NL1033891C2 - Drinking water monitoring method for e.g. building, involves measuring temperature of water flowing through pipe sections by thermal sensor of temperature measuring unit integrated into telecommunications facility - Google Patents

Abstract

The method involves attaching a telecommunications facility i.e. radio frequency identification (RFID) tag, at pipe sections of a hot water system. A thermal sensor of a temperature measuring unit is integrated into the telecommunications facility. Temperature of water flowing through the pipe sections is measured by the sensor. A thermal danger zone is detected based on the temperature of water flowing through the pipe sections. An independent claim is also included for a water pipe monitoring system comprising a telecommunications facility.

Description

Title: Method and installation for monitoring water pipes

The invention relates to the problem that drinking water in pipes in buildings slowly takes on the ambient temperature. In the case of a pipe where water often flows, the water will be changed regularly and thus maintain a relatively low temperature, but in the case of a pipe where the water is stationary for a longer period of time, the water will heat up to a higher temperature. This problem already occurs in the case of pipes concealed in walls and floors, but can occur to a greater extent in infrastructure spaces such as suspended ceilings, for example of hospitals, care centers, retirement homes, schools, hotels, campsites, marinas, etc. since such rooms often also contain pipes of the heating system and the hot water system.

When water stands still for a long time in a relatively warm state, in the range of about 20 ° C to about 60 ° C, the quality thereof can deteriorate. In particular, bacterial growth may occur in the water. Notorious in this context is the bacterium legionella pneumophila, the cause of the veteran disease or legionary disease, which is a form of pneumonia. When that bacterium is subsequently inhaled by a user of the water, that person can become seriously ill or even die. This includes residents of hospitals, care centers, retirement homes, etc.

25 extra vulnerable.

A problem is that it is very difficult to check whether a water pipe is suspicious. In itself it is conceivable that the instantaneous temperature of a water pipe is measured, but this requires that that pipe 30 be accessible (which will not always and everywhere be the case), it is labor intensive (certainly in the larger complexes 1 v J o 8 9 1 2 as hospitals and care centers), and it gives no certainty about the actual level of infection.

It is an object of the present invention to provide a solution to this problem.

To this end, the present invention proposes to provide a water pipe with a temperature measuring unit with telecommunication facility. In a preferred embodiment, the telecommunication facility is implemented as an RFID tag; such tags are known per se, and require no further explanation. The temperature measurement unit further comprises a thermosensor, which is preferably integrated in the RFID tag.

RFID tags are relatively inexpensive, in the form of for example a sticker, to be applied to pipes, both on existing pipes and on pipes that still have to be installed. The tags are preferably applied to the pipe at regular intervals, for example at mutual distances of approximately 2.5-3 meters.

The control of the pipes is also considerably simpler according to the present invention: a controller comes with an RFID reader in the vicinity of the pipes. The reader interrogates the RFID tags in his neighborhood. Each RFID tag reports with its unique identification code (so that it can be traced in a database where the relevant tag is located), and reports the temperature data of the relevant pipe section. The measurement data collected by the individual tags can thus be read remotely.

The unit may be provided with a memory in which a temperature measurement is stored at intervals (for example, once every 5 minutes). The RFID tag can then provide a historical overview of temperature values.

It is also possible that the unit only stores the highest temperature value per predetermined period of time (for example, once a day).

In all the aforementioned cases it can be established that the temperature of the pipe section monitored by a temperature measuring unit has not exceeded a certain threshold value. If that turns out to be the case, it can be decided to flush the pipe with hot water.

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Instead of a controller walking along the pipes with an RFID reader, it is also possible that the temperature measuring units communicate with a fixed central station. As soon as the central station receives information from a temperature measuring unit, indicating that a pipe section is in a thermal danger zone, the system can automatically and autonomously decide to take an action, for example giving an indication signal for switching on personnel, or for example the rinsing the pipe with hot water.

It is noted that it is possible to implement the invention with passive RFID tags, the advantage being that they are cheaper than active RFID tags. However, it is also possible to implement the invention with active RFID tags, i.e. tags with their own battery, with the advantage that the range over which such active tags can be communicated is greater.

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Claims (11)

A method for monitoring water pipes, wherein a water pipe is provided with a temperature measuring unit with telecommunication facility. The method of claim 2, wherein the temperature measuring unit comprises an RFID tag. 3. Water pipe monitoring system, comprising a system of temperature measuring units mounted on a water pipe, each with telecommunication facility. A water pipe monitoring system according to claim 3, wherein a temperature measuring unit comprises an RFID tag. Water pipe monitoring system according to claim 4, wherein a thermosensor is integrated in the RFID tag. 6. Water pipe monitoring system according to any of claims 3-5, wherein each temperature measuring unit is provided with a memory for storing a plurality of measurement data. 7. Water pipe monitoring system according to claim 6, wherein a temperature measuring unit is arranged for regularly taking a measurement of the temperature of the relevant pipe part and storing the measurement results of several measurements. 8. Water pipe monitoring system according to claim 6, wherein a temperature measuring unit is arranged for regularly taking a measurement of the temperature of the relevant pipe part and storing the highest temperature value of a certain period. 9. Water pipe monitoring system according to any of the claims 3-8, arranged for automatically performing an action when a too high temperature measurement value is detected. 10. Water pipe monitoring system according to claim 9, wherein said action comprises giving an alarm signal, or automatically flushing the relevant pipe section with hot water. 11. Water pipe, provided with at least one temperature measuring unit with telecommunication facility arranged thereon. . -.v A | sj - J Cl O v ü