DE19701317A1 - Leak recognition in fluid pipeline system - Google Patents

Abstract

The method is carried out by first automatically determining the throughflow amount in the conventional manner. In the times of the lowest throughflow, the amount of fluid material flowing is computed over a longer time duration. Average values are computed, and these average values are monitored on slowly rising amounts. Extreme values exceeding the determined thresholds are not used for forming the average value. The evaluation unit esp. monitors for strong, sudden increases in the throughflow, and compares the amount flowing presently with the usual time of day maximum. It activates an alarm if the actual amount flowing reaches an amount which is higher than the max. amount.

Description

The invention relates to a device for detecting leaks in Water pipes, especially those that supply the Serve the population.

The invention can also be used in piping systems for transport any liquid substances, for example in the chemical industry, be used.

Leaks and leaks often occur in such piping systems that lead to considerable losses. Such leaks can go through Aging, pitting, due to faults in the surrounding soil leads to tension in the pipes, which can cause pipes to burst, occur.

These leaks, even if they are small, can persist in the long run seen and with a large number of such leaks lead to considerable losses.

Also from an ecological perspective in the sense of economical Water losses such losses are highly undesirable. Such loss amounts remain available with today's means stand, largely undetected. This can be explained by the fact that the flowing amounts of liquid, e.g. B. in waterworks from Consumption of a variety of households and industrial customers is determined, fluctuates strongly and a grafted Loss amount is therefore not recognized.

The invention is based, such leaks and the task To detect leaks and to inform the operating personnel about To give elimination.

This happens according to the invention in that a measuring and Evaluation unit automatically selects such times for leak detection, in which the consumption, i.e. the flow, is very low. During the At times of low consumption, the flow becomes longer Period recorded, the average consumption calculated, whereby Outliers that do not exceed certain limits for the Averaging used over a longer period of time the evaluation unit can be observed.

Furthermore, the evaluation unit examines strong, sudden increases, compares the then flowing amount with the usual to the respective Flowing time of day. Finally, it is checked whether there are short phases there are no liquid underneath through the pipeline Taking into account the usual water pressure flows.

The consumption is at night or at times of low consumption not constant. It does, however, if you have a long period of time considered, an average consumption that is within narrow limits holds, investigate. The facility is designed so that outliers that are outside certain limit values when determining the average consumption can be eliminated. Such outliers can for example when filling a swimming pool.

If the average consumption determined in this way increases gradually, then small leaks can be diagnosed.

If a strong, sudden increase now occurs and this additional increases Consumption in a reasonable period of time can not return there is a sudden leak. This can for example due to faults in the ground, causing pipes to burst, arise. In such a case, it is very convenient to To connect the evaluation unit with an alarm system.

In many cases, however, the filling material surrounding the pipe acts as one additional seal, and despite a leak there is little, slightly increasing loss. The liquid medium then looks for its Away and gradually rinses out the filling material surrounding the pipe, so that there is an increasing to abruptly increasing flow rate results.  

If normal at a measuring point, even for a short time Provided line pressure, no flow takes place, it can Wiring harness with its subsequent branches diagnosed as tight will.

The following is an embodiment of the invention below Reference to the schematic figure with others Features of the invention described in more detail:

1 is a measuring point of several measuring points, which are distributed in the pipeline system and record, temporarily store and pre-evaluate the respective flow.

2 represents a measuring point on an elevated tank. In addition to the flow, the line pressure is also measured here.

3 is the central evaluation station.

4 is the network adapter, which collects the measurement data from the various transmission paths and forwards them to the evaluation PC.

5 is the cable connection to those measuring points which are connected to the network adapter 4 via data cables (cable network).

6 leads to measuring points which are connected to the network adapter 4 via telephone lines. 7 leads to measuring points which are connected to the network adapter 4 via radio links.

Thus, the data from the individual measuring points 1 are transmitted in this device by data cables, by telephone lines and radio links.

The structure of the measuring points is largely identical. The amount of water flowing through is fed through a water meter in the form of pulses proportional to the flow to electronics in the measuring point. This stores the amount of water in constant data packets in individual data packets. These data packets are from the data center 3 z. B. accessed and evaluated once a day.

The data acquisition unit of the individual measuring points checks them Data packets to limit values. These limits become time-dependent changed and are from the maximum normal flow to depending on the hour and are subject to a surcharge over the Maximum value specified.

If this limit value is exceeded at any measuring point, an unusual situation arises which indicates a large loss of water due to a leak. If such a condition occurs, the evaluation electronics reports to the individual measuring points and immediately sends information about its network to the network adapter 4 and further to the evaluation unit 3 . An alarm is triggered there, which is redirected to a paging system if the staff is not present.

Claims (6)

1. The method, measuring, evaluation, and output unit for leak detection in piping systems for liquid substances, characterized in that the amount flowing through is automatically detected in a manner known per se that in times of the lowest flow rate, the amount flowing through is detected over a longer period of time average values are calculated and these average values are examined for slowly increasing quantities, outliers which exceed certain limits are not used for averaging. 2. Method, measuring, evaluation, and output unit for leak detection in Pipe systems for liquid substances according to claim 1, characterized characterized that the evaluation unit after strong, erratic Looking for increases, then compares the amount flowing with that to the usual maximum amount at the respective time of day and triggers an alarm, if the amount actually flowing is greater than that Maximum quantity. 3. Method, measuring, evaluation, and output unit for leak detection in Pipe systems for liquid substances according to claims 1 and 2, characterized in that the evaluation unit searches for phases in which no liquid through the pipeline, taking into account the usual water pressure flows. 4. Method, measuring, evaluation and output unit for leak detection in piping systems for liquid substances according to claims 1 to 3, characterized in that the usual quantity exceeding the time of day an immediate reaction in the evaluation unit with alarm leads.   5. Method, measuring, evaluation, and output unit for leak detection in piping systems for liquid substances according to claims 1 to 4, characterized in that the amounts of liquid per se well-known liquid meters for the flow rate Provide proportional pulse counts, capture this data in transmit a data center, there in an evaluation unit evaluated and the results on man-machine Interfaces such as screen and printer are output. 6. Method, measuring, evaluation, and output unit for leak detection in piping systems for liquid substances according to claims 1 to 5, characterized in that an alarm according to claim 2 is redirected to a paging system when the data center is not occupied.