HU219751B - Device-set for measuring of losses of drinking water-network - Google Patents

Abstract

The subject of the invention is a set of tools for determining the losses of drinking water pipe networks, which includes at least one measuring head connected to the flow area of the pipe network, as well as a processing and evaluation unit connected to the measuring head. The feature of the solution is that the measuring head (20) is equipped with a heat loss sensing measuring tip (21) that extends directly into the flow space (15) of the pipe section (11) of the pipe section (11) to be measured, and the measuring head (20) has a mounting body (31) and a sealing insert (30). is attached to the boundary wall (13) of the pipe section (11) to be measured. ŕ

Description

Scope of the description is 6 pages (including 2 sheets)

EN 219 751

The present invention relates to a set of means for determining the losses of drinking water pipe networks comprising at least one measuring head in connection with the flow area of the pipe network and the processing and evaluation unit connected to the measuring head.

It is known that drinking water networks can be operated with a percentage of transport and sales loss as a function of the amount of water they pass through. This percentage (practically up to 10-40%) depends to a large extent on the technical condition of the pipeline network, the operating pressure of the network, consumer habits and consumer behavior. In this case, the technical condition of the pipe network can be associated with leakage errors. The operating pressure of the network influences the losses in such a way that more water flows through the same gap, hole, and damage at higher pressure. Consumption habits affect the losses in a more complex way, on the one hand, the rate of consumption falls back on the network pressure, and on the other hand, the time-varying consumption affects the accuracy of the quantity measurement. The focus of consumer behavior is primarily on illegal water abstraction. These losses can be tracked or attempted by periodic or continuous network surveys.

Techniques for continuous measurement ensure better detection of loss. Of these, the acoustic fault location selection and the loss measurement technique are known. Large-scale global exploration with good results can be achieved through loss measurements. Notable variations of loss measurements, night-time short-term measurements, use of district metrics, and measurement of the volumetric flow rate. All these measurements are extremely effective tools for loss detection.

Such solutions are known from US 5,568,825. and from http://www.usurvey.com and http://www.mesimpson.com.

The drawbacks of the prior art so far are that the test is carried out either in the modified state of the pipeline system, for example, by examining a split part of the pipeline between two hydrant connections (otherwise with flow measurement causing pressure loss), or by converting with a water meter installation to a measuring station such as known water meters, with sensitivity and water sensitivity it is also burdened with pressure loss.

It is an object of the present invention to overcome the drawbacks of the known solutions and to create a set of tools for implementing a quick and easy determination of losses and consumption habits of large drinking water networks without disrupting the piping system and changing the pressure conditions of the piping system.

The invention is based on the finding that, if a flow rate meter is placed in the desired boreholes of a large-scale pipe network without disrupting the piping system, the sensitivity of which can also measure the flow through the smallest consumer by transferring this speedometer from one cluster to another, the measurement is performed in several branches , the task can be solved. There is a measuring device that operates on the principle of heat loss, which is used for measuring very low flow rates in other areas. This measuring device can be inserted into the boreholes of the pipe network by means of non-conventional elements, so that the required small flow rate becomes visible.

In accordance with the object of the present invention, there is provided a set of devices for determining the losses of the drinking water network, comprising at least one measuring head in connection with the flow area of the pipe network and the processing and evaluation unit connected to the probe, in such a way that the measuring head is directly in the flow space of the pipeline of the pipe section to be measured. the measuring head is fitted with a measuring tip for detecting heat loss and the probe is secured by means of an attachment body and sealing insert attached to the boundary wall of the tube section to be measured.

A further feature of the device set according to the invention may be that the measuring tip is provided with a primary temperature sensor and a secondary heat detector. Each pipeline in the pipe section to be measured is provided with at least one measuring head separately, and each probe is connected via an information transmission line to the processing and evaluation unit.

In a different embodiment of the invention, the fastening body has a hinge connected to the boundary wall of the tube section to be measured, the receiving hinge has a receiving opening of the size corresponding to the outer casing of the housing of the probe, and a sealing body inserted between the hinge and the outer casing of the housing of the probe.

The advantage of the tool kit according to the invention is that it can be easily, quickly and accurately measured during the normal operation, under pressure, by measuring the losses and consumption habits of large drinking water supply networks without breaking down the pipeline. Measuring results can be evaluated well, so the necessary interventions can be made based on reliable results that meet the requirements, and appropriate measures can be taken. As a result, both operating and loss costs can be reduced.

The invention will now be described in more detail with reference to a drawing, in accordance with the drawing. It is in the drawing

Figure 1 is a schematic view of the arrangement of the device set according to the invention, a

Fig. 2 is a sectional side view of a variant of the device set according to the invention.

Figure 1 is a schematic diagram of the arrangement of the device set according to the invention. It should be noted that the pipe section 11 to be measured in the pipe network 10 is, as is customary, divided into line wires 12. Each probe 20 is connected to each of the conductors 12. The measuring heads 20 are connected to the processing and evaluation unit 40 by means of the information transmission line 41 for processing data measured by the measuring heads 20.

EN 219 751

Fig. 2 illustrates the design of the measuring head 20 and the insertion into the boundary wall 13 of the pipe section 11 to be measured. The measuring head 20 has a measuring tip 21 extending into the flow area 15 enclosed by the boundary wall 13 and a housing 22 holding the measuring tip 21. In the present embodiment, the measuring tip 21 comprises a submerged-type sensor unit operating on a heat loss principle comprising a primary heat detector 24 and a secondary heat detector 25.

Figure 2 also shows how the housing 22 of the probe 20 is connected to the boundary wall of the pipe section 11 to be measured in the pipe network 10. The boundary wall 13 of the tubular section to be measured is surrounded by the fastening body 31, whose clamp 32 clamps the sealing insert 30 to the boundary wall 13 of the pipe section 11 to be measured. In the boundary wall 13 of the pipe section to be measured there is a bore 14 through which the measuring tip 21 of the measuring head 20 extends into the flow space 15. The fastening body 31 is positioned on the boundary wall 13 of the pipe section 11 to be measured so that the opening 33 has a receiving aperture 33 adapted to the outer casing 23 of the housing 22 of the probe 20, above the bore 14. The sealing body 34 is located between the outer shell 23 of the housing 22 of the probe 20 and the receiving aperture 33 of the clamp 32 of the clamping body 32, which, together with the sealing insert 30, prevents the liquid from escaping from the flow space 15 of the tube section to be measured through the drill 14 and the receiving opening 33.

The housing 22 of the measuring head 20 has an information transmission line 41 at the end of the measuring tip 21 which connects the measuring head 20 with the processing and evaluation unit 40.

When using the kit according to the invention, the measuring heads 20 must first be placed on the pipe sections 11 to be measured by the conductor clusters 12. To this end, the sealing insert 30 is pressed to the boundary wall 13 of the pipe section to be measured by means of the fixing body 31. Thereafter, a bore 14 of the boundary wall 13 of the tubular section to be measured is formed through a receiving aperture 33 on the clamping strap 32 of the clamping body 31, with a specific tool. Finally, through the orifice 33 and the drill 33, the measuring tip 21 of the probe 20 is inserted into the flow space 15 of the pipe section to be measured.

In order to make the measurement as accurate as possible, as shown in Figure 1, it is advisable to place the pipe clusters 12 of the pipe network 10 and connect each of the information transmission lines 41 of each measuring head 20 to the processing and evaluation unit 40.

During the operation of the measuring heads 20, the measuring peaks 21 also detect a minimum flow rate of 1 mm / s, thus also providing data on the smallest fluid movement in the flow space 15 of the pipe network 10 into the processing unit 40, which is a suitably selected computing device. The data collected in the processing and evaluation unit 40 is then processed according to the loss measurement procedures already known per se and produces results typical of loss and consumption habits.

The tool kit of the present invention is well suited for measuring the flow rate of fluids in the drinking water network and, consequently, for measuring data on loss and consumption patterns.

Claims (4)

PATENT CLAIMS A tool kit for determining losses in drinking water pipe networks, comprising at least one probe communicating with the flow area of the pipe network and a processing and evaluation unit connected to the probe, characterized in that the probe (20) is directly connected to the conduit and the probe (20) is secured to the boundary wall (13) of the tube section (11) by inserting a mounting body (31) and a sealing insert (30). The tool set according to claim 1, characterized in that the measuring tip (21) is provided with a primary temperature sensor (24) and a secondary temperature sensor (25). Tool set according to claim 1 or 2, characterized in that at least one probe (20) is disposed separately in each of the conduits (12, 12 ') of the tube section (11) to be measured, each probe (20) and are connected to the processing and evaluation unit (40) via an information transmission line (41). 4. Tool set according to any one of claims 1 to 5, characterized in that the fastening body (31) has a hinge (32) connected to the boundary wall (13) of the tube section (11) to be measured, the hinge (33) a receiving opening (33) of adaptive size, and a receiving body (34) disposed between the engagement strap (32) and the outer periphery (23) of the probe (20) housing the receiving opening (34).