hydrant permanently seated shell, the valve housing cover. Protective covers and valve body covers are normally locked against each other by means of a screw plug, the so-called closing button, so that the actual operating elements for opening the water valves, the spindle extensions already mentioned, are accessible only after the protective cover has been unlocked and opened. Such protective covers have increasingly proven to be inadequate protection against illegal water extraction from extinguishing water networks.

The object of the present invention is therefore to propose an apparatus and a method with which an improved protection against illegal removal of water to hydrants, but also against unlawful removal of other fluids from corresponding piping systems is provided. This object is achieved according to the invention in relation to a device by the features of independent claim 1 by the monitoring device is designed for detecting tampering at a removal point of fluid lines, said removal point comprises a closable protective cover, in which the operating elements of the removal point arranged are. The monitoring arrangement according to the invention is characterized in that it comprises an alarm element with a current source, a signal generator and a switch as well as a triggering element. In this case, the alarm element is designed and arranged so that it is separated when opening the protective cover of the trigger element. In addition, the

Switch for detecting this separation and for subsequently establishing an electrical connection between the power source and the alarm element is formed and the signal generator is capable of outputting a signal indicating the opening of the protective cover of this sampling point.

This object is achieved according to the invention with respect to a method by the features of independent claim 12, by the monitoring method for detecting tampering at a removal point of FIu- ididenleitungen with a monitoring arrangement is used. In this case, these removal parts comprise a closable protective cover, in which the operating elements of the removal point are arranged. The monitoring method according to the invention is characterized in that this monitoring arrangement comprises an alarm element with a current source, a signal generator and a switch as well as a triggering element. In this case, when the protective cover is opened, the alarm element is disconnected from the trigger element, the switch establishes an electrical connection between the current source and the alarm element, and the signal generator emits a signal indicating the opening of the protective cover of this removal point. Additional inventive features emerge from the dependent claims.

The device according to the invention will now be explained in more detail with reference to schematic drawings illustrating a preferred exemplary embodiment, without these drawings being intended to limit the scope of the invention. Showing:

1 shows a vertical section through the known upper part of a above-ground hydrant in the region of the valve housing cover and the protective cover with a monitoring arrangement according to a first embodiment.

2 shows a vertical section through the known upper part of a above-ground hydrant in the region of the valve housing cover and the protective cover with a monitoring arrangement according to a second embodiment;

Fig. 3 is a vertical section through the known upper part of a above-ground hydrant in the region of the valve housing cover and the protective cover with a monitoring arrangement according to a third embodiment.

4 shows a schematic overview sketch of variants of a GSM receiving station or a H.A. K transceiver module, which is in a H.A. K monitoring system used;

Fig. 5 shows a hydrant alarm chain, a so-called "H.A. K surveillance network "with several hydrants and bridging points.

Figure 1 shows a vertical section through the known per se upper part of a above-ground hydrant in the region of the valve housing cover and the protective cover with a monitoring arrangement according to a first embodiment. This overhead hydrant is designed as a water outlet 2 or fitting a fire water supply and includes a closable protective cover 3. This protective cover 3 includes a protective cover 10 and arranged underneath, the hydrant permanently seated valve Housing cover 11. In the protective cover 3, the controls 4 of the sampling point 2 are arranged. These controls 4 to open the water valves, the so-called spindle extensions are accessible only after unlocking and opening the protective cover 10. The protective cover 10 and the valve housing cover 11 are locked against each other by means of a locking screw 15, the so-called lock button and shown here in the closed state.

The monitoring arrangement 1 for detecting tampering at a removal point 2 of fluid lines comprises an alarm element 5 with a current source 6, a signal generator 7 and a switch 8 and a trigger element 9. In this case, the alarm element 5 is designed and arranged so that when opening the protective cover 3, so when moving away or removing the protective cover 10, is separated from the trigger element 9. For this purpose, the alarm element 5 is attached to the protective cover 10 and the trigger element 9 on the valve housing cover 11.

In an alternative embodiment of the invention, the alarm element 5 may be integrated in the protective cover 10 and / or the trigger element 9 in the valve housing cover (not shown). It can also be provided to arrange the trigger element 9 on or in the protective cover 10 and / or the alarm element 5 on or in the valve housing cover 11 (not shown). The arrangement of the alarm element 5 and / or the trigger element 9 outside the protective cover can also be provided; however, the external parts should be well protected against weather and foreign interference. Preferably, both the alarm element 5 and the trigger element 9 is disposed within the protective cover 3 and so largely secured against weather and vandalism or unauthorized manipulation.

In any embodiment, however, it is important that each time the protective cover 3 is opened, the alarm element 5 is separated from the triggering element 9. The switch 8 is for detecting this separation and for subsequently establishing an electrical connection between the Power source 6 and the alarm element 5 is formed. The signal generator 7 is capable of outputting a signal which indicates the opening of the protective cover 3 of this removal point 2.

In the embodiment shown in FIG. 1, the alarm element 5 is arranged in a dustproof and watertight housing 12. The signal generator 7 is connected to the power source 6 and formed as an acoustic signal generator, such as a siren or a speaker, for outputting acoustic signals. The switch 8 is not arranged here in the watertight housing 12. In this case, the switch 8 is preferably designed as a contact blade and the trigger element 9 as an electrical contact.

The switch 8 can likewise be arranged in the watertight housing 12 if the outer wall of this housing 12 does not impair the action of the switch 8, namely the detection of the removal from the triggering element 9. The switch 8 in this case preferably designed as a reed switch or proximity sensor and the trigger element 9 as a permanent magnet.

FIG. 2 shows a vertical section through the upper part of an above-ground hydrant already known in connection with FIG. 1 in the area of the closed protective cover 3. The monitoring arrangement 1 for detecting tampering at a removal point 2 of fluid lines comprises an alarm element 5 with a current source 6, a signal generator 7 and a switch 8 and a trigger element 9. In this case, the alarm element 5 is designed and arranged so that it is separated when opening the protective cover 3, ie when moving away or removing the protective cover 10, from the trigger element 9. The alarm element 5 is, as already described in FIG. 1, fastened to the protective cover 10 and the triggering element 9 on the valve housing cover 11. In the embodiment shown in FIG. 2, the alarm element 5 is again arranged in a dustproof and watertight housing 12. The signal generator 7 is connected to the power source 6 and designed as an electronic signal generator. This electronic signal transmitter 7 comprises a transmission antenna 13 and a transmission module 14 for the wireless transmission of data. Preferably, the transmission module 14 is selected from a group comprising GSM modules, radio frequency modules and GPS modules. The variants of the arrangement and the design of the switch 8 described with reference to FIG. 1 also apply here.

FIG. 3 shows a vertical section through the upper part of an above-ground hydrant already known from FIGS. 1 and 2 in the region of the valve housing cover 11 and the protective cover 10 with a monitoring arrangement 1 according to a third embodiment. This protective cover 3 comprises a protective cover 10 and a valve body cover 11 arranged permanently underneath, which permanently seats the hydrant. This protective cover 10 differs from the one in the figures The larger inner height in the region of the protective cover 10 results in an improved space for the monitoring arrangement 1 for detecting tampering at a removal point 2 of fluid lines. In the protective cover 3, the controls 4 of the sampling point 2 are arranged. These controls 4 to open the water valves, the so-called spindle extensions are accessible only after unlocking and opening the protective cover 10. The protective cover 10 and the valve housing cover 11 are locked against each other by means of the locking screw 15, the so-called lock button and shown here in the closed state.

The monitoring arrangement 1 for detecting tampering at a removal point 2 of fluid lines comprises an alarm element 5 with a current source 6, a signal generator 7 and a switch 8 and a trigger element 9. In this case, the alarm element 5 is designed and arranged so that when opening the protective cover 3, so when moving away or removing the protective cover 10, is separated from the trigger element 9. Is to here the alarm element 5 attached to the protective cover 10. As a triggering element 9 here serves a control element 4 for opening a water valve, the so-called spindle extension. Here, both the alarm element 5 and the trigger element 9 are arranged within the protective cover 3 and thus largely secured against weather and vandalism or unauthorized manipulation. So that each time the protective cover 3 is opened, the alarm element 5 is separated from the triggering element 9, the switch 8 is designed to detect this separation and to subsequently establish an electrical connection between the current source 6 and the alarm element 5. The signal transmitter 7 is capable of outputting a signal which indicates the opening of the protective cover 3 of this removal point 2. In this case, the switch 8 is preferably designed as a contact blade and the trigger element 9 as e-lektrischer contact.

As a power source can serve a direct power supply from a supply network, preferably with an interposed transformer (not shown). In such a case, the data transmission, with which an opening of the protective cover 10 is displayed, could also take place via a telephone landline network. However, a current source 6, which is designed as an accumulator, is preferred, so that the power supply is autonomous and that the data transmission is carried out wirelessly. For the data transmission, in each case the opening of the protective cover 10 is displayed, the signal generator 7 of the alarm element 5 preferably comprises a flash RAM with a stored hydrant number. Thus, via landline or wireless, each alarm report can be added or associated with the corresponding hydrant number by opening a hydrant protection cover 10.

It can also be provided that the signal generator 7 of the alarm element 5 outputs a GPS signal (GPS = Global Positioning System), so that as an alternative or in addition to the hydrant number just the location of the corresponding hydrant is specified. The GPS signal itself can serve as an alarm signal or as an alarm signal and as a location indication. A monitoring system 21 for detecting tampering with tapping points 2 of fluid lines comprises at least one external alarm element 5 of a monitoring arrangement 1 and a central point for receiving and evaluating the signals emitted by the signalers 7 of the alarm elements 5. Such a monitoring system 21 includes a display on which an alarm message about the opening of a protective cover 10 is displayed at a removal point 2. Preferably, the hydrant number and / or the location of the hydrant is displayed.

The central office preferably comprises a receiver for receiving wirelessly transmitted data. Particularly preferred is a central station whose receiver is designed to receive GSM signals, radio frequency signals or GPS signals.

A corresponding monitoring method for detecting tampering at a removal point 2 of fluid lines with a monitoring arrangement 1, wherein this withdrawal point 2 comprises a closable protective cover 3, in which the operating elements 4 of the sampling point 2 are arranged is characterized in that this monitoring arrangement 1 an alarm element 5 with a current source 6, a signal generator 7 and a switch 8 and a trigger element 9, wherein when opening the protective cover 3, the alarm element 5 is separated from the trigger element 9, the switch 8 through this separation, an electrical connection between the power source 6 and the alarm element. 5 produces, and the signal generator 7 emits a signal indicating the opening of the protective cover 3 of this sampling point 2.

To save electrical energy or to increase the current output of the accumulator, it is preferably provided that the electrical contact between the signal generator 7 and the current source 6 is interrupted each time the protective cover 3 is closed. A particularly preferred embodiment of the monitoring arrangement 1 according to the invention for detecting manipulations at a removal point 2 of fluid lines comprises a so-called "HA K transmitting and receiving module." This module is an element of a hydrant alarm chain (HA K) and capable of For example, to receive and pass on a 3-digit decimal number (its own identification number or the corresponding ID number of another module) This HA K transmit and receive module is also suitable, for example, for installation in a hydrant cover, as in particular in the figures 1 and 2. It can also be provided that 4- or 5-digit ID numbers, or numbers with even more digits, but also names, place names etc. can be transmitted.

FIG. 4 shows a schematic overview sketch of variants of a GSM receiving station or a H.A. K transceiver module, which in one

HA K monitoring system can be used. Each HA K transmitting and receiving module 24, but also each GSM receiving station 28 includes a receiving module 16 with an antenna 20. The power supply 17 may be formed as a battery or as a power supply 23, which is connected to an external power supply 31. Each HA K transmit and receive module 24, but also each GSM receive station 28, includes a microprocessor controller / monitor 18 for controlling and monitoring the functions of the HA K transmit and receive module 24 and the GSM receive station 28, respectively - And receiving module 24, but also each GSM receiving station 28 also includes a telemetry module, a modem or a transmission module 19, wherein the telemetry module and the transmission module are equipped with an antenna 20, and wherein the modem is connected to a telephone network 22. This latter version is considered to be particularly cost effective. This monitoring arrangement 1 shown in FIG. 4 thus comprises an alarm element 5 in the form of a HA K transmitting / receiving module 24 with a current source 6 or a power supply 17, a signal generator 7 in the form of a microprocessor control 18 and a triggering element 9 and a switch 8 (see Figures 1 to 3). This alarm element 5 is designed and arranged to be separated from the triggering element 9 when the protective cover 3 is opened, the switch 8 being designed to detect this separation and to subsequently establish an electrical connection between the current source 6 and the alarm element 5, and the signal generator 7 for discharging a signal which indicates the opening of the protective cover 3 of this sampling point 2.

Such a H.A. K transceiver module 24 does not necessarily have to be very intelligent; in the simplest case, it is sufficient if it is able to transmit a 3-digit decimal number. This simplest alarm message, which at the same time represents the identification of the H.A.K transceiver module 24 or the hydrant in which it is mounted, is to be delivered in response to different situations; these are :

1. An excitation by a radio signal, which is registered via the antenna 20 and the receiving module.

2. An excitation by an internal alarm pulse, which is caused by the separation of the trigger element 9 and switch 8, or by a connected to the microprocessor control tilt switch 30 or a corresponding switched motion detector. 3. A stimulus caused by a predefined interrupt or interruption (e.g., an alarm signal that the power supply is interrupted, the battery is low, etc.).

Since these HA K transmit / receive modules 24 have to fit mainly in hydrant ends, the mounting size is limited to approx. 80 x 40 x 30 mm. In this case, the power supply can be sold separately and again have a similar format (see Fig. 3). The antennas 20 for the receiving module 16 and the transmitting module 19 should also be accommodated in Hydrantendeckel. Tilt switches 30 and motion detectors are available as very small or even extremely miniaturized components and can be easily integrated into the HA K transceiver modules 24. Such tilt switch 30 and motion detectors can detect any changed position of the protective cover 10, so that the microprocessor control / Monitoring 18 can generate an alarm. The electronics mounted under the protective cover of a hydrant are not directly exposed to the weather and are only subject to possible temperature fluctuations.

Preferably, the power supply 17 is independent of the mains and allows a service life of a few years. Of course, the life of a battery or the minimum voltage of an accumulator is dependent on the number of remote or received radio signals. Preference is given to a SAFT 3.6 V lithium cell in LR20 format with a capacity of 13.0 Ah, as described on the Internet at www.saftbatteries.com. Preferably, the H.A. Transmitters and receivers should be able to bridge a distance of about 200-300 m together, preferably when installing the HA K transceiver modules 24 Checking the radio range of a measuring point on a special "radio receiver measuring device" so that the next relaying point can be defined.

Now that a H.A.K transceiver module 24 has been awakened, it sends an alarm message (in the simplest case a 3-digit number) via a radio signal to all the modules within its range. These are also "awake" by the incoming signal and send the received number in the same way.

By placing a plurality of HA K transmitting / receiving modules 24 in several hydrants 25, a HA K surveillance network is preferably constructed, as shown schematically in FIG. This network functions as a hydrant alarm chain with multiple hydrants 25. Where within the required range there is no hydrant 25 with an installation facility for a HA K transceiver module 24, a bridging point 27 or relay station is preferably provided. Such a bridging point 27 corresponds to a HA K transceiver module 24, but it is not equipped with its own alarm activation. Preferably however, such a bridging point is designed for issuing alarm messages for predefined interrupts or interruptions.

Preferably, in the case of an alarm pulse of the hydrant A (see Fig. 5), each radio module B, C, D and E is activated only once. It can also be provided that a H.A.K transceiver module 24, which has just set off an alarm signal, during a certain blocking period of e.g. 10 minutes no more signal can settle. Thus, the formation of an endless loop can be prevented.

As an alternative to these blocking periods, the targeted use of relay stations can be provided. These are selected bridging points that deliver their radio signals at a different frequency than they receive. Thus, preferred directions of alarm messages (see arrow Ie in Fig. 5) can be specified and the formation of an endless loop can be prevented.

The aim of each alarm chain is to send an alarm message in the form of e.g. a digital number to a GSM receiving station 28. This GSM receiving station 28 then sets the alarm information preferably via the mobile network to a destination number by means of an SMS text. Under the destination number, a destination mobile 29 or a corresponding reception center can be reached. According to a first variant, this GSM receiving station comprises a receiving module 16 with an antenna 20, a power supply 17, a microprocessor control / monitoring 18 and a telemetry module 19 with an antenna 20. According to a second variant, this GSM receiving station comprises a receiving module 16 with an antenna 20, a power supply 23 connected to an external power supply 31, a microprocessor control / monitoring 18 and a modem 19 connected to a telephone network 22.

Claims

claims

1. monitoring arrangement (1) for detecting tampering at a removal point (2) of fluid lines, said removal point (2) comprises a closable protective cover (3), in which the operating elements (4) of the removal point (2) are arranged, characterized in that this monitoring arrangement (1) has an alarm element (5) with a current source (6), a signal generator (7) and a

Switch (8) and a trigger element (9), wherein the alarm element (5) is designed and arranged so that it is separated when opening the protective cover (3) of the trigger element (9), wherein the switch (8) for detecting This separation and the subsequent establishment of an electrical connection between the power source

(6) and the alarm element (5) is formed, and wherein the signal generator

(7) capable of outputting a signal indicative of the opening of the protective cover (3) of said extraction point (2).

2. Monitoring arrangement (1) according to claim 1, characterized in that the removal point (2) is a hydrant of a fire water supply, wherein the protective cover (3) comprises a protective cover (10) and arranged underneath, the hydrant permanently seated valve housing cover (11) ,

3. monitoring arrangement (1) according to claim 1 or 2, characterized in that the alarm element (5) and the trigger element (9) within the protective cover (3) are arranged.

4. monitoring arrangement (1) according to any one of the preceding claims, characterized in that the current source (6) is designed as an accumulator

5. monitoring arrangement (1) according to any one of the preceding claims, characterized in that the alarm element (5) in a dustproof and watertight housing (12) is arranged.

6. monitoring arrangement (1) according to one of the preceding claims, characterized in that the switch (8) as a reed switch or proximity sensor and the triggering element (9) is designed as a permanent magnet.

7. monitoring arrangement (1) according to one of claims 1 to 5, characterized in that the switch (8) is designed as a contact blade and the triggering element (9) as an electrical contact.

8. monitoring arrangement (1) according to one of the preceding claims che, characterized in that the signal generator (7) of the alarm element (5) is designed as an acoustic signal generator.

9. monitoring arrangement (1) according to one of claims 1 to 7, characterized in that the signal transmitter (7) of the alarm element (5) designed as an electronic signal generator and a transmitting antenna

(13) and a transmission module (14) for the wireless transmission of data.

10. Monitoring arrangement (1) according to claim 9, characterized in that the transmission module (14) is selected from a group which

GSM modules, radio frequency modules and GPS modules.

11. Monitoring arrangement (1) according to claim 9 or 10, characterized in that the signal generator (7) of the alarm element (5) comprises a flash RAM with stored hydrant number.

12. Monitoring system (21) for detecting tampering with tapping points (2) of fluid lines, which comprises at least one external alarm element (5) of a monitoring arrangement (1) according to one of the preceding claims and a central point for receiving and evaluating the signals from the signalers ( 7) of the alarm elements (5) emitted signals, characterized in that it comprises a display on which an alarm message about the opening of a protective cover (10) at a sampling point (2) is displayed.

13. A surveillance system (21) according to claim 12, characterized in that it comprises a receiver for receiving wirelessly transmitted data.

14 monitoring system (21) according to claim 13, marked thereby, that the receiver for receiving GSM signals, radio frequency signals or GPS signals is formed.

15. A monitoring method for detecting tampering at a removal point (2) of fluid lines with a monitoring arrangement (1), said removal point (2) comprises a closable protective cover (3), in which the operating elements (4) of the removal point (2) are arranged , characterized in that this monitoring arrangement (1) comprises an alarm element (5) with a current source (6), a signal generator (7) and a switch (8) and a tripping element (9), wherein when the protective cover (3 ) the A-larmelement (5) is separated from the trigger element (9), the switch (8) through this separation establishes an electrical connection between the power source (6) and the alarm element (5), and the signal generator (7) a signal which indicates the opening of the protective cover (3) of this sampling point (2).